Array ( [body] => Array ( [#theme] => field [#weight] => 0 [#title] => Body [#access] => 1 [#label_display] => hidden [#view_mode] => teaser [#language] => und [#field_name] => body [#field_type] => text_with_summary [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517987 [uid] => 26499 [title] => I Light Up Less. I Light Up with Science [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127480 [type] => box_lancio_news [language] => it [created] => 1770976065 [changed] => 1770976382 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770976382 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M'illumino di Meno" campaign this year, promoted by Caterpillar and Rai Radio 2 and scheduled for Monday, February 16, 2026, on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles.

In line with the national initiative, on February 16, the lights of Palazzo del Bo, the historical heart of the University, and Palazzo Storione, the administrative center, will be turned off at around 5:30 pm, along with hundreds of monuments and buildings across Italy.

The 2026 edition, titled M'Illumino di Meno. M'Illumino di Scienza, emphasizes the role of scientific research in addressing environmental challenges and promoting alternative and more sustainable energy solutions, capable of reducing dependence on fossil fuels in the energy transition process. To highlight the University's contribution to these topics, short videos featuring professors and researchers discussing their research activities will be published on the UniPadova Sostenibile Facebook and Instagram channels in the following weeks.

In addition to symbolic gestures, there will also be opportunities for concrete actions of sharing: on Monday, February 16, from 10 AM to 5:30 PM, the Central Library of Engineering is offering Share (in) the Library, an opportunity to recirculate unused items. Throughout the day, UniPd students can find books and small items useful for studying and cooking, and freely take up to three items, leaving "in exchange" a like or a photo shared on the Library's Instagram profile.

[summary] => [format] => 2 [safe_value] =>

The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M'illumino di Meno" campaign this year, promoted by Caterpillar and Rai Radio 2 and scheduled for Monday, February 16, 2026, on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles.

In line with the national initiative, on February 16, the lights of Palazzo del Bo, the historical heart of the University, and Palazzo Storione, the administrative center, will be turned off at around 5:30 pm, along with hundreds of monuments and buildings across Italy.

The 2026 edition, titled M'Illumino di Meno. M'Illumino di Scienza, emphasizes the role of scientific research in addressing environmental challenges and promoting alternative and more sustainable energy solutions, capable of reducing dependence on fossil fuels in the energy transition process. To highlight the University's contribution to these topics, short videos featuring professors and researchers discussing their research activities will be published on the UniPadova Sostenibile Facebook and Instagram channels in the following weeks.

In addition to symbolic gestures, there will also be opportunities for concrete actions of sharing: on Monday, February 16, from 10 AM to 5:30 PM, the Central Library of Engineering is offering Share (in) the Library, an opportunity to recirculate unused items. Throughout the day, UniPd students can find books and small items useful for studying and cooking, and freely take up to three items, leaving "in exchange" a like or a photo shared on the Library's Instagram profile.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-13T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146133 [uid] => 26499 [filename] => xMillumino-di-Meno_rettangolare-2026.jpg [uri] => public://xMillumino-di-Meno_rettangolare-2026.jpg [filemime] => image/jpeg [filesize] => 75469 [status] => 1 [timestamp] => 1770976327 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 263 [width] => 816 ) [height] => 263 [width] => 816 [alt] => flyer's day [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M’illumino di Meno" campaign this year on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles [format] => [safe_value] => The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M’illumino di Meno" campaign this year on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-13T00:00:00 [value2] => 2026-05-13T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => English version [format] => [safe_value] => English version ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 3 [current_revision_id] => 517987 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] =>

The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M'illumino di Meno" campaign this year, promoted by Caterpillar and Rai Radio 2 and scheduled for Monday, February 16, 2026, on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles.

In line with the national initiative, on February 16, the lights of Palazzo del Bo, the historical heart of the University, and Palazzo Storione, the administrative center, will be turned off at around 5:30 pm, along with hundreds of monuments and buildings across Italy.

The 2026 edition, titled M'Illumino di Meno. M'Illumino di Scienza, emphasizes the role of scientific research in addressing environmental challenges and promoting alternative and more sustainable energy solutions, capable of reducing dependence on fossil fuels in the energy transition process. To highlight the University's contribution to these topics, short videos featuring professors and researchers discussing their research activities will be published on the UniPadova Sostenibile Facebook and Instagram channels in the following weeks.

In addition to symbolic gestures, there will also be opportunities for concrete actions of sharing: on Monday, February 16, from 10 AM to 5:30 PM, the Central Library of Engineering is offering Share (in) the Library, an opportunity to recirculate unused items. Throughout the day, UniPd students can find books and small items useful for studying and cooking, and freely take up to three items, leaving "in exchange" a like or a photo shared on the Library's Instagram profile.

[summary] => [format] => 2 [safe_value] =>

The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M'illumino di Meno" campaign this year, promoted by Caterpillar and Rai Radio 2 and scheduled for Monday, February 16, 2026, on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles.

In line with the national initiative, on February 16, the lights of Palazzo del Bo, the historical heart of the University, and Palazzo Storione, the administrative center, will be turned off at around 5:30 pm, along with hundreds of monuments and buildings across Italy.

The 2026 edition, titled M'Illumino di Meno. M'Illumino di Scienza, emphasizes the role of scientific research in addressing environmental challenges and promoting alternative and more sustainable energy solutions, capable of reducing dependence on fossil fuels in the energy transition process. To highlight the University's contribution to these topics, short videos featuring professors and researchers discussing their research activities will be published on the UniPadova Sostenibile Facebook and Instagram channels in the following weeks.

In addition to symbolic gestures, there will also be opportunities for concrete actions of sharing: on Monday, February 16, from 10 AM to 5:30 PM, the Central Library of Engineering is offering Share (in) the Library, an opportunity to recirculate unused items. Throughout the day, UniPd students can find books and small items useful for studying and cooking, and freely take up to three items, leaving "in exchange" a like or a photo shared on the Library's Instagram profile.

[safe_summary] => ) ) [#formatter] => text_summary_or_trimmed [0] => Array ( [#markup] =>

The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M'illumino di Meno" campaign this year, promoted by Caterpillar and Rai Radio 2 and scheduled for Monday, February 16, 2026, on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles.

) ) [field_img_box_lancio_news] => Array ( [#theme] => field [#weight] => 0 [#title] => Immagine [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_img_box_lancio_news [#field_type] => image [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517987 [uid] => 26499 [title] => I Light Up Less. I Light Up with Science [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127480 [type] => box_lancio_news [language] => it [created] => 1770976065 [changed] => 1770976382 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770976382 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M'illumino di Meno" campaign this year, promoted by Caterpillar and Rai Radio 2 and scheduled for Monday, February 16, 2026, on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles.

In line with the national initiative, on February 16, the lights of Palazzo del Bo, the historical heart of the University, and Palazzo Storione, the administrative center, will be turned off at around 5:30 pm, along with hundreds of monuments and buildings across Italy.

The 2026 edition, titled M'Illumino di Meno. M'Illumino di Scienza, emphasizes the role of scientific research in addressing environmental challenges and promoting alternative and more sustainable energy solutions, capable of reducing dependence on fossil fuels in the energy transition process. To highlight the University's contribution to these topics, short videos featuring professors and researchers discussing their research activities will be published on the UniPadova Sostenibile Facebook and Instagram channels in the following weeks.

In addition to symbolic gestures, there will also be opportunities for concrete actions of sharing: on Monday, February 16, from 10 AM to 5:30 PM, the Central Library of Engineering is offering Share (in) the Library, an opportunity to recirculate unused items. Throughout the day, UniPd students can find books and small items useful for studying and cooking, and freely take up to three items, leaving "in exchange" a like or a photo shared on the Library's Instagram profile.

[summary] => [format] => 2 [safe_value] =>

The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M'illumino di Meno" campaign this year, promoted by Caterpillar and Rai Radio 2 and scheduled for Monday, February 16, 2026, on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles.

In line with the national initiative, on February 16, the lights of Palazzo del Bo, the historical heart of the University, and Palazzo Storione, the administrative center, will be turned off at around 5:30 pm, along with hundreds of monuments and buildings across Italy.

The 2026 edition, titled M'Illumino di Meno. M'Illumino di Scienza, emphasizes the role of scientific research in addressing environmental challenges and promoting alternative and more sustainable energy solutions, capable of reducing dependence on fossil fuels in the energy transition process. To highlight the University's contribution to these topics, short videos featuring professors and researchers discussing their research activities will be published on the UniPadova Sostenibile Facebook and Instagram channels in the following weeks.

In addition to symbolic gestures, there will also be opportunities for concrete actions of sharing: on Monday, February 16, from 10 AM to 5:30 PM, the Central Library of Engineering is offering Share (in) the Library, an opportunity to recirculate unused items. Throughout the day, UniPd students can find books and small items useful for studying and cooking, and freely take up to three items, leaving "in exchange" a like or a photo shared on the Library's Instagram profile.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-13T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146133 [uid] => 26499 [filename] => xMillumino-di-Meno_rettangolare-2026.jpg [uri] => public://xMillumino-di-Meno_rettangolare-2026.jpg [filemime] => image/jpeg [filesize] => 75469 [status] => 1 [timestamp] => 1770976327 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 263 [width] => 816 ) [height] => 263 [width] => 816 [alt] => flyer's day [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M’illumino di Meno" campaign this year on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles [format] => [safe_value] => The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M’illumino di Meno" campaign this year on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-13T00:00:00 [value2] => 2026-05-13T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => English version [format] => [safe_value] => English version ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 3 [current_revision_id] => 517987 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [fid] => 146133 [uid] => 26499 [filename] => xMillumino-di-Meno_rettangolare-2026.jpg [uri] => public://xMillumino-di-Meno_rettangolare-2026.jpg [filemime] => image/jpeg [filesize] => 75469 [status] => 1 [timestamp] => 1770976327 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 263 [width] => 816 ) [height] => 263 [width] => 816 [alt] => flyer's day [title] => ) ) [#formatter] => image [0] => Array ( [#theme] => image_formatter [#item] => Array ( [fid] => 146133 [uid] => 26499 [filename] => xMillumino-di-Meno_rettangolare-2026.jpg [uri] => public://xMillumino-di-Meno_rettangolare-2026.jpg [filemime] => image/jpeg [filesize] => 75469 [status] => 1 [timestamp] => 1770976327 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 263 [width] => 816 ) [height] => 263 [width] => 816 [alt] => flyer's day [title] => ) [#image_style] => [#path] => ) ) [field_abstract_news] => Array ( [#theme] => field [#weight] => 0 [#title] => Abstract [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_abstract_news [#field_type] => text_long [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517987 [uid] => 26499 [title] => I Light Up Less. I Light Up with Science [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127480 [type] => box_lancio_news [language] => it [created] => 1770976065 [changed] => 1770976382 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770976382 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M'illumino di Meno" campaign this year, promoted by Caterpillar and Rai Radio 2 and scheduled for Monday, February 16, 2026, on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles.

In line with the national initiative, on February 16, the lights of Palazzo del Bo, the historical heart of the University, and Palazzo Storione, the administrative center, will be turned off at around 5:30 pm, along with hundreds of monuments and buildings across Italy.

The 2026 edition, titled M'Illumino di Meno. M'Illumino di Scienza, emphasizes the role of scientific research in addressing environmental challenges and promoting alternative and more sustainable energy solutions, capable of reducing dependence on fossil fuels in the energy transition process. To highlight the University's contribution to these topics, short videos featuring professors and researchers discussing their research activities will be published on the UniPadova Sostenibile Facebook and Instagram channels in the following weeks.

In addition to symbolic gestures, there will also be opportunities for concrete actions of sharing: on Monday, February 16, from 10 AM to 5:30 PM, the Central Library of Engineering is offering Share (in) the Library, an opportunity to recirculate unused items. Throughout the day, UniPd students can find books and small items useful for studying and cooking, and freely take up to three items, leaving "in exchange" a like or a photo shared on the Library's Instagram profile.

[summary] => [format] => 2 [safe_value] =>

The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M'illumino di Meno" campaign this year, promoted by Caterpillar and Rai Radio 2 and scheduled for Monday, February 16, 2026, on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles.

In line with the national initiative, on February 16, the lights of Palazzo del Bo, the historical heart of the University, and Palazzo Storione, the administrative center, will be turned off at around 5:30 pm, along with hundreds of monuments and buildings across Italy.

The 2026 edition, titled M'Illumino di Meno. M'Illumino di Scienza, emphasizes the role of scientific research in addressing environmental challenges and promoting alternative and more sustainable energy solutions, capable of reducing dependence on fossil fuels in the energy transition process. To highlight the University's contribution to these topics, short videos featuring professors and researchers discussing their research activities will be published on the UniPadova Sostenibile Facebook and Instagram channels in the following weeks.

In addition to symbolic gestures, there will also be opportunities for concrete actions of sharing: on Monday, February 16, from 10 AM to 5:30 PM, the Central Library of Engineering is offering Share (in) the Library, an opportunity to recirculate unused items. Throughout the day, UniPd students can find books and small items useful for studying and cooking, and freely take up to three items, leaving "in exchange" a like or a photo shared on the Library's Instagram profile.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-13T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146133 [uid] => 26499 [filename] => xMillumino-di-Meno_rettangolare-2026.jpg [uri] => public://xMillumino-di-Meno_rettangolare-2026.jpg [filemime] => image/jpeg [filesize] => 75469 [status] => 1 [timestamp] => 1770976327 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 263 [width] => 816 ) [height] => 263 [width] => 816 [alt] => flyer's day [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M’illumino di Meno" campaign this year on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles [format] => [safe_value] => The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M’illumino di Meno" campaign this year on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-13T00:00:00 [value2] => 2026-05-13T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => English version [format] => [safe_value] => English version ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 3 [current_revision_id] => 517987 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] => The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M’illumino di Meno" campaign this year on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles [format] => [safe_value] => The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M’illumino di Meno" campaign this year on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles ) ) [#formatter] => text_default [0] => Array ( [#markup] => The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M’illumino di Meno" campaign this year on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles ) ) [links] => Array ( [#theme] => links__node [#pre_render] => Array ( [0] => drupal_pre_render_links ) [#attributes] => Array ( [class] => Array ( [0] => links [1] => inline ) ) [node] => Array ( [#theme] => links__node__node [#links] => Array ( [node-readmore] => Array ( [title] => Read more about I Light Up Less. I Light Up with Science [href] => node/127480 [html] => 1 [attributes] => Array ( [rel] => tag [title] => I Light Up Less. I Light Up with Science ) ) ) [#attributes] => Array ( [class] => Array ( [0] => links [1] => inline ) ) ) ) [field_date_box_lancio_news] => Array ( [#theme] => field [#weight] => 1 [#title] => Data [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_date_box_lancio_news [#field_type] => date [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517987 [uid] => 26499 [title] => I Light Up Less. I Light Up with Science [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127480 [type] => box_lancio_news [language] => it [created] => 1770976065 [changed] => 1770976382 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770976382 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M'illumino di Meno" campaign this year, promoted by Caterpillar and Rai Radio 2 and scheduled for Monday, February 16, 2026, on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles.

In line with the national initiative, on February 16, the lights of Palazzo del Bo, the historical heart of the University, and Palazzo Storione, the administrative center, will be turned off at around 5:30 pm, along with hundreds of monuments and buildings across Italy.

The 2026 edition, titled M'Illumino di Meno. M'Illumino di Scienza, emphasizes the role of scientific research in addressing environmental challenges and promoting alternative and more sustainable energy solutions, capable of reducing dependence on fossil fuels in the energy transition process. To highlight the University's contribution to these topics, short videos featuring professors and researchers discussing their research activities will be published on the UniPadova Sostenibile Facebook and Instagram channels in the following weeks.

In addition to symbolic gestures, there will also be opportunities for concrete actions of sharing: on Monday, February 16, from 10 AM to 5:30 PM, the Central Library of Engineering is offering Share (in) the Library, an opportunity to recirculate unused items. Throughout the day, UniPd students can find books and small items useful for studying and cooking, and freely take up to three items, leaving "in exchange" a like or a photo shared on the Library's Instagram profile.

[summary] => [format] => 2 [safe_value] =>

The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M'illumino di Meno" campaign this year, promoted by Caterpillar and Rai Radio 2 and scheduled for Monday, February 16, 2026, on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles.

In line with the national initiative, on February 16, the lights of Palazzo del Bo, the historical heart of the University, and Palazzo Storione, the administrative center, will be turned off at around 5:30 pm, along with hundreds of monuments and buildings across Italy.

The 2026 edition, titled M'Illumino di Meno. M'Illumino di Scienza, emphasizes the role of scientific research in addressing environmental challenges and promoting alternative and more sustainable energy solutions, capable of reducing dependence on fossil fuels in the energy transition process. To highlight the University's contribution to these topics, short videos featuring professors and researchers discussing their research activities will be published on the UniPadova Sostenibile Facebook and Instagram channels in the following weeks.

In addition to symbolic gestures, there will also be opportunities for concrete actions of sharing: on Monday, February 16, from 10 AM to 5:30 PM, the Central Library of Engineering is offering Share (in) the Library, an opportunity to recirculate unused items. Throughout the day, UniPd students can find books and small items useful for studying and cooking, and freely take up to three items, leaving "in exchange" a like or a photo shared on the Library's Instagram profile.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-13T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146133 [uid] => 26499 [filename] => xMillumino-di-Meno_rettangolare-2026.jpg [uri] => public://xMillumino-di-Meno_rettangolare-2026.jpg [filemime] => image/jpeg [filesize] => 75469 [status] => 1 [timestamp] => 1770976327 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 263 [width] => 816 ) [height] => 263 [width] => 816 [alt] => flyer's day [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M’illumino di Meno" campaign this year on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles [format] => [safe_value] => The University of Padua, through the UniPadova Sostenibile program, is once again participating in the "M’illumino di Meno" campaign this year on the occasion of the National Day of Energy Conservation and Sustainable Lifestyles ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-13T00:00:00 [value2] => 2026-05-13T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => English version [format] => [safe_value] => English version ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 3 [current_revision_id] => 517987 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] => 2026-02-13T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) [#formatter] => date_default [0] => Array ( [#markup] => Ven, 13/02/2026 ) ) )

Array ( [field_link_esterno_news] => Array ( [#theme] => field [#weight] => -1 [#title] => Link esterno news [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_link_esterno_news [#field_type] => text_long [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517911 [uid] => 26499 [title] => Horizon H-HOPE by Unipd: Achievements and Future Goals [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127474 [type] => box_lancio_news [language] => it [created] => 1770898855 [changed] => 1770898855 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770898855 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

The project has developed mini cylindrical hydroelectric devices that generate energy from the water flow within pipes and channels. This energy powers IoT sensors that monitor the condition of water infrastructures, providing real-time data and improving the management of emergencies such as floods or leaks.

In 2025, H-HOPE achieved significant technological milestones, with energy recovery efficiencies ranging between 25% and 40%. The team developed advanced models to optimize the design of the devices and successfully tested prototypes in the laboratory. Pilot sites in various European countries have been identified for further development.

The project also launched a Data Hub on  GitHub for sharing codes and resources, promoting a "do-it-yourself" approach. H-HOPE integrated the research into university courses and initiated doctoral programs to train future leaders in the energy sector.

Looking ahead, the project focuses on finalizing pilot analyses and mapping energy recovery opportunities for the European Union's water sector.

[summary] => [format] => 2 [safe_value] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

The project has developed mini cylindrical hydroelectric devices that generate energy from the water flow within pipes and channels. This energy powers IoT sensors that monitor the condition of water infrastructures, providing real-time data and improving the management of emergencies such as floods or leaks.

In 2025, H-HOPE achieved significant technological milestones, with energy recovery efficiencies ranging between 25% and 40%. The team developed advanced models to optimize the design of the devices and successfully tested prototypes in the laboratory. Pilot sites in various European countries have been identified for further development.

The project also launched a Data Hub on  GitHub for sharing codes and resources, promoting a "do-it-yourself" approach. H-HOPE integrated the research into university courses and initiated doctoral programs to train future leaders in the energy sector.

Looking ahead, the project focuses on finalizing pilot analyses and mapping energy recovery opportunities for the European Union's water sector.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => water [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( [und] => Array ( [0] => Array ( [value] => [format] => [safe_value] => ) ) ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries [format] => [safe_value] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/horizon-h-hope-unipd-traguardi-obiettivi [format] => [safe_value] => https://www.unipd.it/news/horizon-h-hope-unipd-traguardi-obiettivi ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => Versione italiana [format] => [safe_value] => Versione italiana ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 1 [current_revision_id] => 517911 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] => [format] => [safe_value] => ) ) [#formatter] => text_default [0] => Array ( [#markup] => ) ) [body] => Array ( [#theme] => field [#weight] => 0 [#title] => Body [#access] => 1 [#label_display] => hidden [#view_mode] => teaser [#language] => und [#field_name] => body [#field_type] => text_with_summary [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517911 [uid] => 26499 [title] => Horizon H-HOPE by Unipd: Achievements and Future Goals [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127474 [type] => box_lancio_news [language] => it [created] => 1770898855 [changed] => 1770898855 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770898855 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

The project has developed mini cylindrical hydroelectric devices that generate energy from the water flow within pipes and channels. This energy powers IoT sensors that monitor the condition of water infrastructures, providing real-time data and improving the management of emergencies such as floods or leaks.

In 2025, H-HOPE achieved significant technological milestones, with energy recovery efficiencies ranging between 25% and 40%. The team developed advanced models to optimize the design of the devices and successfully tested prototypes in the laboratory. Pilot sites in various European countries have been identified for further development.

The project also launched a Data Hub on  GitHub for sharing codes and resources, promoting a "do-it-yourself" approach. H-HOPE integrated the research into university courses and initiated doctoral programs to train future leaders in the energy sector.

Looking ahead, the project focuses on finalizing pilot analyses and mapping energy recovery opportunities for the European Union's water sector.

[summary] => [format] => 2 [safe_value] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

The project has developed mini cylindrical hydroelectric devices that generate energy from the water flow within pipes and channels. This energy powers IoT sensors that monitor the condition of water infrastructures, providing real-time data and improving the management of emergencies such as floods or leaks.

In 2025, H-HOPE achieved significant technological milestones, with energy recovery efficiencies ranging between 25% and 40%. The team developed advanced models to optimize the design of the devices and successfully tested prototypes in the laboratory. Pilot sites in various European countries have been identified for further development.

The project also launched a Data Hub on  GitHub for sharing codes and resources, promoting a "do-it-yourself" approach. H-HOPE integrated the research into university courses and initiated doctoral programs to train future leaders in the energy sector.

Looking ahead, the project focuses on finalizing pilot analyses and mapping energy recovery opportunities for the European Union's water sector.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => water [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( [und] => Array ( [0] => Array ( [value] => [format] => [safe_value] => ) ) ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries [format] => [safe_value] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/horizon-h-hope-unipd-traguardi-obiettivi [format] => [safe_value] => https://www.unipd.it/news/horizon-h-hope-unipd-traguardi-obiettivi ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => Versione italiana [format] => [safe_value] => Versione italiana ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 1 [current_revision_id] => 517911 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

The project has developed mini cylindrical hydroelectric devices that generate energy from the water flow within pipes and channels. This energy powers IoT sensors that monitor the condition of water infrastructures, providing real-time data and improving the management of emergencies such as floods or leaks.

In 2025, H-HOPE achieved significant technological milestones, with energy recovery efficiencies ranging between 25% and 40%. The team developed advanced models to optimize the design of the devices and successfully tested prototypes in the laboratory. Pilot sites in various European countries have been identified for further development.

The project also launched a Data Hub on  GitHub for sharing codes and resources, promoting a "do-it-yourself" approach. H-HOPE integrated the research into university courses and initiated doctoral programs to train future leaders in the energy sector.

Looking ahead, the project focuses on finalizing pilot analyses and mapping energy recovery opportunities for the European Union's water sector.

[summary] => [format] => 2 [safe_value] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

The project has developed mini cylindrical hydroelectric devices that generate energy from the water flow within pipes and channels. This energy powers IoT sensors that monitor the condition of water infrastructures, providing real-time data and improving the management of emergencies such as floods or leaks.

In 2025, H-HOPE achieved significant technological milestones, with energy recovery efficiencies ranging between 25% and 40%. The team developed advanced models to optimize the design of the devices and successfully tested prototypes in the laboratory. Pilot sites in various European countries have been identified for further development.

The project also launched a Data Hub on  GitHub for sharing codes and resources, promoting a "do-it-yourself" approach. H-HOPE integrated the research into university courses and initiated doctoral programs to train future leaders in the energy sector.

Looking ahead, the project focuses on finalizing pilot analyses and mapping energy recovery opportunities for the European Union's water sector.

[safe_summary] => ) ) [#formatter] => text_summary_or_trimmed [0] => Array ( [#markup] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

) ) [field_img_box_lancio_news] => Array ( [#theme] => field [#weight] => 0 [#title] => Immagine [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_img_box_lancio_news [#field_type] => image [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517911 [uid] => 26499 [title] => Horizon H-HOPE by Unipd: Achievements and Future Goals [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127474 [type] => box_lancio_news [language] => it [created] => 1770898855 [changed] => 1770898855 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770898855 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

The project has developed mini cylindrical hydroelectric devices that generate energy from the water flow within pipes and channels. This energy powers IoT sensors that monitor the condition of water infrastructures, providing real-time data and improving the management of emergencies such as floods or leaks.

In 2025, H-HOPE achieved significant technological milestones, with energy recovery efficiencies ranging between 25% and 40%. The team developed advanced models to optimize the design of the devices and successfully tested prototypes in the laboratory. Pilot sites in various European countries have been identified for further development.

The project also launched a Data Hub on  GitHub for sharing codes and resources, promoting a "do-it-yourself" approach. H-HOPE integrated the research into university courses and initiated doctoral programs to train future leaders in the energy sector.

Looking ahead, the project focuses on finalizing pilot analyses and mapping energy recovery opportunities for the European Union's water sector.

[summary] => [format] => 2 [safe_value] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

The project has developed mini cylindrical hydroelectric devices that generate energy from the water flow within pipes and channels. This energy powers IoT sensors that monitor the condition of water infrastructures, providing real-time data and improving the management of emergencies such as floods or leaks.

In 2025, H-HOPE achieved significant technological milestones, with energy recovery efficiencies ranging between 25% and 40%. The team developed advanced models to optimize the design of the devices and successfully tested prototypes in the laboratory. Pilot sites in various European countries have been identified for further development.

The project also launched a Data Hub on  GitHub for sharing codes and resources, promoting a "do-it-yourself" approach. H-HOPE integrated the research into university courses and initiated doctoral programs to train future leaders in the energy sector.

Looking ahead, the project focuses on finalizing pilot analyses and mapping energy recovery opportunities for the European Union's water sector.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => water [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( [und] => Array ( [0] => Array ( [value] => [format] => [safe_value] => ) ) ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries [format] => [safe_value] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/horizon-h-hope-unipd-traguardi-obiettivi [format] => [safe_value] => https://www.unipd.it/news/horizon-h-hope-unipd-traguardi-obiettivi ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => Versione italiana [format] => [safe_value] => Versione italiana ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 1 [current_revision_id] => 517911 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => water [title] => ) ) [#formatter] => image [0] => Array ( [#theme] => image_formatter [#item] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => water [title] => ) [#image_style] => [#path] => ) ) [field_abstract_news] => Array ( [#theme] => field [#weight] => 0 [#title] => Abstract [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_abstract_news [#field_type] => text_long [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517911 [uid] => 26499 [title] => Horizon H-HOPE by Unipd: Achievements and Future Goals [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127474 [type] => box_lancio_news [language] => it [created] => 1770898855 [changed] => 1770898855 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770898855 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

The project has developed mini cylindrical hydroelectric devices that generate energy from the water flow within pipes and channels. This energy powers IoT sensors that monitor the condition of water infrastructures, providing real-time data and improving the management of emergencies such as floods or leaks.

In 2025, H-HOPE achieved significant technological milestones, with energy recovery efficiencies ranging between 25% and 40%. The team developed advanced models to optimize the design of the devices and successfully tested prototypes in the laboratory. Pilot sites in various European countries have been identified for further development.

The project also launched a Data Hub on  GitHub for sharing codes and resources, promoting a "do-it-yourself" approach. H-HOPE integrated the research into university courses and initiated doctoral programs to train future leaders in the energy sector.

Looking ahead, the project focuses on finalizing pilot analyses and mapping energy recovery opportunities for the European Union's water sector.

[summary] => [format] => 2 [safe_value] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

The project has developed mini cylindrical hydroelectric devices that generate energy from the water flow within pipes and channels. This energy powers IoT sensors that monitor the condition of water infrastructures, providing real-time data and improving the management of emergencies such as floods or leaks.

In 2025, H-HOPE achieved significant technological milestones, with energy recovery efficiencies ranging between 25% and 40%. The team developed advanced models to optimize the design of the devices and successfully tested prototypes in the laboratory. Pilot sites in various European countries have been identified for further development.

The project also launched a Data Hub on  GitHub for sharing codes and resources, promoting a "do-it-yourself" approach. H-HOPE integrated the research into university courses and initiated doctoral programs to train future leaders in the energy sector.

Looking ahead, the project focuses on finalizing pilot analyses and mapping energy recovery opportunities for the European Union's water sector.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => water [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( [und] => Array ( [0] => Array ( [value] => [format] => [safe_value] => ) ) ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries [format] => [safe_value] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/horizon-h-hope-unipd-traguardi-obiettivi [format] => [safe_value] => https://www.unipd.it/news/horizon-h-hope-unipd-traguardi-obiettivi ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => Versione italiana [format] => [safe_value] => Versione italiana ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 1 [current_revision_id] => 517911 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries [format] => [safe_value] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries ) ) [#formatter] => text_default [0] => Array ( [#markup] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries ) ) [links] => Array ( [#theme] => links__node [#pre_render] => Array ( [0] => drupal_pre_render_links ) [#attributes] => Array ( [class] => Array ( [0] => links [1] => inline ) ) [node] => Array ( [#theme] => links__node__node [#links] => Array ( [node-readmore] => Array ( [title] => Read more about Horizon H-HOPE by Unipd: Achievements and Future Goals [href] => node/127474 [html] => 1 [attributes] => Array ( [rel] => tag [title] => Horizon H-HOPE by Unipd: Achievements and Future Goals ) ) ) [#attributes] => Array ( [class] => Array ( [0] => links [1] => inline ) ) ) ) [field_date_box_lancio_news] => Array ( [#theme] => field [#weight] => 1 [#title] => Data [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_date_box_lancio_news [#field_type] => date [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517911 [uid] => 26499 [title] => Horizon H-HOPE by Unipd: Achievements and Future Goals [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127474 [type] => box_lancio_news [language] => it [created] => 1770898855 [changed] => 1770898855 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770898855 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

The project has developed mini cylindrical hydroelectric devices that generate energy from the water flow within pipes and channels. This energy powers IoT sensors that monitor the condition of water infrastructures, providing real-time data and improving the management of emergencies such as floods or leaks.

In 2025, H-HOPE achieved significant technological milestones, with energy recovery efficiencies ranging between 25% and 40%. The team developed advanced models to optimize the design of the devices and successfully tested prototypes in the laboratory. Pilot sites in various European countries have been identified for further development.

The project also launched a Data Hub on  GitHub for sharing codes and resources, promoting a "do-it-yourself" approach. H-HOPE integrated the research into university courses and initiated doctoral programs to train future leaders in the energy sector.

Looking ahead, the project focuses on finalizing pilot analyses and mapping energy recovery opportunities for the European Union's water sector.

[summary] => [format] => 2 [safe_value] =>

The Horizon H-HOPE project, led by the Department of Industrial Engineering at the University of Padua, aims to harness hidden hydroelectric energy within water and sewer networks to power IoT sensors, thus reducing dependency on external energy sources. Launched in 2022 and funded by the European Union, the project involves 14 partners from 9 European countries.

The project has developed mini cylindrical hydroelectric devices that generate energy from the water flow within pipes and channels. This energy powers IoT sensors that monitor the condition of water infrastructures, providing real-time data and improving the management of emergencies such as floods or leaks.

In 2025, H-HOPE achieved significant technological milestones, with energy recovery efficiencies ranging between 25% and 40%. The team developed advanced models to optimize the design of the devices and successfully tested prototypes in the laboratory. Pilot sites in various European countries have been identified for further development.

The project also launched a Data Hub on  GitHub for sharing codes and resources, promoting a "do-it-yourself" approach. H-HOPE integrated the research into university courses and initiated doctoral programs to train future leaders in the energy sector.

Looking ahead, the project focuses on finalizing pilot analyses and mapping energy recovery opportunities for the European Union's water sector.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => water [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( [und] => Array ( [0] => Array ( [value] => [format] => [safe_value] => ) ) ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries [format] => [safe_value] => Launched in 2022 and funded by the European Union, the Horizon H-HOPE project is led by the Department of Industrial Engineering at the University of Padua (Unipd) and involves 14 partners from 9 European countries ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/horizon-h-hope-unipd-traguardi-obiettivi [format] => [safe_value] => https://www.unipd.it/news/horizon-h-hope-unipd-traguardi-obiettivi ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => Versione italiana [format] => [safe_value] => Versione italiana ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 1 [current_revision_id] => 517911 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) [#formatter] => date_default [0] => Array ( [#markup] => Gio, 12/02/2026 ) ) )

Array ( [body] => Array ( [#theme] => field [#weight] => 0 [#title] => Body [#access] => 1 [#label_display] => hidden [#view_mode] => teaser [#language] => und [#field_name] => body [#field_type] => text_with_summary [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517912 [uid] => 26499 [title] => Horizon H-HOPE di Unipd: traguardi raggiunti e obiettivi futuri [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127473 [type] => box_lancio_news [language] => it [created] => 1770897072 [changed] => 1770898885 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770898885 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

Il progetto Horizon H-HOPE, guidato dal Dipartimento di Ingegneria Industriale dell'Università di Padova, mira a recuperare l'energia idroelettrica nascosta nelle reti idriche e fognarie per alimentare sensori IoT, riducendo la dipendenza da fonti energetiche esterne. Avviato nel 2022 e finanziato dall'Unione Europea, coinvolge 14 partner di 9 Paesi europei.

Il progetto ha sviluppato mini dispositivi idroelettrici cilindrici che generano energia dal flusso d'acqua all'interno di condotte e canali. Questa energia alimenta sensori IoT che monitorano lo stato delle infrastrutture idriche, fornendo dati in tempo reale e migliorando la gestione di emergenze come piene o perdite.

Nel 2025, H-HOPE ha raggiunto significativi traguardi tecnologici, con efficienze di recupero energetico tra il 25% e il 40%. Il team ha sviluppato modelli avanzati per ottimizzare la progettazione dei dispositivi e ha testato con successo prototipi in laboratorio. Sono stati identificati siti pilota in vari Paesi europei per ulteriori sviluppi.

Il progetto ha anche lanciato un Data Hub su GitHub per la condivisione di codici e risorse, promuovendo un approccio "fai da te". H-HOPE ha integrato la ricerca nei corsi universitari e ha avviato programmi di dottorato per formare futuri leader nel settore energetico.

Guardando al futuro, il progetto si concentra sulla finalizzazione delle analisi pilota e sulla mappatura delle opportunità di recupero energetico per il settore idrico dell'Unione Europea.

[summary] => [format] => 2 [safe_value] =>

Il progetto Horizon H-HOPE, guidato dal Dipartimento di Ingegneria Industriale dell'Università di Padova, mira a recuperare l'energia idroelettrica nascosta nelle reti idriche e fognarie per alimentare sensori IoT, riducendo la dipendenza da fonti energetiche esterne. Avviato nel 2022 e finanziato dall'Unione Europea, coinvolge 14 partner di 9 Paesi europei.

Il progetto ha sviluppato mini dispositivi idroelettrici cilindrici che generano energia dal flusso d'acqua all'interno di condotte e canali. Questa energia alimenta sensori IoT che monitorano lo stato delle infrastrutture idriche, fornendo dati in tempo reale e migliorando la gestione di emergenze come piene o perdite.

Nel 2025, H-HOPE ha raggiunto significativi traguardi tecnologici, con efficienze di recupero energetico tra il 25% e il 40%. Il team ha sviluppato modelli avanzati per ottimizzare la progettazione dei dispositivi e ha testato con successo prototipi in laboratorio. Sono stati identificati siti pilota in vari Paesi europei per ulteriori sviluppi.

Il progetto ha anche lanciato un Data Hub su GitHub per la condivisione di codici e risorse, promuovendo un approccio "fai da te". H-HOPE ha integrato la ricerca nei corsi universitari e ha avviato programmi di dottorato per formare futuri leader nel settore energetico.

Guardando al futuro, il progetto si concentra sulla finalizzazione delle analisi pilota e sulla mappatura delle opportunità di recupero energetico per il settore idrico dell'Unione Europea.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => acqua [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => Avviato nel 2022 e finanziato dall'Unione Europea il progetto Horizon H-HOPE è guidato dal Dipartimento di Ingegneria industriale di Unipd e coinvolge 14 partner di 9 Paesi europei [format] => [safe_value] => Avviato nel 2022 e finanziato dall'Unione Europea il progetto Horizon H-HOPE è guidato dal Dipartimento di Ingegneria industriale di Unipd e coinvolge 14 partner di 9 Paesi europei ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2264 ) [1] => Array ( [tid] => 2266 ) [2] => Array ( [tid] => 2267 ) [3] => Array ( [tid] => 2462 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/horizon-h-hope-unipd-achievements-and-future-goals [format] => [safe_value] => https://www.unipd.it/news/horizon-h-hope-unipd-achievements-and-future-goals ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => English version [format] => [safe_value] => English version ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 4 [current_revision_id] => 517912 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] =>

Il progetto Horizon H-HOPE, guidato dal Dipartimento di Ingegneria Industriale dell'Università di Padova, mira a recuperare l'energia idroelettrica nascosta nelle reti idriche e fognarie per alimentare sensori IoT, riducendo la dipendenza da fonti energetiche esterne. Avviato nel 2022 e finanziato dall'Unione Europea, coinvolge 14 partner di 9 Paesi europei.

Il progetto ha sviluppato mini dispositivi idroelettrici cilindrici che generano energia dal flusso d'acqua all'interno di condotte e canali. Questa energia alimenta sensori IoT che monitorano lo stato delle infrastrutture idriche, fornendo dati in tempo reale e migliorando la gestione di emergenze come piene o perdite.

Nel 2025, H-HOPE ha raggiunto significativi traguardi tecnologici, con efficienze di recupero energetico tra il 25% e il 40%. Il team ha sviluppato modelli avanzati per ottimizzare la progettazione dei dispositivi e ha testato con successo prototipi in laboratorio. Sono stati identificati siti pilota in vari Paesi europei per ulteriori sviluppi.

Il progetto ha anche lanciato un Data Hub su GitHub per la condivisione di codici e risorse, promuovendo un approccio "fai da te". H-HOPE ha integrato la ricerca nei corsi universitari e ha avviato programmi di dottorato per formare futuri leader nel settore energetico.

Guardando al futuro, il progetto si concentra sulla finalizzazione delle analisi pilota e sulla mappatura delle opportunità di recupero energetico per il settore idrico dell'Unione Europea.

[summary] => [format] => 2 [safe_value] =>

Il progetto Horizon H-HOPE, guidato dal Dipartimento di Ingegneria Industriale dell'Università di Padova, mira a recuperare l'energia idroelettrica nascosta nelle reti idriche e fognarie per alimentare sensori IoT, riducendo la dipendenza da fonti energetiche esterne. Avviato nel 2022 e finanziato dall'Unione Europea, coinvolge 14 partner di 9 Paesi europei.

Il progetto ha sviluppato mini dispositivi idroelettrici cilindrici che generano energia dal flusso d'acqua all'interno di condotte e canali. Questa energia alimenta sensori IoT che monitorano lo stato delle infrastrutture idriche, fornendo dati in tempo reale e migliorando la gestione di emergenze come piene o perdite.

Nel 2025, H-HOPE ha raggiunto significativi traguardi tecnologici, con efficienze di recupero energetico tra il 25% e il 40%. Il team ha sviluppato modelli avanzati per ottimizzare la progettazione dei dispositivi e ha testato con successo prototipi in laboratorio. Sono stati identificati siti pilota in vari Paesi europei per ulteriori sviluppi.

Il progetto ha anche lanciato un Data Hub su GitHub per la condivisione di codici e risorse, promuovendo un approccio "fai da te". H-HOPE ha integrato la ricerca nei corsi universitari e ha avviato programmi di dottorato per formare futuri leader nel settore energetico.

Guardando al futuro, il progetto si concentra sulla finalizzazione delle analisi pilota e sulla mappatura delle opportunità di recupero energetico per il settore idrico dell'Unione Europea.

[safe_summary] => ) ) [#formatter] => text_summary_or_trimmed [0] => Array ( [#markup] =>

Il progetto Horizon H-HOPE, guidato dal Dipartimento di Ingegneria Industriale dell'Università di Padova, mira a recuperare l'energia idroelettrica nascosta nelle reti idriche e fognarie per alimentare sensori IoT, riducendo la dipendenza da fonti energetiche esterne. Avviato nel 2022 e finanziato dall'Unione Europea, coinvolge 14 partner di 9 Paesi europei.

) ) [field_img_box_lancio_news] => Array ( [#theme] => field [#weight] => 0 [#title] => Immagine [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_img_box_lancio_news [#field_type] => image [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517912 [uid] => 26499 [title] => Horizon H-HOPE di Unipd: traguardi raggiunti e obiettivi futuri [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127473 [type] => box_lancio_news [language] => it [created] => 1770897072 [changed] => 1770898885 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770898885 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

Il progetto Horizon H-HOPE, guidato dal Dipartimento di Ingegneria Industriale dell'Università di Padova, mira a recuperare l'energia idroelettrica nascosta nelle reti idriche e fognarie per alimentare sensori IoT, riducendo la dipendenza da fonti energetiche esterne. Avviato nel 2022 e finanziato dall'Unione Europea, coinvolge 14 partner di 9 Paesi europei.

Il progetto ha sviluppato mini dispositivi idroelettrici cilindrici che generano energia dal flusso d'acqua all'interno di condotte e canali. Questa energia alimenta sensori IoT che monitorano lo stato delle infrastrutture idriche, fornendo dati in tempo reale e migliorando la gestione di emergenze come piene o perdite.

Nel 2025, H-HOPE ha raggiunto significativi traguardi tecnologici, con efficienze di recupero energetico tra il 25% e il 40%. Il team ha sviluppato modelli avanzati per ottimizzare la progettazione dei dispositivi e ha testato con successo prototipi in laboratorio. Sono stati identificati siti pilota in vari Paesi europei per ulteriori sviluppi.

Il progetto ha anche lanciato un Data Hub su GitHub per la condivisione di codici e risorse, promuovendo un approccio "fai da te". H-HOPE ha integrato la ricerca nei corsi universitari e ha avviato programmi di dottorato per formare futuri leader nel settore energetico.

Guardando al futuro, il progetto si concentra sulla finalizzazione delle analisi pilota e sulla mappatura delle opportunità di recupero energetico per il settore idrico dell'Unione Europea.

[summary] => [format] => 2 [safe_value] =>

Il progetto Horizon H-HOPE, guidato dal Dipartimento di Ingegneria Industriale dell'Università di Padova, mira a recuperare l'energia idroelettrica nascosta nelle reti idriche e fognarie per alimentare sensori IoT, riducendo la dipendenza da fonti energetiche esterne. Avviato nel 2022 e finanziato dall'Unione Europea, coinvolge 14 partner di 9 Paesi europei.

Il progetto ha sviluppato mini dispositivi idroelettrici cilindrici che generano energia dal flusso d'acqua all'interno di condotte e canali. Questa energia alimenta sensori IoT che monitorano lo stato delle infrastrutture idriche, fornendo dati in tempo reale e migliorando la gestione di emergenze come piene o perdite.

Nel 2025, H-HOPE ha raggiunto significativi traguardi tecnologici, con efficienze di recupero energetico tra il 25% e il 40%. Il team ha sviluppato modelli avanzati per ottimizzare la progettazione dei dispositivi e ha testato con successo prototipi in laboratorio. Sono stati identificati siti pilota in vari Paesi europei per ulteriori sviluppi.

Il progetto ha anche lanciato un Data Hub su GitHub per la condivisione di codici e risorse, promuovendo un approccio "fai da te". H-HOPE ha integrato la ricerca nei corsi universitari e ha avviato programmi di dottorato per formare futuri leader nel settore energetico.

Guardando al futuro, il progetto si concentra sulla finalizzazione delle analisi pilota e sulla mappatura delle opportunità di recupero energetico per il settore idrico dell'Unione Europea.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => acqua [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => Avviato nel 2022 e finanziato dall'Unione Europea il progetto Horizon H-HOPE è guidato dal Dipartimento di Ingegneria industriale di Unipd e coinvolge 14 partner di 9 Paesi europei [format] => [safe_value] => Avviato nel 2022 e finanziato dall'Unione Europea il progetto Horizon H-HOPE è guidato dal Dipartimento di Ingegneria industriale di Unipd e coinvolge 14 partner di 9 Paesi europei ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2264 ) [1] => Array ( [tid] => 2266 ) [2] => Array ( [tid] => 2267 ) [3] => Array ( [tid] => 2462 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/horizon-h-hope-unipd-achievements-and-future-goals [format] => [safe_value] => https://www.unipd.it/news/horizon-h-hope-unipd-achievements-and-future-goals ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => English version [format] => [safe_value] => English version ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 4 [current_revision_id] => 517912 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => acqua [title] => ) ) [#formatter] => image [0] => Array ( [#theme] => image_formatter [#item] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => acqua [title] => ) [#image_style] => [#path] => ) ) [field_abstract_news] => Array ( [#theme] => field [#weight] => 0 [#title] => Abstract [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_abstract_news [#field_type] => text_long [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517912 [uid] => 26499 [title] => Horizon H-HOPE di Unipd: traguardi raggiunti e obiettivi futuri [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127473 [type] => box_lancio_news [language] => it [created] => 1770897072 [changed] => 1770898885 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770898885 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

Il progetto Horizon H-HOPE, guidato dal Dipartimento di Ingegneria Industriale dell'Università di Padova, mira a recuperare l'energia idroelettrica nascosta nelle reti idriche e fognarie per alimentare sensori IoT, riducendo la dipendenza da fonti energetiche esterne. Avviato nel 2022 e finanziato dall'Unione Europea, coinvolge 14 partner di 9 Paesi europei.

Il progetto ha sviluppato mini dispositivi idroelettrici cilindrici che generano energia dal flusso d'acqua all'interno di condotte e canali. Questa energia alimenta sensori IoT che monitorano lo stato delle infrastrutture idriche, fornendo dati in tempo reale e migliorando la gestione di emergenze come piene o perdite.

Nel 2025, H-HOPE ha raggiunto significativi traguardi tecnologici, con efficienze di recupero energetico tra il 25% e il 40%. Il team ha sviluppato modelli avanzati per ottimizzare la progettazione dei dispositivi e ha testato con successo prototipi in laboratorio. Sono stati identificati siti pilota in vari Paesi europei per ulteriori sviluppi.

Il progetto ha anche lanciato un Data Hub su GitHub per la condivisione di codici e risorse, promuovendo un approccio "fai da te". H-HOPE ha integrato la ricerca nei corsi universitari e ha avviato programmi di dottorato per formare futuri leader nel settore energetico.

Guardando al futuro, il progetto si concentra sulla finalizzazione delle analisi pilota e sulla mappatura delle opportunità di recupero energetico per il settore idrico dell'Unione Europea.

[summary] => [format] => 2 [safe_value] =>

Il progetto Horizon H-HOPE, guidato dal Dipartimento di Ingegneria Industriale dell'Università di Padova, mira a recuperare l'energia idroelettrica nascosta nelle reti idriche e fognarie per alimentare sensori IoT, riducendo la dipendenza da fonti energetiche esterne. Avviato nel 2022 e finanziato dall'Unione Europea, coinvolge 14 partner di 9 Paesi europei.

Il progetto ha sviluppato mini dispositivi idroelettrici cilindrici che generano energia dal flusso d'acqua all'interno di condotte e canali. Questa energia alimenta sensori IoT che monitorano lo stato delle infrastrutture idriche, fornendo dati in tempo reale e migliorando la gestione di emergenze come piene o perdite.

Nel 2025, H-HOPE ha raggiunto significativi traguardi tecnologici, con efficienze di recupero energetico tra il 25% e il 40%. Il team ha sviluppato modelli avanzati per ottimizzare la progettazione dei dispositivi e ha testato con successo prototipi in laboratorio. Sono stati identificati siti pilota in vari Paesi europei per ulteriori sviluppi.

Il progetto ha anche lanciato un Data Hub su GitHub per la condivisione di codici e risorse, promuovendo un approccio "fai da te". H-HOPE ha integrato la ricerca nei corsi universitari e ha avviato programmi di dottorato per formare futuri leader nel settore energetico.

Guardando al futuro, il progetto si concentra sulla finalizzazione delle analisi pilota e sulla mappatura delle opportunità di recupero energetico per il settore idrico dell'Unione Europea.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => acqua [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => Avviato nel 2022 e finanziato dall'Unione Europea il progetto Horizon H-HOPE è guidato dal Dipartimento di Ingegneria industriale di Unipd e coinvolge 14 partner di 9 Paesi europei [format] => [safe_value] => Avviato nel 2022 e finanziato dall'Unione Europea il progetto Horizon H-HOPE è guidato dal Dipartimento di Ingegneria industriale di Unipd e coinvolge 14 partner di 9 Paesi europei ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2264 ) [1] => Array ( [tid] => 2266 ) [2] => Array ( [tid] => 2267 ) [3] => Array ( [tid] => 2462 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/horizon-h-hope-unipd-achievements-and-future-goals [format] => [safe_value] => https://www.unipd.it/news/horizon-h-hope-unipd-achievements-and-future-goals ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => English version [format] => [safe_value] => English version ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 4 [current_revision_id] => 517912 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] => Avviato nel 2022 e finanziato dall'Unione Europea il progetto Horizon H-HOPE è guidato dal Dipartimento di Ingegneria industriale di Unipd e coinvolge 14 partner di 9 Paesi europei [format] => [safe_value] => Avviato nel 2022 e finanziato dall'Unione Europea il progetto Horizon H-HOPE è guidato dal Dipartimento di Ingegneria industriale di Unipd e coinvolge 14 partner di 9 Paesi europei ) ) [#formatter] => text_default [0] => Array ( [#markup] => Avviato nel 2022 e finanziato dall'Unione Europea il progetto Horizon H-HOPE è guidato dal Dipartimento di Ingegneria industriale di Unipd e coinvolge 14 partner di 9 Paesi europei ) ) [links] => Array ( [#theme] => links__node [#pre_render] => Array ( [0] => drupal_pre_render_links ) [#attributes] => Array ( [class] => Array ( [0] => links [1] => inline ) ) [node] => Array ( [#theme] => links__node__node [#links] => Array ( [node-readmore] => Array ( [title] => Read more about Horizon H-HOPE di Unipd: traguardi raggiunti e obiettivi futuri [href] => node/127473 [html] => 1 [attributes] => Array ( [rel] => tag [title] => Horizon H-HOPE di Unipd: traguardi raggiunti e obiettivi futuri ) ) ) [#attributes] => Array ( [class] => Array ( [0] => links [1] => inline ) ) ) ) [field_date_box_lancio_news] => Array ( [#theme] => field [#weight] => 1 [#title] => Data [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_date_box_lancio_news [#field_type] => date [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517912 [uid] => 26499 [title] => Horizon H-HOPE di Unipd: traguardi raggiunti e obiettivi futuri [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127473 [type] => box_lancio_news [language] => it [created] => 1770897072 [changed] => 1770898885 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770898885 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

Il progetto Horizon H-HOPE, guidato dal Dipartimento di Ingegneria Industriale dell'Università di Padova, mira a recuperare l'energia idroelettrica nascosta nelle reti idriche e fognarie per alimentare sensori IoT, riducendo la dipendenza da fonti energetiche esterne. Avviato nel 2022 e finanziato dall'Unione Europea, coinvolge 14 partner di 9 Paesi europei.

Il progetto ha sviluppato mini dispositivi idroelettrici cilindrici che generano energia dal flusso d'acqua all'interno di condotte e canali. Questa energia alimenta sensori IoT che monitorano lo stato delle infrastrutture idriche, fornendo dati in tempo reale e migliorando la gestione di emergenze come piene o perdite.

Nel 2025, H-HOPE ha raggiunto significativi traguardi tecnologici, con efficienze di recupero energetico tra il 25% e il 40%. Il team ha sviluppato modelli avanzati per ottimizzare la progettazione dei dispositivi e ha testato con successo prototipi in laboratorio. Sono stati identificati siti pilota in vari Paesi europei per ulteriori sviluppi.

Il progetto ha anche lanciato un Data Hub su GitHub per la condivisione di codici e risorse, promuovendo un approccio "fai da te". H-HOPE ha integrato la ricerca nei corsi universitari e ha avviato programmi di dottorato per formare futuri leader nel settore energetico.

Guardando al futuro, il progetto si concentra sulla finalizzazione delle analisi pilota e sulla mappatura delle opportunità di recupero energetico per il settore idrico dell'Unione Europea.

[summary] => [format] => 2 [safe_value] =>

Il progetto Horizon H-HOPE, guidato dal Dipartimento di Ingegneria Industriale dell'Università di Padova, mira a recuperare l'energia idroelettrica nascosta nelle reti idriche e fognarie per alimentare sensori IoT, riducendo la dipendenza da fonti energetiche esterne. Avviato nel 2022 e finanziato dall'Unione Europea, coinvolge 14 partner di 9 Paesi europei.

Il progetto ha sviluppato mini dispositivi idroelettrici cilindrici che generano energia dal flusso d'acqua all'interno di condotte e canali. Questa energia alimenta sensori IoT che monitorano lo stato delle infrastrutture idriche, fornendo dati in tempo reale e migliorando la gestione di emergenze come piene o perdite.

Nel 2025, H-HOPE ha raggiunto significativi traguardi tecnologici, con efficienze di recupero energetico tra il 25% e il 40%. Il team ha sviluppato modelli avanzati per ottimizzare la progettazione dei dispositivi e ha testato con successo prototipi in laboratorio. Sono stati identificati siti pilota in vari Paesi europei per ulteriori sviluppi.

Il progetto ha anche lanciato un Data Hub su GitHub per la condivisione di codici e risorse, promuovendo un approccio "fai da te". H-HOPE ha integrato la ricerca nei corsi universitari e ha avviato programmi di dottorato per formare futuri leader nel settore energetico.

Guardando al futuro, il progetto si concentra sulla finalizzazione delle analisi pilota e sulla mappatura delle opportunità di recupero energetico per il settore idrico dell'Unione Europea.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146125 [uid] => 26499 [filename] => n_acqua_bn.jpeg [uri] => public://n_acqua_bn.jpeg [filemime] => image/jpeg [filesize] => 228600 [status] => 1 [timestamp] => 1770897072 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => acqua [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => Avviato nel 2022 e finanziato dall'Unione Europea il progetto Horizon H-HOPE è guidato dal Dipartimento di Ingegneria industriale di Unipd e coinvolge 14 partner di 9 Paesi europei [format] => [safe_value] => Avviato nel 2022 e finanziato dall'Unione Europea il progetto Horizon H-HOPE è guidato dal Dipartimento di Ingegneria industriale di Unipd e coinvolge 14 partner di 9 Paesi europei ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2264 ) [1] => Array ( [tid] => 2266 ) [2] => Array ( [tid] => 2267 ) [3] => Array ( [tid] => 2462 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/horizon-h-hope-unipd-achievements-and-future-goals [format] => [safe_value] => https://www.unipd.it/news/horizon-h-hope-unipd-achievements-and-future-goals ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => English version [format] => [safe_value] => English version ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 4 [current_revision_id] => 517912 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) [#formatter] => date_default [0] => Array ( [#markup] => Gio, 12/02/2026 ) ) )

Array ( [body] => Array ( [#theme] => field [#weight] => 0 [#title] => Body [#access] => 1 [#label_display] => hidden [#view_mode] => teaser [#language] => und [#field_name] => body [#field_type] => text_with_summary [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517903 [uid] => 26499 [title] => Unipd Research for a New Strategy Against T-ALL Leukemia [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127471 [type] => box_lancio_news [language] => it [created] => 1770893167 [changed] => 1770893293 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770893293 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukemia (T-ALL), particularly when the disease recurs (relapse) or does not respond to standard therapies. Currently, treatment often relies on "risk-adapted" chemotherapy, which is personalized based on prognostic factors (stage, molecular markers, initial response). This method has significantly improved clinical outcomes, but a major issue remains: resistance occurs in about 20% of pediatric patients and 50% of adults with T-ALL, either in the primary tumor or during a relapse. Therefore, finding new therapeutic options is a priority.

In a recent study published in  Signal Transduction and Targeted Therapy (a Nature group journal), the authors identified certain drugs capable of increasing the sensitivity of leukemic cells to venetoclax, a drug used in oncology but not very effective on its own in T-ALL.

"By blocking mTORC1, a protein complex that is excessively active in therapy-resistant leukemic cells, we observed the activation of the so-called integrated stress response, which can lead to the programmed death of cancer cells," explains Vincenzo Ciminale from the Department of Surgical, Oncological and Gastroenterological Sciences at the University of Padua, and senior author of the paper. "In this process, the BMF protein plays a crucial role, essential for triggering the death of leukemic cells. The presence of BMF could also help identify patients most likely to benefit from the combination therapy, as this protein is not expressed in all cases of T-ALL."

To test the strategy, the drug combination was evaluated in animal models: mice transplanted with leukemic cells derived from patient samples with T-ALL, then treated with different combinations or placebo.

"The efficacy of the pharmacological combination was assessed in experiments with laboratory mice, which had been transplanted with leukemic cells obtained from patient samples with T-ALL. The mice were then treated with different drug combinations or with a placebo," clarifies Loredana Urso from IOV, and first author of the article. "In animals with tumors sensitive to the treatment, a marked reduction in leukemia was observed, and importantly, with modest side effects on healthy blood cells."

In summary, the results provide a solid scientific basis for initiating future clinical studies in patients, with the aim of improving treatment for T-ALL relapses and focusing on more targeted therapies, built on the biological characteristics of the disease. The study was conducted by the University of Padua and IOV with the support of the AIRC Foundation.

[summary] => [format] => 2 [safe_value] =>

A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukemia (T-ALL), particularly when the disease recurs (relapse) or does not respond to standard therapies. Currently, treatment often relies on "risk-adapted" chemotherapy, which is personalized based on prognostic factors (stage, molecular markers, initial response). This method has significantly improved clinical outcomes, but a major issue remains: resistance occurs in about 20% of pediatric patients and 50% of adults with T-ALL, either in the primary tumor or during a relapse. Therefore, finding new therapeutic options is a priority.

In a recent study published in  Signal Transduction and Targeted Therapy (a Nature group journal), the authors identified certain drugs capable of increasing the sensitivity of leukemic cells to venetoclax, a drug used in oncology but not very effective on its own in T-ALL.

"By blocking mTORC1, a protein complex that is excessively active in therapy-resistant leukemic cells, we observed the activation of the so-called integrated stress response, which can lead to the programmed death of cancer cells," explains Vincenzo Ciminale from the Department of Surgical, Oncological and Gastroenterological Sciences at the University of Padua, and senior author of the paper. "In this process, the BMF protein plays a crucial role, essential for triggering the death of leukemic cells. The presence of BMF could also help identify patients most likely to benefit from the combination therapy, as this protein is not expressed in all cases of T-ALL."

To test the strategy, the drug combination was evaluated in animal models: mice transplanted with leukemic cells derived from patient samples with T-ALL, then treated with different combinations or placebo.

"The efficacy of the pharmacological combination was assessed in experiments with laboratory mice, which had been transplanted with leukemic cells obtained from patient samples with T-ALL. The mice were then treated with different drug combinations or with a placebo," clarifies Loredana Urso from IOV, and first author of the article. "In animals with tumors sensitive to the treatment, a marked reduction in leukemia was observed, and importantly, with modest side effects on healthy blood cells."

In summary, the results provide a solid scientific basis for initiating future clinical studies in patients, with the aim of improving treatment for T-ALL relapses and focusing on more targeted therapies, built on the biological characteristics of the disease. The study was conducted by the University of Padua and IOV with the support of the AIRC Foundation.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146121 [uid] => 26499 [filename] => leucemia .jpg [uri] => public://leucemia .jpg [filemime] => image/jpeg [filesize] => 462745 [status] => 1 [timestamp] => 1770892654 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => leukaemia under the microscope [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukaemia (T-ALL) [format] => [safe_value] => A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukaemia (T-ALL) ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/ricerca-unipd-nuova-strategia-combinata-contro-leucemia-t-resistente [format] => [safe_value] => https://www.unipd.it/news/ricerca-unipd-nuova-strategia-combinata-contro-leucemia-t-resistente ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => Versione italiana [format] => [safe_value] => Versione italiana ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 3 [current_revision_id] => 517903 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] =>

A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukemia (T-ALL), particularly when the disease recurs (relapse) or does not respond to standard therapies. Currently, treatment often relies on "risk-adapted" chemotherapy, which is personalized based on prognostic factors (stage, molecular markers, initial response). This method has significantly improved clinical outcomes, but a major issue remains: resistance occurs in about 20% of pediatric patients and 50% of adults with T-ALL, either in the primary tumor or during a relapse. Therefore, finding new therapeutic options is a priority.

In a recent study published in  Signal Transduction and Targeted Therapy (a Nature group journal), the authors identified certain drugs capable of increasing the sensitivity of leukemic cells to venetoclax, a drug used in oncology but not very effective on its own in T-ALL.

"By blocking mTORC1, a protein complex that is excessively active in therapy-resistant leukemic cells, we observed the activation of the so-called integrated stress response, which can lead to the programmed death of cancer cells," explains Vincenzo Ciminale from the Department of Surgical, Oncological and Gastroenterological Sciences at the University of Padua, and senior author of the paper. "In this process, the BMF protein plays a crucial role, essential for triggering the death of leukemic cells. The presence of BMF could also help identify patients most likely to benefit from the combination therapy, as this protein is not expressed in all cases of T-ALL."

To test the strategy, the drug combination was evaluated in animal models: mice transplanted with leukemic cells derived from patient samples with T-ALL, then treated with different combinations or placebo.

"The efficacy of the pharmacological combination was assessed in experiments with laboratory mice, which had been transplanted with leukemic cells obtained from patient samples with T-ALL. The mice were then treated with different drug combinations or with a placebo," clarifies Loredana Urso from IOV, and first author of the article. "In animals with tumors sensitive to the treatment, a marked reduction in leukemia was observed, and importantly, with modest side effects on healthy blood cells."

In summary, the results provide a solid scientific basis for initiating future clinical studies in patients, with the aim of improving treatment for T-ALL relapses and focusing on more targeted therapies, built on the biological characteristics of the disease. The study was conducted by the University of Padua and IOV with the support of the AIRC Foundation.

[summary] => [format] => 2 [safe_value] =>

A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukemia (T-ALL), particularly when the disease recurs (relapse) or does not respond to standard therapies. Currently, treatment often relies on "risk-adapted" chemotherapy, which is personalized based on prognostic factors (stage, molecular markers, initial response). This method has significantly improved clinical outcomes, but a major issue remains: resistance occurs in about 20% of pediatric patients and 50% of adults with T-ALL, either in the primary tumor or during a relapse. Therefore, finding new therapeutic options is a priority.

In a recent study published in  Signal Transduction and Targeted Therapy (a Nature group journal), the authors identified certain drugs capable of increasing the sensitivity of leukemic cells to venetoclax, a drug used in oncology but not very effective on its own in T-ALL.

"By blocking mTORC1, a protein complex that is excessively active in therapy-resistant leukemic cells, we observed the activation of the so-called integrated stress response, which can lead to the programmed death of cancer cells," explains Vincenzo Ciminale from the Department of Surgical, Oncological and Gastroenterological Sciences at the University of Padua, and senior author of the paper. "In this process, the BMF protein plays a crucial role, essential for triggering the death of leukemic cells. The presence of BMF could also help identify patients most likely to benefit from the combination therapy, as this protein is not expressed in all cases of T-ALL."

To test the strategy, the drug combination was evaluated in animal models: mice transplanted with leukemic cells derived from patient samples with T-ALL, then treated with different combinations or placebo.

"The efficacy of the pharmacological combination was assessed in experiments with laboratory mice, which had been transplanted with leukemic cells obtained from patient samples with T-ALL. The mice were then treated with different drug combinations or with a placebo," clarifies Loredana Urso from IOV, and first author of the article. "In animals with tumors sensitive to the treatment, a marked reduction in leukemia was observed, and importantly, with modest side effects on healthy blood cells."

In summary, the results provide a solid scientific basis for initiating future clinical studies in patients, with the aim of improving treatment for T-ALL relapses and focusing on more targeted therapies, built on the biological characteristics of the disease. The study was conducted by the University of Padua and IOV with the support of the AIRC Foundation.

[safe_summary] => ) ) [#formatter] => text_summary_or_trimmed [0] => Array ( [#markup] =>

A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukemia (T-ALL), particularly when the disease recurs (relapse) or does not respond to standard therapies. Currently, treatment often relies on "risk-adapted" chemotherapy, which is personalized based on prognostic factors (stage, molecular markers, initial response).

) ) [field_img_box_lancio_news] => Array ( [#theme] => field [#weight] => 0 [#title] => Immagine [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_img_box_lancio_news [#field_type] => image [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517903 [uid] => 26499 [title] => Unipd Research for a New Strategy Against T-ALL Leukemia [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127471 [type] => box_lancio_news [language] => it [created] => 1770893167 [changed] => 1770893293 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770893293 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukemia (T-ALL), particularly when the disease recurs (relapse) or does not respond to standard therapies. Currently, treatment often relies on "risk-adapted" chemotherapy, which is personalized based on prognostic factors (stage, molecular markers, initial response). This method has significantly improved clinical outcomes, but a major issue remains: resistance occurs in about 20% of pediatric patients and 50% of adults with T-ALL, either in the primary tumor or during a relapse. Therefore, finding new therapeutic options is a priority.

In a recent study published in  Signal Transduction and Targeted Therapy (a Nature group journal), the authors identified certain drugs capable of increasing the sensitivity of leukemic cells to venetoclax, a drug used in oncology but not very effective on its own in T-ALL.

"By blocking mTORC1, a protein complex that is excessively active in therapy-resistant leukemic cells, we observed the activation of the so-called integrated stress response, which can lead to the programmed death of cancer cells," explains Vincenzo Ciminale from the Department of Surgical, Oncological and Gastroenterological Sciences at the University of Padua, and senior author of the paper. "In this process, the BMF protein plays a crucial role, essential for triggering the death of leukemic cells. The presence of BMF could also help identify patients most likely to benefit from the combination therapy, as this protein is not expressed in all cases of T-ALL."

To test the strategy, the drug combination was evaluated in animal models: mice transplanted with leukemic cells derived from patient samples with T-ALL, then treated with different combinations or placebo.

"The efficacy of the pharmacological combination was assessed in experiments with laboratory mice, which had been transplanted with leukemic cells obtained from patient samples with T-ALL. The mice were then treated with different drug combinations or with a placebo," clarifies Loredana Urso from IOV, and first author of the article. "In animals with tumors sensitive to the treatment, a marked reduction in leukemia was observed, and importantly, with modest side effects on healthy blood cells."

In summary, the results provide a solid scientific basis for initiating future clinical studies in patients, with the aim of improving treatment for T-ALL relapses and focusing on more targeted therapies, built on the biological characteristics of the disease. The study was conducted by the University of Padua and IOV with the support of the AIRC Foundation.

[summary] => [format] => 2 [safe_value] =>

A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukemia (T-ALL), particularly when the disease recurs (relapse) or does not respond to standard therapies. Currently, treatment often relies on "risk-adapted" chemotherapy, which is personalized based on prognostic factors (stage, molecular markers, initial response). This method has significantly improved clinical outcomes, but a major issue remains: resistance occurs in about 20% of pediatric patients and 50% of adults with T-ALL, either in the primary tumor or during a relapse. Therefore, finding new therapeutic options is a priority.

In a recent study published in  Signal Transduction and Targeted Therapy (a Nature group journal), the authors identified certain drugs capable of increasing the sensitivity of leukemic cells to venetoclax, a drug used in oncology but not very effective on its own in T-ALL.

"By blocking mTORC1, a protein complex that is excessively active in therapy-resistant leukemic cells, we observed the activation of the so-called integrated stress response, which can lead to the programmed death of cancer cells," explains Vincenzo Ciminale from the Department of Surgical, Oncological and Gastroenterological Sciences at the University of Padua, and senior author of the paper. "In this process, the BMF protein plays a crucial role, essential for triggering the death of leukemic cells. The presence of BMF could also help identify patients most likely to benefit from the combination therapy, as this protein is not expressed in all cases of T-ALL."

To test the strategy, the drug combination was evaluated in animal models: mice transplanted with leukemic cells derived from patient samples with T-ALL, then treated with different combinations or placebo.

"The efficacy of the pharmacological combination was assessed in experiments with laboratory mice, which had been transplanted with leukemic cells obtained from patient samples with T-ALL. The mice were then treated with different drug combinations or with a placebo," clarifies Loredana Urso from IOV, and first author of the article. "In animals with tumors sensitive to the treatment, a marked reduction in leukemia was observed, and importantly, with modest side effects on healthy blood cells."

In summary, the results provide a solid scientific basis for initiating future clinical studies in patients, with the aim of improving treatment for T-ALL relapses and focusing on more targeted therapies, built on the biological characteristics of the disease. The study was conducted by the University of Padua and IOV with the support of the AIRC Foundation.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146121 [uid] => 26499 [filename] => leucemia .jpg [uri] => public://leucemia .jpg [filemime] => image/jpeg [filesize] => 462745 [status] => 1 [timestamp] => 1770892654 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => leukaemia under the microscope [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukaemia (T-ALL) [format] => [safe_value] => A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukaemia (T-ALL) ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/ricerca-unipd-nuova-strategia-combinata-contro-leucemia-t-resistente [format] => [safe_value] => https://www.unipd.it/news/ricerca-unipd-nuova-strategia-combinata-contro-leucemia-t-resistente ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => Versione italiana [format] => [safe_value] => Versione italiana ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 3 [current_revision_id] => 517903 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [fid] => 146121 [uid] => 26499 [filename] => leucemia .jpg [uri] => public://leucemia .jpg [filemime] => image/jpeg [filesize] => 462745 [status] => 1 [timestamp] => 1770892654 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => leukaemia under the microscope [title] => ) ) [#formatter] => image [0] => Array ( [#theme] => image_formatter [#item] => Array ( [fid] => 146121 [uid] => 26499 [filename] => leucemia .jpg [uri] => public://leucemia .jpg [filemime] => image/jpeg [filesize] => 462745 [status] => 1 [timestamp] => 1770892654 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => leukaemia under the microscope [title] => ) [#image_style] => [#path] => ) ) [field_abstract_news] => Array ( [#theme] => field [#weight] => 0 [#title] => Abstract [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_abstract_news [#field_type] => text_long [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517903 [uid] => 26499 [title] => Unipd Research for a New Strategy Against T-ALL Leukemia [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127471 [type] => box_lancio_news [language] => it [created] => 1770893167 [changed] => 1770893293 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770893293 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukemia (T-ALL), particularly when the disease recurs (relapse) or does not respond to standard therapies. Currently, treatment often relies on "risk-adapted" chemotherapy, which is personalized based on prognostic factors (stage, molecular markers, initial response). This method has significantly improved clinical outcomes, but a major issue remains: resistance occurs in about 20% of pediatric patients and 50% of adults with T-ALL, either in the primary tumor or during a relapse. Therefore, finding new therapeutic options is a priority.

In a recent study published in  Signal Transduction and Targeted Therapy (a Nature group journal), the authors identified certain drugs capable of increasing the sensitivity of leukemic cells to venetoclax, a drug used in oncology but not very effective on its own in T-ALL.

"By blocking mTORC1, a protein complex that is excessively active in therapy-resistant leukemic cells, we observed the activation of the so-called integrated stress response, which can lead to the programmed death of cancer cells," explains Vincenzo Ciminale from the Department of Surgical, Oncological and Gastroenterological Sciences at the University of Padua, and senior author of the paper. "In this process, the BMF protein plays a crucial role, essential for triggering the death of leukemic cells. The presence of BMF could also help identify patients most likely to benefit from the combination therapy, as this protein is not expressed in all cases of T-ALL."

To test the strategy, the drug combination was evaluated in animal models: mice transplanted with leukemic cells derived from patient samples with T-ALL, then treated with different combinations or placebo.

"The efficacy of the pharmacological combination was assessed in experiments with laboratory mice, which had been transplanted with leukemic cells obtained from patient samples with T-ALL. The mice were then treated with different drug combinations or with a placebo," clarifies Loredana Urso from IOV, and first author of the article. "In animals with tumors sensitive to the treatment, a marked reduction in leukemia was observed, and importantly, with modest side effects on healthy blood cells."

In summary, the results provide a solid scientific basis for initiating future clinical studies in patients, with the aim of improving treatment for T-ALL relapses and focusing on more targeted therapies, built on the biological characteristics of the disease. The study was conducted by the University of Padua and IOV with the support of the AIRC Foundation.

[summary] => [format] => 2 [safe_value] =>

A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukemia (T-ALL), particularly when the disease recurs (relapse) or does not respond to standard therapies. Currently, treatment often relies on "risk-adapted" chemotherapy, which is personalized based on prognostic factors (stage, molecular markers, initial response). This method has significantly improved clinical outcomes, but a major issue remains: resistance occurs in about 20% of pediatric patients and 50% of adults with T-ALL, either in the primary tumor or during a relapse. Therefore, finding new therapeutic options is a priority.

In a recent study published in  Signal Transduction and Targeted Therapy (a Nature group journal), the authors identified certain drugs capable of increasing the sensitivity of leukemic cells to venetoclax, a drug used in oncology but not very effective on its own in T-ALL.

"By blocking mTORC1, a protein complex that is excessively active in therapy-resistant leukemic cells, we observed the activation of the so-called integrated stress response, which can lead to the programmed death of cancer cells," explains Vincenzo Ciminale from the Department of Surgical, Oncological and Gastroenterological Sciences at the University of Padua, and senior author of the paper. "In this process, the BMF protein plays a crucial role, essential for triggering the death of leukemic cells. The presence of BMF could also help identify patients most likely to benefit from the combination therapy, as this protein is not expressed in all cases of T-ALL."

To test the strategy, the drug combination was evaluated in animal models: mice transplanted with leukemic cells derived from patient samples with T-ALL, then treated with different combinations or placebo.

"The efficacy of the pharmacological combination was assessed in experiments with laboratory mice, which had been transplanted with leukemic cells obtained from patient samples with T-ALL. The mice were then treated with different drug combinations or with a placebo," clarifies Loredana Urso from IOV, and first author of the article. "In animals with tumors sensitive to the treatment, a marked reduction in leukemia was observed, and importantly, with modest side effects on healthy blood cells."

In summary, the results provide a solid scientific basis for initiating future clinical studies in patients, with the aim of improving treatment for T-ALL relapses and focusing on more targeted therapies, built on the biological characteristics of the disease. The study was conducted by the University of Padua and IOV with the support of the AIRC Foundation.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146121 [uid] => 26499 [filename] => leucemia .jpg [uri] => public://leucemia .jpg [filemime] => image/jpeg [filesize] => 462745 [status] => 1 [timestamp] => 1770892654 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => leukaemia under the microscope [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukaemia (T-ALL) [format] => [safe_value] => A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukaemia (T-ALL) ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/ricerca-unipd-nuova-strategia-combinata-contro-leucemia-t-resistente [format] => [safe_value] => https://www.unipd.it/news/ricerca-unipd-nuova-strategia-combinata-contro-leucemia-t-resistente ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => Versione italiana [format] => [safe_value] => Versione italiana ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 3 [current_revision_id] => 517903 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] => A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukaemia (T-ALL) [format] => [safe_value] => A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukaemia (T-ALL) ) ) [#formatter] => text_default [0] => Array ( [#markup] => A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukaemia (T-ALL) ) ) [links] => Array ( [#theme] => links__node [#pre_render] => Array ( [0] => drupal_pre_render_links ) [#attributes] => Array ( [class] => Array ( [0] => links [1] => inline ) ) [node] => Array ( [#theme] => links__node__node [#links] => Array ( [node-readmore] => Array ( [title] => Read more about Unipd Research for a New Strategy Against T-ALL Leukemia [href] => node/127471 [html] => 1 [attributes] => Array ( [rel] => tag [title] => Unipd Research for a New Strategy Against T-ALL Leukemia ) ) ) [#attributes] => Array ( [class] => Array ( [0] => links [1] => inline ) ) ) ) [field_date_box_lancio_news] => Array ( [#theme] => field [#weight] => 1 [#title] => Data [#access] => 1 [#label_display] => above [#view_mode] => teaser [#language] => und [#field_name] => field_date_box_lancio_news [#field_type] => date [#field_translatable] => 0 [#entity_type] => node [#bundle] => box_lancio_news [#object] => stdClass Object ( [vid] => 517903 [uid] => 26499 [title] => Unipd Research for a New Strategy Against T-ALL Leukemia [log] => [status] => 1 [comment] => 0 [promote] => 1 [sticky] => 0 [nid] => 127471 [type] => box_lancio_news [language] => it [created] => 1770893167 [changed] => 1770893293 [tnid] => 0 [translate] => 0 [revision_timestamp] => 1770893293 [revision_uid] => 26499 [body] => Array ( [und] => Array ( [0] => Array ( [value] =>

A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukemia (T-ALL), particularly when the disease recurs (relapse) or does not respond to standard therapies. Currently, treatment often relies on "risk-adapted" chemotherapy, which is personalized based on prognostic factors (stage, molecular markers, initial response). This method has significantly improved clinical outcomes, but a major issue remains: resistance occurs in about 20% of pediatric patients and 50% of adults with T-ALL, either in the primary tumor or during a relapse. Therefore, finding new therapeutic options is a priority.

In a recent study published in  Signal Transduction and Targeted Therapy (a Nature group journal), the authors identified certain drugs capable of increasing the sensitivity of leukemic cells to venetoclax, a drug used in oncology but not very effective on its own in T-ALL.

"By blocking mTORC1, a protein complex that is excessively active in therapy-resistant leukemic cells, we observed the activation of the so-called integrated stress response, which can lead to the programmed death of cancer cells," explains Vincenzo Ciminale from the Department of Surgical, Oncological and Gastroenterological Sciences at the University of Padua, and senior author of the paper. "In this process, the BMF protein plays a crucial role, essential for triggering the death of leukemic cells. The presence of BMF could also help identify patients most likely to benefit from the combination therapy, as this protein is not expressed in all cases of T-ALL."

To test the strategy, the drug combination was evaluated in animal models: mice transplanted with leukemic cells derived from patient samples with T-ALL, then treated with different combinations or placebo.

"The efficacy of the pharmacological combination was assessed in experiments with laboratory mice, which had been transplanted with leukemic cells obtained from patient samples with T-ALL. The mice were then treated with different drug combinations or with a placebo," clarifies Loredana Urso from IOV, and first author of the article. "In animals with tumors sensitive to the treatment, a marked reduction in leukemia was observed, and importantly, with modest side effects on healthy blood cells."

In summary, the results provide a solid scientific basis for initiating future clinical studies in patients, with the aim of improving treatment for T-ALL relapses and focusing on more targeted therapies, built on the biological characteristics of the disease. The study was conducted by the University of Padua and IOV with the support of the AIRC Foundation.

[summary] => [format] => 2 [safe_value] =>

A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukemia (T-ALL), particularly when the disease recurs (relapse) or does not respond to standard therapies. Currently, treatment often relies on "risk-adapted" chemotherapy, which is personalized based on prognostic factors (stage, molecular markers, initial response). This method has significantly improved clinical outcomes, but a major issue remains: resistance occurs in about 20% of pediatric patients and 50% of adults with T-ALL, either in the primary tumor or during a relapse. Therefore, finding new therapeutic options is a priority.

In a recent study published in  Signal Transduction and Targeted Therapy (a Nature group journal), the authors identified certain drugs capable of increasing the sensitivity of leukemic cells to venetoclax, a drug used in oncology but not very effective on its own in T-ALL.

"By blocking mTORC1, a protein complex that is excessively active in therapy-resistant leukemic cells, we observed the activation of the so-called integrated stress response, which can lead to the programmed death of cancer cells," explains Vincenzo Ciminale from the Department of Surgical, Oncological and Gastroenterological Sciences at the University of Padua, and senior author of the paper. "In this process, the BMF protein plays a crucial role, essential for triggering the death of leukemic cells. The presence of BMF could also help identify patients most likely to benefit from the combination therapy, as this protein is not expressed in all cases of T-ALL."

To test the strategy, the drug combination was evaluated in animal models: mice transplanted with leukemic cells derived from patient samples with T-ALL, then treated with different combinations or placebo.

"The efficacy of the pharmacological combination was assessed in experiments with laboratory mice, which had been transplanted with leukemic cells obtained from patient samples with T-ALL. The mice were then treated with different drug combinations or with a placebo," clarifies Loredana Urso from IOV, and first author of the article. "In animals with tumors sensitive to the treatment, a marked reduction in leukemia was observed, and importantly, with modest side effects on healthy blood cells."

In summary, the results provide a solid scientific basis for initiating future clinical studies in patients, with the aim of improving treatment for T-ALL relapses and focusing on more targeted therapies, built on the biological characteristics of the disease. The study was conducted by the University of Padua and IOV with the support of the AIRC Foundation.

[safe_summary] => ) ) ) [field_date_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_etichetta_box_lancio_news] => Array ( ) [field_img_box_lancio_news] => Array ( [und] => Array ( [0] => Array ( [fid] => 146121 [uid] => 26499 [filename] => leucemia .jpg [uri] => public://leucemia .jpg [filemime] => image/jpeg [filesize] => 462745 [status] => 1 [timestamp] => 1770892654 [type] => image [field_file_image_alt_text] => Array ( ) [field_file_image_title_text] => Array ( ) [field_folder] => Array ( [und] => Array ( [0] => Array ( [tid] => 2048 ) ) ) [metadata] => Array ( [height] => 630 [width] => 1200 ) [height] => 630 [width] => 1200 [alt] => leukaemia under the microscope [title] => ) ) ) [field_link_alla_news] => Array ( ) [field_link_esterno_news] => Array ( ) [field_pagina_associata] => Array ( ) [field_link_etichetta] => Array ( ) [field_abstract_news] => Array ( [und] => Array ( [0] => Array ( [value] => A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukaemia (T-ALL) [format] => [safe_value] => A team of researchers from the University of Padua and the Veneto Institute of Oncology (IOV–IRCCS) has identified a potential new approach to treat T-cell acute lymphoblastic leukaemia (T-ALL) ) ) ) [field_allegato_news] => Array ( ) [field_categorie_news] => Array ( [und] => Array ( [0] => Array ( [tid] => 2296 ) ) ) [field_pub_date] => Array ( [und] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [value2] => 2027-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) ) [field_layout_news] => Array ( [und] => Array ( [0] => Array ( [value] => single ) ) ) [field_testo_opzionale_news] => Array ( ) [field_url_en_page] => Array ( [und] => Array ( [0] => Array ( [value] => https://www.unipd.it/news/ricerca-unipd-nuova-strategia-combinata-contro-leucemia-t-resistente [format] => [safe_value] => https://www.unipd.it/news/ricerca-unipd-nuova-strategia-combinata-contro-leucemia-t-resistente ) ) ) [field_url_en_page_label] => Array ( [und] => Array ( [0] => Array ( [value] => Versione italiana [format] => [safe_value] => Versione italiana ) ) ) [path] => Array ( [pathauto] => 1 ) [name] => rossella.vezzosi [picture] => 0 [data] => b:0; [num_revisions] => 3 [current_revision_id] => 517903 [is_current] => 1 [is_pending] => [revision_moderation] => [entity_view_prepared] => 1 ) [#items] => Array ( [0] => Array ( [value] => 2026-02-12T00:00:00 [timezone] => Europe/Paris [timezone_db] => Europe/Paris [date_type] => date ) ) [#formatter] => date_default [0] => Array ( [#markup] => Gio, 12/02/2026 ) ) )