<?xml version="1.0" encoding="UTF-8"?><rss xmlns:dc="http://purl.org/dc/elements/1.1/" xmlns:content="http://purl.org/rss/1.0/modules/content/" xmlns:atom="http://www.w3.org/2005/Atom" version="2.0" xmlns:itunes="http://www.itunes.com/dtds/podcast-1.0.dtd" xmlns:podcast="https://podcastindex.org/namespace/1.0" xmlns:jellypod="https://jellypod.ai/namespace/1.0" xmlns:psc="http://podlove.org/simple-chapters"><channel><title><![CDATA[Designing Life: A Bioprinting Lab Journey]]></title><description><![CDATA[An educational podcast that takes listeners inside the world of 3D bioprinting, following the step-by-step journey of how biological constructs are designed, printed, matured, and analyzed in the laboratory.
Through an interview-style format, each episode explores a key phase of the process, from selecting biomaterials and cells to preparing the bioink, performing the printing process, and evaluating the final construct. The podcast offers a clear and accessible introduction to how biofabrication is helping researchers develop more realistic 3D models for biomedical research. (Powered by Jellypod)]]></description><link>https://designing-life-a-bioprint-w17m4g.jellypod.com</link><generator>Powered by Jellypod (https://www.jellypod.com)</generator><lastBuildDate>Wed, 08 Jul 2026 22:47:41 GMT</lastBuildDate><atom:link href="https://designing-life-a-bioprint-w17m4g.jellypod.com/rss" rel="self" type="application/rss+xml"/><pubDate>Wed, 20 May 2026 12:59:56 GMT</pubDate><copyright><![CDATA[Copyright 2026 Designing Life: A Bioprinting Lab Journey]]></copyright><language><![CDATA[en]]></language><podcast:locked owner="feed+0eee39bc@podcasts.jellypod.com">yes</podcast:locked><podcast:guid>c71e3224-07c7-4a73-941a-d206da500371</podcast:guid><itunes:author>[EDUNEXT] Università degli Studi di Pavia</itunes:author><itunes:subtitle>An educational podcast that takes listeners inside the world of 3D bioprinting, following the step-by-step journey of how biological constructs are designed, printed, matured, and analyzed in the laboratory. Through an interview-style format, each episode</itunes:subtitle><itunes:summary>An educational podcast that takes listeners inside the world of 3D bioprinting, following the step-by-step journey of how biological constructs are designed, printed, matured, and analyzed in the laboratory.
Through an interview-style format, each episode explores a key phase of the process, from selecting biomaterials and cells to preparing the bioink, performing the printing process, and evaluating the final construct. The podcast offers a clear and accessible introduction to how biofabrication is helping researchers develop more realistic 3D models for biomedical research. (Powered by Jellypod)</itunes:summary><itunes:type>serial</itunes:type><itunes:owner><itunes:name>[EDUNEXT] Università degli Studi di Pavia</itunes:name><itunes:email>feed+0eee39bc@podcasts.jellypod.com</itunes:email></itunes:owner><itunes:explicit>false</itunes:explicit><itunes:category text="Education"/><itunes:category text="Science"/><itunes:image href="https://auth.jellypod.ai/storage/v1/object/public/CoverImages/org_01KBQPV2HGYN7PH4YY5ET5NJ6G/resized_PodCastDelGrosso.jpg"/><item><title><![CDATA[[01] Printing Living Matter: From 3D Printing to Biofabrication]]></title><description><![CDATA[This episode introduces the world of biofabrication, explaining how 3D printing evolved from manufacturing plastic objects to creating biologically active structures. Together with Prof. Michele Conti, the episode explores the difference between conventional 3D printing, bioprinting, and biofabrication, highlighting current applications such as tissue models, drug testing, and regenerative medicine.]]></description><link>https://designing-life-a-bioprint-w17m4g.jellypod.com/episodes/a608b664-a6a4-41b5-ac12-d922faa63bcd</link><guid isPermaLink="false">a608b664-a6a4-41b5-ac12-d922faa63bcd</guid><pubDate>Wed, 20 May 2026 13:08:04 GMT</pubDate><enclosure url="https://op3.dev/e,pg=c71e3224-07c7-4a73-941a-d206da500371/auth.jellypod.ai/storage/v1/object/public/Podcasts/org_01KBQPV2HGYN7PH4YY5ET5NJ6G/Episodio1_Delgrosso.mp3?v=81701cb4-8431-40fc-b572-15362aecf7c0" length="0" type="audio/mpeg"/><podcast:generator uri="https://www.jellypod.com"></podcast:generator><podcast:episode>4</podcast:episode><content:encoded><![CDATA[<p>This episode introduces the world of biofabrication, explaining how 3D printing evolved from manufacturing plastic objects to creating biologically active structures. Together with Prof. Michele Conti, the episode explores the difference between conventional 3D printing, bioprinting, and biofabrication, highlighting current applications such as tissue models, drug testing, and regenerative medicine.</p>]]></content:encoded><itunes:author>[EDUNEXT] Università degli Studi di Pavia</itunes:author><itunes:subtitle>This episode introduces the world of biofabrication, explaining how 3D printing evolved from manufacturing plastic objects to creating biologically active structures. Together with Prof. Michele Conti, the episode explores the difference between conventio</itunes:subtitle><itunes:summary>This episode introduces the world of biofabrication, explaining how 3D printing evolved from manufacturing plastic objects to creating biologically active structures. Together with Prof. Michele Conti, the episode explores the difference between conventional 3D printing, bioprinting, and biofabrication, highlighting current applications such as tissue models, drug testing, and regenerative medicine.</itunes:summary><itunes:explicit>false</itunes:explicit><itunes:image href="https://auth.jellypod.ai/storage/v1/object/public/CoverImages/org_01KBQPV2HGYN7PH4YY5ET5NJ6G/resized_03-01.jpg"/><itunes:episodeType>full</itunes:episodeType></item><item><title><![CDATA[[02] The Secret Life of Bioinks: Materials, Cells, and Rheology]]></title><description><![CDATA[This episode focuses on the preparation of bioinks, the living formulations used in bioprinting. Dr. Elena Delgrosso explains how biomaterials, cells, and rheological properties must be carefully balanced to obtain printable, biocompatible, and stable constructs. The episode also introduces the pre-printing workflow, from cell preparation to cartridge loading.]]></description><link>https://designing-life-a-bioprint-w17m4g.jellypod.com/episodes/3d56bcfd-09a9-43f2-9fd7-1fcc4cdf17cc</link><guid isPermaLink="false">3d56bcfd-09a9-43f2-9fd7-1fcc4cdf17cc</guid><pubDate>Thu, 21 May 2026 07:48:04 GMT</pubDate><enclosure url="https://op3.dev/e,pg=c71e3224-07c7-4a73-941a-d206da500371/auth.jellypod.ai/storage/v1/object/public/Podcasts/org_01KBQPV2HGYN7PH4YY5ET5NJ6G/Episodio2_Delgrosso.mp3?v=a1cde6e2-aa62-4ec2-b8cf-74f11185a136" length="0" type="audio/mpeg"/><podcast:generator uri="https://www.jellypod.com"></podcast:generator><podcast:episode>3</podcast:episode><content:encoded><![CDATA[<p>This episode focuses on the preparation of bioinks, the living formulations used in bioprinting. Dr. Elena Delgrosso explains how biomaterials, cells, and rheological properties must be carefully balanced to obtain printable, biocompatible, and stable constructs. The episode also introduces the pre-printing workflow, from cell preparation to cartridge loading.</p>]]></content:encoded><itunes:author>[EDUNEXT] Università degli Studi di Pavia</itunes:author><itunes:subtitle>This episode focuses on the preparation of bioinks, the living formulations used in bioprinting. Dr. Elena Delgrosso explains how biomaterials, cells, and rheological properties must be carefully balanced to obtain printable, biocompatible, and stable con</itunes:subtitle><itunes:summary>This episode focuses on the preparation of bioinks, the living formulations used in bioprinting. Dr. Elena Delgrosso explains how biomaterials, cells, and rheological properties must be carefully balanced to obtain printable, biocompatible, and stable constructs. The episode also introduces the pre-printing workflow, from cell preparation to cartridge loading.</itunes:summary><itunes:explicit>false</itunes:explicit><itunes:image href="https://auth.jellypod.ai/storage/v1/object/public/CoverImages/org_01KBQPV2HGYN7PH4YY5ET5NJ6G/resized_03-02.jpg"/><itunes:episodeType>full</itunes:episodeType></item><item><title><![CDATA[[03] Inside the Bioprinter: Extrusion, Process Design, and Hands-On Fabrication]]></title><description><![CDATA[This episode takes listeners inside the bioprinter, focusing on extrusion-based bioprinting and process optimization. With Dr. Franca Scocozza, the discussion covers key printing parameters such as pressure, nozzle diameter, speed, temperature, and layer height, showing how each decision affects both print quality and cell survival.]]></description><link>https://designing-life-a-bioprint-w17m4g.jellypod.com/episodes/c2d3bfa5-f0ff-4a5b-8320-b1eeb270eb2f</link><guid isPermaLink="false">c2d3bfa5-f0ff-4a5b-8320-b1eeb270eb2f</guid><pubDate>Thu, 21 May 2026 07:51:49 GMT</pubDate><enclosure url="https://op3.dev/e,pg=c71e3224-07c7-4a73-941a-d206da500371/auth.jellypod.ai/storage/v1/object/public/Podcasts/org_01KBQPV2HGYN7PH4YY5ET5NJ6G/Episodio3_Delgrosso.mp3?v=b3801b0f-8a02-4a49-8f84-49ed06c0436e" length="0" type="audio/mpeg"/><podcast:generator uri="https://www.jellypod.com"></podcast:generator><podcast:episode>2</podcast:episode><content:encoded><![CDATA[<p>This episode takes listeners inside the bioprinter, focusing on extrusion-based bioprinting and process optimization. With Dr. Franca Scocozza, the discussion covers key printing parameters such as pressure, nozzle diameter, speed, temperature, and layer height, showing how each decision affects both print quality and cell survival.</p>]]></content:encoded><itunes:author>[EDUNEXT] Università degli Studi di Pavia</itunes:author><itunes:subtitle>This episode takes listeners inside the bioprinter, focusing on extrusion-based bioprinting and process optimization. With Dr. Franca Scocozza, the discussion covers key printing parameters such as pressure, nozzle diameter, speed, temperature, and layer </itunes:subtitle><itunes:summary>This episode takes listeners inside the bioprinter, focusing on extrusion-based bioprinting and process optimization. With Dr. Franca Scocozza, the discussion covers key printing parameters such as pressure, nozzle diameter, speed, temperature, and layer height, showing how each decision affects both print quality and cell survival.</itunes:summary><itunes:explicit>false</itunes:explicit><itunes:image href="https://auth.jellypod.ai/storage/v1/object/public/CoverImages/org_01KBQPV2HGYN7PH4YY5ET5NJ6G/resized_3.jpg"/><itunes:episodeType>full</itunes:episodeType></item><item><title><![CDATA[[04] After Printing: Cell Survival, Bioreactors, and the Future of Living Constructs]]></title><description><![CDATA[This final episode explores what happens after the construct is printed. Dr. Elena Delgrosso discusses how researchers evaluate cell viability, morphology, functionality, and long-term culture. The episode also introduces bioreactors, dynamic culture systems, and future perspectives in personalized medicine, vascularized models, and advanced tissue engineering.]]></description><link>https://designing-life-a-bioprint-w17m4g.jellypod.com/episodes/17c13d25-c967-4bd7-b078-4008ec61f050</link><guid isPermaLink="false">17c13d25-c967-4bd7-b078-4008ec61f050</guid><pubDate>Thu, 21 May 2026 07:52:49 GMT</pubDate><enclosure url="https://op3.dev/e,pg=c71e3224-07c7-4a73-941a-d206da500371/auth.jellypod.ai/storage/v1/object/public/Podcasts/org_01KBQPV2HGYN7PH4YY5ET5NJ6G/Episodio4_Delgrosso.mp3?v=ce86ca08-e76e-4064-b3fc-cc421b55256a" length="0" type="audio/mpeg"/><podcast:generator uri="https://www.jellypod.com"></podcast:generator><podcast:episode>1</podcast:episode><content:encoded><![CDATA[<p>This final episode explores what happens after the construct is printed. Dr. Elena Delgrosso discusses how researchers evaluate cell viability, morphology, functionality, and long-term culture. The episode also introduces bioreactors, dynamic culture systems, and future perspectives in personalized medicine, vascularized models, and advanced tissue engineering.</p>]]></content:encoded><itunes:author>[EDUNEXT] Università degli Studi di Pavia</itunes:author><itunes:subtitle>This final episode explores what happens after the construct is printed. Dr. Elena Delgrosso discusses how researchers evaluate cell viability, morphology, functionality, and long-term culture. The episode also introduces bioreactors, dynamic culture syst</itunes:subtitle><itunes:summary>This final episode explores what happens after the construct is printed. Dr. Elena Delgrosso discusses how researchers evaluate cell viability, morphology, functionality, and long-term culture. The episode also introduces bioreactors, dynamic culture systems, and future perspectives in personalized medicine, vascularized models, and advanced tissue engineering.</itunes:summary><itunes:explicit>false</itunes:explicit><itunes:image href="https://auth.jellypod.ai/storage/v1/object/public/CoverImages/org_01KBQPV2HGYN7PH4YY5ET5NJ6G/resized_03-04.jpg"/><itunes:episodeType>full</itunes:episodeType></item></channel></rss>