Perfusable vascular network printed via Auxilium's AMP-1 on the International Space Station for the Biomanufacturing in Space of Drug-Delivery Medical Devices (InSPA-Auxilium Bioprinter) investigation. InSPA-Auxilium Bioprinter 3D prints an implantable medical device that could be used to deliver drugs to support nerve regeneration. Devices printed in microgravity are of higher quality than those printed on Earth. In-space manufacturing could improve device performance, benefiting patients on Earth and crew members on long-duration space missions. Image courtesy of Auxilium Biotechnologies.

jsc2025e064330 (7/22/2025) --- Perfusable vascular network printed via Auxilium's AMP-1 on the International Space Station for the Biomanufacturing in Space of Drug-Delivery Medical Devices (InSPA-Auxilium Bioprinter) investigation. InSPA-Auxilium Bioprinter 3D prints an implantable medical device that could be used to deliver drugs to support nerve regeneration. Devices printed in microgravity are of higher quality than those printed on Earth. In-space manufacturing could improve device performance, benefiting patients on Earth and crew members on long-duration space missions. Image courtesy of Auxilium Biotechnologies.

Album SpaceX-33_CRS_Science

Date July 22, 2025