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Ep. 312: “Biomanufacturing in Space” Featuring Dr. Pinar Mesci
Guest:
Dr. Pinar Mesci is the Global Head of Biomanufacturing and Biotechnology at Axiom Space, where she manages a portfolio focused on biomedical research programs including stem cells, tissue engineering, disease modeling, cancer research, and DNA-inspired nanomaterials. She talks about her early career developing brain organoid models, transitioning to the space industry, and how microgravity affects biological systems. She also discusses the future of low Earth orbit research and how new technologies can be transferred back to Earth. (40:55)
Featured Products and Resources:
The Stem Cell Science Round Up
iPSC-Derived Ovarian Support Cells – Fertilo is an ovarian support cell product that improves the in vitro maturation rate of human oocytes. (1:25)
Culturing HSPCs Ex Vivo – A nanoengineered 3D system improves HSPC multi-lineage differentiation and engraftment capacity. (13:30)
Spinal Core Repair Scaffolds – A nanoengineered extrusion-aligned tract promotes axonal reconnection, synapse formation, and locomotor recovery after spinal cord injury. (22:50)
Vascularizing Retinal Organoids – Transient vascular support enhances survival of retinal ganglion cells in organoids. (32:14)
Image courtesy of Dr. Pinar Mesci
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By The Stem Cell Podcast
4.7
101101 ratings
Guest:
Dr. Pinar Mesci is the Global Head of Biomanufacturing and Biotechnology at Axiom Space, where she manages a portfolio focused on biomedical research programs including stem cells, tissue engineering, disease modeling, cancer research, and DNA-inspired nanomaterials. She talks about her early career developing brain organoid models, transitioning to the space industry, and how microgravity affects biological systems. She also discusses the future of low Earth orbit research and how new technologies can be transferred back to Earth. (40:55)
Featured Products and Resources:
The Stem Cell Science Round Up
iPSC-Derived Ovarian Support Cells – Fertilo is an ovarian support cell product that improves the in vitro maturation rate of human oocytes. (1:25)
Culturing HSPCs Ex Vivo – A nanoengineered 3D system improves HSPC multi-lineage differentiation and engraftment capacity. (13:30)
Spinal Core Repair Scaffolds – A nanoengineered extrusion-aligned tract promotes axonal reconnection, synapse formation, and locomotor recovery after spinal cord injury. (22:50)
Vascularizing Retinal Organoids – Transient vascular support enhances survival of retinal ganglion cells in organoids. (32:14)
Image courtesy of Dr. Pinar Mesci
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Never miss updates about new episodes.
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