Episode 52: Revolutionizing liver tissue engineering and transplants Science Talks: A conversation hosted by the University of Arizona’s BIO5 Institute
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- 科学
Induced pluri-potent stem cells (iPSC) are widely used in therapeutics for disease modeling, regenerative medicine, and drug discovery. Using patients’ cells, scientists can regenerate their cells into iPSC and recreate new organs for patients who need them. Amy Randall-Barber from the BIO5 Institute was joined on Science Talks by Dr. Ekta Minocha, a 2023 BIO5 postdoctoral fellow working in the Jason Wertheim lab at the University of Arizona College of Medicine – Tucson. Dr. Minocha's work focuses on the development of bioartificial liver tissues. She hopes that one day they can replace a failing liver in the human body and expedite the waiting time associated with organ transplants.
Induced pluri-potent stem cells (iPSC) are widely used in therapeutics for disease modeling, regenerative medicine, and drug discovery. Using patients’ cells, scientists can regenerate their cells into iPSC and recreate new organs for patients who need them. Amy Randall-Barber from the BIO5 Institute was joined on Science Talks by Dr. Ekta Minocha, a 2023 BIO5 postdoctoral fellow working in the Jason Wertheim lab at the University of Arizona College of Medicine – Tucson. Dr. Minocha's work focuses on the development of bioartificial liver tissues. She hopes that one day they can replace a failing liver in the human body and expedite the waiting time associated with organ transplants.
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