2H: Applied Biomaterials for Microphysiological Systems
Timeslot: Wednesday, April 19, 2023 - 2:45pm to 4:15pm
Room: Shorebreak
About
Microphysiological systems (MPSs) are systems, often microfluidic in nature, of interconnected 2D or 3D cellular constructs designed to recapitulate the multi-tissue structure and function of one or more organ systems. MPSs, also commonly referred to as organs-on-a-chip or in vitro organ constructs (including organoids), have the potential to revolutionize the translational pathway for novel biomaterials, pharmaceuticals, and biopharmaceuticals by minimizing or even negating the need for small animal testing. Topics include, but are not limited to, cutting-edge biomaterials-based strategies to recapitulate native and pathological (i.e., disease model) tissue structures and functions in MPSs and translational applications of biomaterials-based MPSs.
2:45 PM 88. 3D Muscle Satellite Cell Niche System for Identifying Anti-geronic Factors in Parabiosis. Dr. Yunki Lee, Dr. Jeongmoon Choi, Young C. Jang. Emory University, Georgia Institute of Technology.
3:00 PM 89. A multifunctional epicardial bioelectronic patch made from soft rubbery materials. Cunjiang Yu. Pennsylvania State University.
3:15 PM 90. Development of Tissue-Specific, Perfusable Vasculature in Microphysiological Systems. Kevin Ling, MS; Arvind Srivatsava, MS; Annika Deans; Robert Brown; Kannan Manian, PhD; Steven George, PhD; James McGrath, PhD; Ruchira Singh, PhD; Danielle Benoit, PhD; University of Rochester, University of California Davis, University of Oregon.
3:30 PM 91. Hydrogen peroxide-releasing hydrogels for cellular behavior manipulation and therapeutic applications. Thi Thai Thanh Hoang, PhD; Yunki Lee, PhD; Young Jang, PhD; Emory University School of Medicine.
3:45 PM 92. A Novel Block Copolyester Photoresin for UV-assisted 3D Printing. Warrick Ma, Yadong Wang. Meinig School of Biomedical Engineering, College of Engineering, Cornell University.
4:00 PM 93. Hydrogel Encapsulation of Bacterial Biosensors for Detection of Inflammatory Metabolites in IBD. Samira Aghlara-Fotovat, Elena Musteata, Michael Doerfert, Moshe Baruch, PhD; Maya Levitan, Dr. Jeffrey Tabor, Dr. Omid Veiseh. Rice University.