3E: Tissue Engineering SIG 1
Time: 8:00 AM to 10:00 AM
Description
Tissue Engineering SIG is a forum to exchange information, further knowledge, and promote greater awareness regarding all aspects of the use of biomaterials to engineering tissue substitutes or to promote tissue regeneration. Of primary interest and relevance to TE SIG is the use of appropriate materials (synthetic and natural) with cells (either native or from a donor source) and/or biological response modifiers (e.g., growth factors, cytokines and other recombinant products) to replace tissue and organ functions. Particular emphasis is placed on the
development of materials to better incorporate, protect, and deliver both the cells and biological response modifiers to help promote the healing and regenerative processes. This year’s session will also highlight the latest advancements in naturally-derived biomaterials, bioadhesives, and biomaterial membranes for tissue repair and wound healing. The group is committed to forging interactions among basic scientists, applied scientists, engineers, clinicians, industrial members,
professional societies in related fields, and regulatory groups in its efforts to expand and effectively utilize the shared knowledge base in this multidisciplinary field. This session will also include biomaterials-enabled organoid systems and integrated biomaterials and synthetic biology approaches to engineer, model, and regenerate functional tissues.
Moderators:
Muhammad Rizwan
Assistant Professor | Department of Biomedical Engineering | Ophthalmology
UT Southwestern Medical Center
Woojin Han
Associate Professor | Orthopedics, Orthopedic Research
Associate Professor | Stem Cell Biology And Regenerative Medicine
Icahn School of Medicine at Mount Sinai
Jessica Gluck
Assistant Professor
North Carolina State University
Mai Ngo
University of Wisconsin-Madison
Seth McCullen
Poly-Med
8:00 AM. 130. Translation of Precision Porous Scaffolds from Laboratory to the Clinic.Buddy Ratner, Ph.D.1 1University of Washington
8:15 AM. 131. Chemically Crosslinked Decellularized Matrix Hydrogels for Generating Functional Pancreatic Duct-Like Organoids.Ngoc Ha Luong, PhD1, Van Thuy Duong, PhD1, Chien-Chi Lin, PhD1 1Purdue University
8:30 AM. 132. Unconventional Biomaterials for Enhancing Tissue Engineering and Regenerative Medicine.Gulden Camci-Unal, PhD1 1University of Massachusetts Lowell
8:45 AM. 133. 3D Human Pluripotent Stem Cell Differentiation to Study Thalidomide-Induced Congenital Heart Defects.Morgan Ellis, Ph.D.1, Ferdous Finklea, Ph.D.1, Petra Kerscher, Ph.D.1, Lauren Black, Ph.D.2, Elizabeth Lipke1 1Auburn University, 2Tufts University
9:00 AM. 134. Mechanically Resilient and Bioactive Ear Scaffolds.Na Huang1, Shui Kwong John Lee1, Kenneth Ka Ho Lee2, Chunyi Wen3, Yun Chang3, Ming Zhang3, Cheng Dong3, Chuanbin Mao1, Dan Michelle Wang1, Elmer Dai Fei Ker3 1The Chinese University of Hong Kong, 2Occam Biosciences, Scotland, 3The Hong Kong Polytechnic University
9:15 AM. 135. Proteomics of Decellularized Axolotl Tissues: Impact of Preparation Methods on Composition.Jasmine McTyer1, Sarah Newcomb1, Kaylie Verkon1, Dylan Turpeinen, PhD2, Whitney Stoppel, PhD1 1University of Florida, 2NeXtGen Biologics
9:30 AM. 136. Wavelength-regulated cell-based biohybrid patch for temporal immunomodulation of the wound bed.Elizabeth Kelley1, Matthew Parker1, Liyang Wang2, Alvaro Moreno Lozano1, Kalina Peneva1, London Frey1, Jonathan Rivnay, PhD3, Tzahi Cohen-Karni, PhD2, Jacob Robinson, PhD1, Christian Schreib, PhD1, Omid Veiseh, PhD1 1Rice University, 2Carnegie Mellon University, 3Northwestern University
9:45 AM. 137. Photo-Tunable Materials Reveal Dynamic Role of YAP Mechanotransduction During Intestinal Crypt Formation.Nolan Petrich, B.S.1, Kaustav Bera, Ph.D.1, Delaney McNally, B.S.1, Peter Dempsey, Ph.D.2, Kristi Anseth3 1University of Colorado Boulder, 2University of Colorado Anschutz Medical Campus, 3University of Colorado at Boulder