3H: 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. 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.
Moderators:
Woojin Han, Icahn School of Medicine at Mount Sinai
Jeannine Coburne, Worcester Polytechnic Institute
Gulden CamciUnal, Univeristy of Massachusetts Lowell
Objectives
8:00 AM. 131. Aqueous synthesis of poly(ethylene glycol)-norbornene-carboxylate for dynamic hydrogel crosslinking.Nathan Dimmitt1, Chien-Chi Lin, Ph.D.1 1Purdue University
8:15 AM. 132. Extracellular matrix stress relaxation regulates spatiotemporal mammary branching morphogenesis.Ryan Stowers, Ph.D.1, Daniella Walter1, Juliette Moore1, Abhishek Sharma1 1UC Santa Barbara
8:30 AM. 133. IGF-1 mimetic peptide conjugated alginate hydrogels enhance survival and blunt inflammation in Mesenchymal Stromal Cells.Xiaohong Tan, PhD1, Liufang Jing, BS1, Sydney Neal, BS, MS1, Munish Gupta, MD1, Jacob Buchowski, MD1, Lori Setton, PhD1, Nathaniel Huebsch, PhD2 1Washington University in Saint Louis, 2Washington University in St. Louis
8:45 AM. 134. In Vitro Bioengineered Immune-Competent Colons as a Platform to Study Enteric Neuroinflammation and Neuroimmune Crosstalk.Karla Ortega Sandoval1, Claudia Collier2, Aelita Salikhova1, Shreya Raghavn, PhD2 1Texas A&M Univesity, 2Texas A&M University
9:00 AM. 135. Mathematical Modeling of Ligand Interconnectivity Using One-dimensional Magnetic Nanomaterials for Reversible Stem Cell Regulation.Nayeon Kang1, Chowon Kim1, Heemin Kang1 1Korea University
9:15 AM. 136. Patterned siRNA Hydrogels for Spatially Regulating Cell Gene Expression and Driving hMSC Osteogenesis.Cong Huynh1, Minh K. Nguyen2, Nicholas Kwon2, Zachary Flohr2, Melanie Chetverikova2, Eben Alsberg1 1University of Illinois at Chicago, 2Case Western Reserve University
9:30 AM. 137. Sacrificial Endothelialized Microfibers for Engineering Aligned Capillary Beds.Maggie Jewett1, Harrison Hiraki, PhD1, Firaol Midekssa, MS1, Elizabeth Stanley1, Michael Hu, MS1, Siddhi Bhirud1, Susan Xi1, Brendon Baker, Ph.D.1 1University of Michigan
9:45 AM. 138. Photonic manipulation of ligand spacing in supramolecular self-assembly for stem cell regulation.Sungkyu Lee1, Heemin Kang1 1Korea University