5E: BioInterfaces SIG
Time: 8:00 AM to 10:00 AM
Description
The junction between materials and biological systems is a critical and complex interface with the potential to control the function of macromolecules and dictate cell and tissue responses. Increasingly, cells and biomacromolecules are designable components of biomaterials, creating additional opportunities for innovative research at the interface of materials science and fundamental biology. This session serves as a forum for advances in approaches to modulate interfacial properties, investigations of structure-function and self-assembly at biointerfaces, and applications of interface-driven biomedicine. Specific areas of interest include fundamental research related to dynamic interactions at the material-biomolecular interface from nano to bulk scales and applied research focused on providing hemocompatible and non-fouling biomaterial surfaces. We also encourage contributions that advance a biomaterials lens to cutting-edge research in protein and cell biology, and research that translates progress in molecular and cell biology into innovative biomaterials.
8:30 AM. 249. Functional Anti-bacterial Coatings for Localized Modulation of Airway Microenvironment During Intubation.Gabriela Cervantes-Gonzales1, Teja Guda1, Rena Bizios1, Joo Ong1, Gregory Dion2, Ronit Malka3 1The University of Texas at San Antonio, 2University of Cincinnati Medical Center, 3Brooke Army Medical Center
8:45 AM. 250. Hemostatic Polyurethane Shape Memory Polymer Foams for Infection Prevention in Traumatic Wounds.Ernest Emmanuel Obeng1, Chelsea Antwi2, Paris Smith2, Changling Du2, Katheryn Dong2, Michaela Hall3, Joshua Satalin3, Michaela Kollisch-Singule4, Mary Beth Monroe1 1Texas A&M University, 2Syracuse University, 3SUNY Upstate Medical University, 4Arkansas Children's Hospital
9:00 AM. 251. Mechanically Tunable Topographies to Direct Cellular and Multicellular Organization Across Biological Systems.Jouha Min1 1University of Michigan
9:15 AM. 252. Matrix Mechanics Modulates Engineered Microvessels Permeability and Contractility.Elizabeth Stanely1, Lydia Kruis1, Anna Bunge1, Michael Hu1, Gonzalo Anyosa1, Brendon M. Baker, PhD2 1University of Michigan, 2UNIVERSITY OF MICHIGAN- ANN ARBOR
9:30 AM. 253. Protein Corona on Supramolecular Nanofibers Enhances Biomaterial Phagocytosis and Immunogenicity.Helena Freire Haddad1, Vinicius Xie Fu1, Maria Kulapurathazhe1, Katherine Lyon1, Joel Collier, PhD1 1Duke University
9:45 AM. 254. Multi-domain disordered proteins enable programmable assembly of biomaterial-condensates in human cells.Ian Sicher, M.Eng.1, Maria Camila Giraldo-CastaƱo, B.S.2, Mariell Pascual, B.S.2, Felipe Quiroz, PhD3, Spencer Hayes, M.S.2 1Georgia Institute of Technology, 2Georgia Institute of Technology & Emory University, 3Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory University
T8:00 AM. 248. alk by Marshall Padilla, University of Pennsylvania