Tissue Engineering SIG - 2

Timeslot: Friday, April 23, 2021 - 11:00am to 12:30pm
Track: Tissue Engineering and Regenerative Medicine
Room: Virtual

About

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:
Jeff Jacot, PhD
Ngan Huang, PhD

Abstracts

Abstracts will be available for download on April 20, 2021.

  • 234. Fabrication of Nanofiber Microspheres with Tunable Morphology via Gas Bubble-Mediated Co-axial Electrospray, Johnson John, PhD, Jingwei Xie, PhDUniversity of Nebraska Medical Center, Omaha, NE, USA

  • 235. Mechanistic study of synthesizing tunable gelatin methacrylate (GelMA) bioinks for rapid and high-resolution stereolithography bioprinting, Hitendra Kumar1,2, Kabilan Sakthivel, PhD1, Mohamed Mohamed, PhD1, Emilie Boras3, Su Ryon Shin, PhD4, Keekyoung Kim, PhD1,21The University of British Columbia Okanagan, Kelowna, BC, Canada, 2University of Calgary, Calgary, AB, Canada, 3The University of British Columbia, Vancouver, BC, Canada, 4Harvard Medical School, Cambridge, MA, USA

  • 236. Characterization of Degradation and Bioactive Growth Factor Release for 3D Printed Poly(Propylene Fumarate)-Based Constructs, Gerry Koons, Panayiotis Kontoyiannis, Mani Diba, PhD, Letitia Chim, David Scott, PhD, Antonios Mikos, PhDRice University, Houston, TX, USA

  • 237. Aptamers Assisted Controlled Growth Factor Delivery Enables Self-Organizing Microvasculature within 3D Microenvironment, Deepti Rana, Vasileios Trikalitis, Vincent R. Rangel, Jeroen Rouwkema, PhDUniversity of Twente, Enschede, Netherlands

  • 238. 3D Printed Micronized Fat-Laden Collagen Constructs for Treatment of Chronic Wounds, Trevor Schmitt1, Nathan Katz2, Vipuil Kishore11Florida Institute of Technology, Melbourne, FL, USA, 2Jointechlabs, Wheeling, IL, USA

  • 239. Zinc in Composite Scaffolds Promotes Cell Growth and Mineralized Matrix Production, Jennifer Moy, Treena Arinzeh, PhDNew Jersey Institute of Technology, Newark, NJ, USA