8F: 3D Bioprinting for Developing Personalized Models 2
Time: 10:30 AM to 12:30 PM
Description
Three dimensional (3D) bioprinting is a practical and commonly accessible biofabrication tool for a wide range of applications in tissue engineering and regenerative medicine because it has a unique ability to precisely position bioinks, cells, and/or biomolecules into spatially organized structures. 3D bioprinting can be conveniently used to develop personalized implants, in vitro disease models, and drug screening platforms as well as tissue replacements. In this session, we
will highlight the advances and recent trends in 3D bioprinting technologies, development of multi-functional biomaterials, novel bioink formulations, clinical translation of bioprinting, current challenges and future perspectives, 4D bioprinting, and a wide range of medical applications of 3D bioprinting approaches. In addition, we will cover multi-scale manipulation strategies for biomaterials and cells to engineer physiologically relevant 3D in vitro models, and emerging advances in 4D printing of stimuli-responsive biomaterials for precision medicine.
Moderators:
Murat Guvendiren
Associate Professor | Chemical & Materials Engineering
New Jersey Institue of Technology
Gulden Camci-Unal, Ph.D
Professor | Chemical Engineering, Center for Pathogen Research & Training (CPRT)
UMASS Lowel
10:30 AM. 453. The potential of high crystalline nano-hydroxyapatite in inhibiting breast cancer cell adhesion and proliferation.Ella Glorioso1, Alexa Agesen1, Weitong Chen, Ph.D.1, Timothy Burg, Ph.D.1, Karen Burg, Ph.D.1 1University of Georgia
10:45 AM. 454. Bioactive Composite Support Bioinks for Enhanced Osteogenesis in Dense Cellular Constructs.Hang Truong1, Murat Guvendiren1 1New Jersey Institute of Technology
11:00 AM. 455. Embedded Bioprinting of 3D Perfusable Channels in Alginate Using Calcium Chloride-Loaded Fugitive Ink.Calvin Chernyatinskiy1, Bruce Gao1 1Clemson University
11:15 AM. 456. High-Throughput In Vivo Screening of Bioinks for Improved Vascular and Hepatocyte Engraftment.Fan Zhang1 1University of Washington
11:30 AM. 457. 4D Bioprinting of Mesenchymal Stem Cell-laden Dynamic Hydrogels for Bone Regeneration.Shangsi Chen1, Boguang Yang1, Liangbin Zhou1, Rocky Tuan1, Zhong Alan Li1 1The Chinese University of Hong Kong
11:45 AM. 458. ML-facilitated, 3D Printable Scaffolds for Biomedical Applications.James Jaraczewski1, Libin Yang1, Ian Doran1, Xiao Sun1, Tiantian Li1, Zhengfu Huang1, Yang Liu1, Kenan Song1 1University of Georgia
12:00 PM. 459. 4D Engineered Collagen-Nanosilicate Biphasic Scaffold for Bone-Ligament Regeneration.Diya Pillai Babu1, Ananiah Piango1, Yingnan Zhai1, Linxia Gu1, Akhilesh Gaharwar2, Vipuil Kishore1 1Florida Institute of Technology, 2Texas A&M University
12:15 PM. 460. 4D microfluidic platform for cell culture studies.Durante Pioche-Lee1, Sasha Cai Lesher-PĂ©rez2 1Univeristy of Michigan, 2University of Michigan-- Ann Arbor