4H: 3D Bioprinting for Developing Personalized Models 1

Date: Thursday, March 26, 2026
Time: 1:30 PM to 3:30 PM
Room: GH East CD

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 manipulatio 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:

Mural Guvendiren
Associate Professor, Chemical & Materials Engineering
New Jersey Instittue of Technology

Dr. Gulden Camci-Unal
Professor | Chemical Engineering, Center for Pathogen Research & Training (CPRT)
UMass Lowell

  • 1:45 PM. 212. Bioprinting Strategically Aligned Collagen Fibers and Bioactive Bone Layers for Osteochondral Construct.Hang Truong1, Murat Guvendiren1 1New Jersey Institute of Technology

  • 2:15 PM. 214. Flow-Driven Hydrogel Fiber Micro-compartmentalization for the high-throughput generation of multicellular 3D cancer models.Carlos Guimarães1, Ramon Silva1, Bruna Correia1, Rui Reis1 1University of Minho

  • 2:30 PM. 215. Implantable prevascularized engineered human liver tissues with controlled microenvironmental cues.Ha Ram Nah1, Kerry Rogy1, Xin Li, PhD2, Ramille Shah, PhD2, Salman Khetani1 1University of Illinois Chicago, 2Dimension Bio

  • 2:45 PM. 216. High-Density, Extrudable Collagen-Based Inks for Tissue Engineering Applications.Kevin Capariño, M.S.E.1, Shu-Tung Li, PhD1 1Shu-Tung and Alice Li Foundation: Laboratory for Tissue Engineering Research

  • 3:00 PM. 217. Organoids Bioprinting to Establish Liver Cancer Model for High-Throughput Drug Screening.Zhenhua Cui1, Min Wang1 1The University of Hong Kong

  • 3:15 PM. 218. Two Photon Mediated Fabrication of Next Generation Aligned Collagen Scaffolds.Wesley Nichols, B.S.1, Bruce Gao1, Lucas Schmidt, Ph.D2, Luke Peterson2 1Clemson University, 2Clemson Univeristy

  • Mitigating Bioprinting Stress: Engineering Bioinks to Control YAP/TAZ-Mediated Cellular Reprogramming.Thomas Boland, PhD1, Patricia Ablanedo Morales, PhD1, Jonah Ayala, BS1, April Ruiz, none1, Ramon Holguin, none1 1The University of Texas at El Paso