NCRC, B10 G064
January 2018
RegenHu Presentation
More information about RegenHU's Bioprinters: RegenHu engineers cutting-edge bioprinting solutions to enable scientific and clinical advancements. Their bioprinters 3DDiscovery™ and BioFactory™ offer a wide selection of high-end professional bioprinting instruments for the driving force of scientific advancements in Tissue Engineering, Regenerative Medicine and Drug Discovery. The 3DDiscovery™ platform is a versatile and cell friendly instrument. It can create three-dimensional models that more closely mimic what happens in living organisms. It allows scientists to pattern cells, biomolecules, and a range of…
Find out more »March 2018
PhD Oral Defense – Ramya Kumar
Title: Directing Interfacial Events Using Biomimetic Polymer Brushes Chair: Joerg Lahann
Find out more »June 2018
BIRG Coffee Chat with Sean Law
Join the Biointerfaces Institute Research Group (BIRG) for an informal chat over coffee and pastries with Dr. Sean Law about his experiences in industry after his PhD and postdoc. Applied research and data scientist Dr. Sean Law currently works with a multi-talented advanced technology and innovation team and serves as an advisor on an enterprise A.I. Council. He has experience producing cutting edge methodologies, building high-performance predictive models, and developing rapid prototypes. Dr. Sean Law holds an Honours B.Sc. degree…
Find out more »August 2018
PhD Defense – Ethan Post
Title: Selective Wettability Membranes and Surfaces for the Separation of Oil-Water Mixtures, Extractions, and Fouling Prevention Chair: Anish Tuteja
Find out more »October 2019
PhD Defense – Dominique Smith
Title: Multichannel Bridges for Spinal Cord Regeneration Chair: Lonnie Shea
Find out more »March 2023
Designing and Building Vascularized Tissues and Tissue Models- James B. Hoying, PhD. Chief Scientist Advanced Solutions Life Sciences
Leveraging our robotic and vascularization technology platforms, we have focused on developing solutions to readily build and deploy complex, vascularized tissues for in vitro modeling and regenerative therapeutics. Guided by tissue biology concepts and using multi-axis robotic biofabrication and automation, we have produced and implemented vascularized tissue models as well as manufacture a living, vascularized bone graft for therapeutic reconstruction of craniofacial defects. Many of these workflows have been automated via the robotic Platform involving a variety of fabrication approaches,…
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