In the tissue engineering industry there is a lot of discussion around the complexities of seeding adherent cells, the best modes for generating vascularized scaffolds, the challenges associated with the packaging and transport of tissue-engineered medical products (TEMPs), and how to get your product to market quickly.
This presentation will provide a brief description of the various forms of VR technology and describe the trajectory of Clinical VR over the last 20 years addressing health and clinical treatment of anxiety disorders, PTSD, pain management, autism, and in the assessment/rehabilitation of stroke, brain injury, and other neurologically-based conditions. We will also discuss advances in Virtual Human technology for clinical training, healthcare coaching, and clinical interviewing.
Gain access to free tools and resources from AABME, an initiative designed to stimulate biomedical innovation by bringing together and providing resources to the biomedical engineering community.
Working at the intersection of tissue engineering, stem cell biology, and optical imaging, scientists at the University of Washington created an effective way to grow heart tissue in vitro.