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20212019201720162015

New patent issued for Professor Hocking

Wednesday, August 26, 2015

The patent titled "Chimeric Fibronectin Matrix Mimetics and Uses Thereof" (US 9,072,706) has recently been assigned to the University of Rochester with inventors Denise C. Hocking, Ph.D. (Pharmacology and Physiology, BME, RCBU) and Daniel Roy, Ph.D. (BME PhD 2012 alumnus). The patent relates to a series of recombinant fibronectin peptide mimetics developed to promote wound repair. The technology falls under a new and exciting class of therapies known as wound biologics. The primary commercial application for this technology is to promote healing of hard-to-heal or chronic wounds, including diabetic, venous, and pressure ulcers, which impose a significant health care burden worldwide. Encouraging results from recent studies indicate that topical application of these fibronectin peptide mimetics to full-thickness excisional wounds in diabetic mice accelerates wound closure and promotes granulation tissue deposition, remodeling, and re-vascularization. Denise Hocking is an Associate Professor of Pharmacology and Physiology and of Biomedical Engineering. Daniel Roy is currently a post-doctoral fellow at the US Army Institute of Surgical Research in San Antonio, TX.

Professors Dalecki and Hocking Research Wins Best Paper Award at SPIE-DSS

Wednesday, May 6, 2015

The latest research by Professor Diane Dalecki (BME, RCBU) and Professor Denise C. Hocking (Pharmacology & Physiology, BME, RCBU) was recognized with the Best Paper Award at the Micro- and Nanotechnology Sensors, Systems, and Applications Conference of the SPIE Defense + Security Symposium held recently in Baltimore, Maryland. Their invited paper titled "Guiding Tissue Regeneration with Ultrasound In Vitro and In Vivo" detailed three biomedical ultrasound technologies under development in their laboratories to stimulate tissue formation and regeneration. Co-authors of the paper included Sally Child, Carol Raeman, and BME graduate students Eric Comeau and Laura Hobbs. One technology under development employs forces within an ultrasound standing wave field to provide a noninvasive approach to spatially pattern endothelial cells and thereby guide the development of complex microvessel networks. A second technology uses ultrasound to site-specifically control the microstructure of collagen fibers within engineered hydrogels to direct cell function. The third line of research focuses on developing ultrasound as a therapeutic approach to enhance tissue regeneration in chronic wounds. These ultrasound technologies offer new solutions to key challenges currently facing the fields of tissue engineering, biomaterials fabrication, and regenerative medicine.

The SPIE DSS 2015 Defense + Security Symposium consisted of 32 separate conferences spanning 5 days with over 1200 total presentations. Conferences focused on a wide range of topics of interest to defense and security, including imaging, sensing, photonics, materials, and biomedical applications. The Symposium is the leading meeting for scientists, researchers and engineers from industry, military, government agencies, and academia throughout the world. The Micro- and Nanotechnology Sensors, Systems, and Applications Conference is one of the two largest conferences within the entire Defense + Security Symposium, and Professors Hocking's and Dalecki's presentation was one of over 100 invited presentations in the conference.

Melinda Vander Horst presents at NCUR

Wednesday, April 29, 2015

Melinda Vander Horst (BME Class 2015) presented her recent research at the 29th Annual National Undergraduate Research Conference (NCUR) held at Eastern Washington University in April. NCUR is an interdisciplinary conference where undergraduate students representing universities from around the world present their research and creative works. Melinda presented her poster, titled Development of a dual transducer system for ultrasound standing wave field-induced particle banding, with co-authors Eric Comeau (BME graduate student), Denise C. Hocking (Pharmacology & Physiology), and Diane Dalecki (BME). Melinda is a Xerox Undergraduate Research Fellow working with Professors Dalecki and Hocking on new ultrasound technologies for tissue engineering.