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In the latest advance in cellular engineering for this purpose, Jianyi Zhang, M.D., Ph.D., chair of the Department of Biomedical Engineering at the University of Alabama, Birmingham (UAB) and T. Michael and Gillian Goodrich Endowed Chair of Engineering Leadership, published an article in Circulation Research showing how to control key cell-cycle activators to improve the success rate of cardiomyocyte transplants. Dr. Zhang and his coauthors, using a mouse model of myocardial infarction, engineered the transplanted cells so that they expressed much higher levels of cyclin d2, a protein that plays a key role in cell division. Cardiac function improved significantly, and infarct size decreased in mice receiving these engineered the cells. The authors plan to test their discovery next in larger animal models.

Use of stem cells in tissue regeneration isn’t limited to the heart, of course. Stephanie Willerth, Ph.D., Canada Research Chair in Biomedical Engineering at the University of Victoria in Canada, is one of two recipients from that school of an Ignite Award from the British Columbia Innovation Council. Dr. Willerth will use her award to create “bioink” for three-dimensional printers. The bioink will convert skin cells into pluripotent stem cells using technology developed by Aspect Biosystems, a biotech company in Vancouver. Once induced, the pluripotent stem cells can be converted again into a number of different cell types. Dr. Willerth’s specific focus is building brain tissue with this technology.

Prosthetic limbs have been a standard of care for amputees and people with underdeveloped arms or legs. Many current prostheses are designed to resemble actual limbs and use myoelectrical interfaces to re-create normal movements. Alternatively, other prostheses designed for specific purposes, such as the Flex-Foot Cheetah prosthetic foot for running, do not resemble the human limb but are optimized for a specific prosthetic function.

Now, a group of undergraduate bioengineering students at George Mason University (GMU) produced a prosthetic arm to play the violin. The students, who were instructed by Laurence Bray, Ph.D., associate chair of the Department of Bioengineering at GMU, were connected with a local fifth grader from nearby Alexandria, Va., named Isabella Nicola. Nicola was born without a left hand and only part of her left arm, and she had been learning violin using a prosthesis designed for her by her music teacher. The teacher, a GMU alumnus, reached out the department for help.

The design team used a three-dimensional printer to create a prosthetic arm for Isabella. The prosthesis is made of durable, lightweight plastic and includes a built-in bow, which Isabella can use to play her instrument. The prosthesis is hot pink — the color of Isabella’s choosing. She can now play the violin much more easily than before. Whether a symphony chair is in her future is up to her.

The University of New Hampshire will use a five-year Center of Biomedical Research Excellence grant by the National Institutes of Health to create the Center of Integrated Biomedical and Bioengineering Research. The center will unite several colleges under the rubric of bioengineering and biomedical engineering. Similarly, the University of Iowa will use a $1.4 million grant from the Roy J. Carver Charitable Trust, an Iowa-based charity, to add a biomedical engineering laboratory for its College of Engineering.