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Harvard University has entered into a collaboration with ReWalk Robotics Ltd., to accelerate the development of lightweight, wearable soft exosuit technologies for assisting people with lower limb disabilities. The agreement with ReWalk will help speed the design of assistive exosuits that could help patients suffering from stroke and multiple sclerosis (MS) to regain mobility.
"This is a very exciting day for the soft exosuit technology," said Conor Walsh, who is the John L. Loeb Associate Professor of Engineering and Applied Sciences at Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS), founder of the Harvard Biodesign Lab and a Core Faculty Member at the Wyss Institute for Biologically Inspired Enineering. "ReWalk brings commercialization expertise and experience in the area of wearable robotics and complements our translation-focused research. Ultimately this agreement paves the way for this technology to make its way to patients."
The soft exosuit – which is a soft wearable robot that is the first of its kind – was developed by Walsh and his team through extensive prototyping that included the involvement of roboticists, mechanical and biomechanical engineers, apparel designers, and software engineers. Walsh's collaborators also include Terry Ellis and Ken Holt, both faculty members at Boston University’s Department of Physical Therapy & Athletic Training.
"What makes the soft exosuit’s development unique is the extreme multi-disciplinary nature of the work. In addition to our varied technical expertise as a team, our research with voluntary study participants has been central to our understanding of how we need to design and build these exosuits," said Kathleen O’Donnell, who has been leading the team at the Wyss Institute with Walsh. Over the course of its development, the soft exosuit has been the catalyst for entirely new forms of functional textiles, flexible power systems and control strategies that integrate the suit and its wearer in ways that mimic the natural biomechanics of the human musculoskeletal system.
"There is a great need in the health care system for lightweight, lower-cost wearable exoskeleton designs to support stroke patients, individuals diagnosed with multiple sclerosis and senior citizens who require mechanical mobility assistance. This collaboration will help create the next generation of exoskeleton systems, making life-changing technology available to millions of consumers across a host of patient populations," said Larry Jasinski, CEO of ReWalk.
Using form-fitting, fabric-based designs that are lightweight and non-restrictive, Harvard's soft exosuit uses compact, powerful actuators packaged in a belt to provide assistance to the wearer’s legs in a physiologically relevant manner. These enhanced movements have the potential to assist wearers in walking with greater stability and metabolic efficiency, which could prevent injury and reduce fatigue.
Most currently-marketed exoskeletons are rigid systems providing structural support and large assistance to patients with extremely severe movement disabilities, for example due to spinal cord injuries. For many stroke, MS, and elderly patients who can move partially on their own, the assistive and elegant movements of the lighter weight, flexible, soft exosuit could be used to overcome mobility limitations in their lower extremities. Currently in the United States, there are an estimated 3 million stroke patients and 400,000 MS patients who are suffering from limited mobility due to lower limb disabilities.
Harvard’s Office of Technology Development worked to structure this collaboration with ReWalk, which includes a license for intellectual property and funding for the continued development at the Institute, towards bringing this new wearable therapeutic device into the marketplace. Additional funding for the exosuit came from the Defense Advanced Research Projects Agency's Warrior Web program, which seeks to develop technologies to mitigate musculoskeletal injuries among military service members while improving performance.
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Leah Burrows | 617-496-1351 | email@example.com