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New collaborative work wins Neuromod Prize to accelerate the development of neuromodulation therapies

The pioneering collaborative work being performed by Kessler Foundation scientists in the Tim and Caroline Reynolds Center for Spinal Stimulation team has been recognized with the Neuromod Prize, a new initiative from the National Institutes of Health (NIH) Common Fund's Stimulating Peripheral Activity to Relieve Conditions (SPARC) program.

Exoskeleton-assisted walking may improve bowel function in people with spinal cord injury

Kessler Foundation East Hanover, NJ. May 28, 2021. A team of researchers has shown that physical intervention plans that included exoskeleton-assisted walking helped people with spinal cord injury evacuate more efficiently and improved the consistency of their stool. This finding was reported in Journal of Clinical Medicine on March 2, 2021, in the article “The Effect of Exoskeletal-Assisted Walking on Spinal Cord Injury Bowel Function: Results from a Randomized Trial and Comparison to Other Physical Interventions” (doi: 10.3390/jcm10050964). The authors are Peter H. Gorman, MD, of the University of Maryland School of Medicine, Gail F. Forrest, PhD, of Kessler Foundation’s Tim and Caroline Reynolds Center for Spinal Stimulation, Dr. William Scott, of VA Maryland Healthcare System, Pierre K. Asselin, MS, Stephen Kornfeld, MD, Eunkyoung Hong, PhD, and Ann M. Spungen, EdD, of the James J. Peters VA Medical Center.

Exoskeleton-assisted walking may improve bowel function in people with spinal cord injury

Exoskeleton-assisted walking may improve bowel function in people with spinal cord injury
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Researchers identify barriers to use of surface electromyography in neurorehabilitation

The authors are Rakesh Pilkar, PhD, Kamyar Momeni, PhD, Arvind Ramanujam, Manikandan Ravi, Erica Garbarini, and Gail F. Forrest, PhD, affiliated with the Center for Mobility and Rehabilitation Engineering Research and the Tim and Caroline Reynolds Center for Spinal Stimulation at Kessler Foundation. sEMG is a noninvasive technology that detects, records, and interprets the electrical activity of muscles. The quantifiable information on myoelectric output recorded by sEMG is extremely useful in assessing impairment and potentially determining patient-specific and effective interventions for individuals with spinal cord injury (SCI). However, while sEMG is commonly used in neurorehabilitation research, its integration into clinical practice has been limited, according to lead author Dr. Pilkar, senior research scientist at the Center for Mobility and Rehabilitation Engineering Research.

Researchers identify several factors that prevent use of sEMG in clinical neurorehabilitation

Researchers identify several factors that prevent use of sEMG in clinical neurorehabilitation Kessler Foundation researchers have identified several practical and technical barriers to the widespread use of surface electromyography (sEMG) in clinical neurorehabilitation. Based on their holistic analysis of these factors, the researchers suggest a collaborative, interdisciplinary, and unified approach to enable rehabilitation professionals to routinely use sEMG. The article, Use of Surface EMG in Clinical Rehabilitation of Individuals With SCI: Barriers and Future Considerations (doi: 10.3389/fneur.2020.578559), was published December 18, 2020, in Frontiers in Neurology. It is available open access at https:/ / PMC7780850/ The authors are Rakesh Pilkar, PhD, Kamyar Momeni, PhD, Arvind Ramanujam, Manikandan Ravi, Erica Garbarini, and Gail F. Forrest, PhD, affiliated with the Center for Mobility and Rehabilitation Engineering Research and the Tim and Caroline Reynolds Center for

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