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How Robotic Gait Training Could Aid Early Stroke Recovery

How Robotic Gait Training Could Aid Early Stroke Recovery
High-dose therapy gait training using robotic exoskeletons may aid early rehabilitation for acute stroke, a study published in
Gait Training vs Standard of Care
Participants included 44 individuals (ages 18 to 82 years) admitted to Kessler Institute for Rehabilitation for acute stroke. Half received conventional standard of care (SOC), and half received SOC with an option for overground gait training in the Ekso GT (RE+SOC). Both groups received the same amount of overall therapy time.
Overground gait training in the exoskeleton was supervised by a licensed physical therapist who adjusted the variable bilateral assistance of the Ekso GT according to each individual’s progress. Outcome measures were total distance walked during inpatient rehabilitation and functional independence measure (FIM) score. The RE-SOC group trained in the Ekso GT at least three times during their stay. ....

Karen Nolan , Kessler Foundation , Rehabilitation Engineering Research At Kessler Foundation , Kessler Institute For Rehabilitation , Ekso Bionics Inc , Kessler Institute , Rehabilitation Engineering Research , கரேன் நோலன் , கெஸ்லர் அடித்தளம் , புனர்வாழ்வு பொறியியல் ஆராய்ச்சி இல் கெஸ்லர் அடித்தளம் , கெஸ்லர் நிறுவனம் க்கு புனர்வாழ்வு , கெஸ்லர் நிறுவனம் , புனர்வாழ்வு பொறியியல் ஆராய்ச்சி ,

Robotic exoskeleton gait training may aid early rehabilitation for stroke

Robotic exoskeleton gait training may aid early rehabilitation for stroke
A team of New Jersey researchers has demonstrated that high-dose therapy gait training using robotic exoskeletons may aid early rehabilitation for acute stroke. The article, Robotic exoskeleton gait training during acute stroke inpatient rehabilitation (doi: 10.339/fnbot.2020.581815), was published October 30, 2020 in
Frontiers in Neurorobotics is available open access at: https:/
/
full
The authors are Karen Nolan, PhD, Kiran Karunakaran, PhD, and Kathleen Chervin, of Kessler Foundation, Michael Monfett, MD, of Children s Specialized Hospital, Radhika Bapineedu, MD, and Neil N. Jasey Jr, MD, of Kessler Institute for Rehabilitation, and Mooyeon Oh-Park, MD, of Burke Rehabilitation Hospital, formerly with Kessler. Drs. Nolan and Karunakaran are also affiliated with Children s Specialized Hospital. Kessler scientists and clinicians have faculty appointments at Rutgers New Jersey Medical ....

New Jersey , United States , Kessler Institute For Rehabilitation , Karen Nolan , Michael Monfett , Kathleen Chervin , Kiran Karunakaran , Radhika Bapineedu , Emily Henderson , Kessler Foundation , Rehabilitation Engineering Research , Ekso Bionics Inc , Rutgers New Jersey Medical School , Specialized Hospital , Kessler Institute , Mooyeon Oh Park , Burke Rehabilitation Hospital , Rutgers New Jersey Medical , Ekso Bionics , Assistant Director , புதியது ஜெர்சி , ஒன்றுபட்டது மாநிலங்களில் , கெஸ்லர் நிறுவனம் க்கு புனர்வாழ்வு , கரேன் நோலன் , கிறன் கருணாகரன் , எமிலி ஹென்டர்சன் ,

Robotic exoskeleton training expands options for stroke rehabilitation

The authors are Karen Nolan, PhD, Kiran Karunakaran, PhD, and Kathleen Chervin, of Kessler Foundation, Michael Monfett, MD, of Skyline Physical Medicine and Rehabilitation, Radhika Bapineedu, MD, and Neil N. Jasey Jr, MD, of Kessler Institute for Rehabilitation, and Mooyeon Oh-Park, MD, of Burke Rehabilitation Hospital, formerly with Kessler. Drs. Nolan and Karunakaran are also affiliated with Children s Specialized Hospital. Kessler scientists and clinicians have faculty appointments at Rutgers New Jersey Medical School.
The need for stroke rehabilitation is tremendous, given the large numbers of stroke survivors with deficits in mobility, balance and coordination that limit their activities of daily living. Advances in robotics and biomedical engineering are expanding the options for rehabilitative care. Researchers are applying new technologies to gait training that may offer advantages over traditional labor intensive physical therapy. This inpatient study of a robotic ex ....

New Jersey , United States , Kessler Institute For Rehabilitation , East Hanover , Karen Nolan , Michael Monfett , Kathleen Chervin , Kiran Karunakaran , Radhika Bapineedu , Kessler Foundation , Rehabilitation Engineering Research At Kessler Foundation , Ekso Bionics Inc , Rutgers New Jersey Medical School , Skyline Physical Medicine , Kessler Institute , Mooyeon Oh Park , Burke Rehabilitation Hospital , Rutgers New Jersey Medical , Ekso Bionics , Rehabilitation Engineering Research , புதியது ஜெர்சி , ஒன்றுபட்டது மாநிலங்களில் , கெஸ்லர் நிறுவனம் க்கு புனர்வாழ்வு , கிழக்கு ஹ்யாநவர் , கரேன் நோலன் , கிறன் கருணாகரன் ,

How Robotic Gait Training Could Help Brain-Injured Kids Move Better

How Robotic Gait Training Could Help Brain-Injured Kids Move Better
Gait training using robotic exoskeletons improved motor function in adolescents and young adults with acquired brain injury, according to New Jersey-based researchers, in
The authors are Kiran Karunakaran, PhD, Naphtaly Ehrenberg, MS, and Karen Nolan, PhD, from the Center for Mobility and Rehabilitation Engineering Research at Kessler Foundation, and JenFu Cheng, MD, and Katherine Bentley, MD, from Children’s Specialized Hospital. Drs. Karunakaran, Nolan, Cheng, and Bentley are also affiliated with the Department of Physical Medicine and Rehabilitation at Rutgers New Jersey Medical School.
Acquired brain injury often results in hemiparesis, causing significant deficits in balance and gait that adversely affect functional ambulation and participation in activities of daily living. Gait training using robotic exoskeletons offers an option for motor rehabilitation in individuals with hemiparesis, but f ....

Jenfu Cheng , Karen Nolan , Naphtaly Ehrenberg , Katherine Bentley , Kiran Karunakaran , Kessler Foundation , Rehabilitation Engineering Research At Kessler Foundation , Department Of Physical Medicine , Ekso Bionics Inc , Rutgers New Jersey Medical School , New Jersey Based , Applied Bionics , Rehabilitation Engineering Research , Physical Medicine , Rutgers New Jersey Medical , கரேன் நோலன் , க்யாதரிந் பென்ட்லி , கிறன் கருணாகரன் , கெஸ்லர் அடித்தளம் , புனர்வாழ்வு பொறியியல் ஆராய்ச்சி இல் கெஸ்லர் அடித்தளம் , துறை ஆஃப் உடல் மருந்து , ரட்ஜர்ஸ் புதியது ஜெர்சி மருத்துவ பள்ளி , புதியது ஜெர்சி அடிப்படையிலானது , பயன்படுத்தப்பட்டது பயோனிக்ஸ் , புனர்வாழ்வு பொறியியல் ஆராய்ச்சி , உடல் மருந்து ,