Keeogo
Keeogo* provides an ultra-lightweight solution for high-intensity gait training and mobility in stroke rehabilitation settings. Patients see significant improvement in gait quality following three sessions wearing Keeogo.
Keeogo* provides an ultra-lightweight solution for high-intensity gait training and mobility in stroke rehabilitation settings. Patients see significant improvement in gait quality following three sessions wearing Keeogo.
Keeogo is a SMART robotic exoskeleton powered by AI that provides intelligent user-initiated assistance with ambulation. Keeogo moves symbiotically with the user, detecting movement intention and providing graded assistance. Keeogo’s AI automatically provides a unique level of assistance for each user, optimizing gait quality and symmetry and allowing patients to walk faster, longer and better by facilitating a healthier gait pattern.
Keeogo combines the benefits of an exoskeleton with the fit of a custom orthotic. It’s ultra-lightweight carbon fiber shells gently hug the body to provide a customizable fit for each patient, without restricting freedom of movement. Keeogo can increase strength, endurance and stability. Keeogo is appropriate for a wide range a rehabilitation settings and patient ability levels and can assist with some of the most advanced therapeutic exercises.
*DIH is selling Keeogo through an exclusive agreement for the selected territories.
Find below the industry supported literature for SafeGait ACTIVE™.
“In order to obtain effective functional rehabilitation, the rehabilitation process needs to
begin immediately after the surgical procedure: to address first the damaged joint; to be related to the functional needs and
possibilities of the patient; to stimulate the patient’s capacity and will.”
(Burcea Claudia-Camelia)
Suggestions From the Field for Return to Sports Participation Following Anterior Cruciate Ligament Reconstruction: Soccer
(Bizzini et al.)
”A HI program leads to better short- and long-term strength and functional performance outcomes compared to a lower intensity rehabilitation program.”
(Bade, Michael J., Stevens-Lapsley, Jennifer E.)
Timothy O'Conner, DPT
Acute Rehabilitation Unit, University of Rochester Medical Center
D. Michele Basso, Ed.D., PT
Professor And Associate Director Of The OSU School Of Health And Rehabilitation Sciences
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