Evidence-Based Neurorehabilitation Technology
The InMotion WRIST™ exoskeletal robot is capable of lifting even a severely impaired neurologic patient’s hand against gravity, overcoming most forms of hypertonicity.
The InMotion WRIST™ exoskeletal robot accommodates the range of motion of a normal wrist in everyday tasks.
Clinicians may use the InMotion WRIST™ as a stand-alone treatment option, or it may be used in addition to the InMotion ARM™ to offer progressive modular robotic neurorehabilitation. It may also be used to carry patients to qualify for CIMT.
Independent clinical trials have shown progressive, modular robotic neurorehabilitation to be more effective at reducing impairment and improving function1 even in severely impaired chronic patients.
Overview of a typical InMotion WRIST™ robotic therapy session:
- Therapist selects appropriate treatment protocol
- Robot prompts patient to initiate movement
- Patient initiates or attempts movement
- Robot senses patient movement and provides continuous adaptive real-time
assist-as-needed™ support ensuring movement is completed successfully
- Robot provides performance feedback to both patient and therapist
- Therapist continues to engage patient and objectively plans next steps
InMotion WRIST™ hardware
Robotic arm with 3 active degrees-of-freedom
Universal design for fast and easy patient setup
- Adjustable-height robot and workstation
- Adults and small-body people may
use the same device
InMotion WRIST™ software
Intensive — 1024 movements per therapy session
Evidence-based treatment protocols.
25 different therapy protocols allowing clinicians to customize treatment for adults and children
Therapeutic exercise games for:
- Motor planning
- Eye-hand coordination
- Attention, visual field deficits/neglect
- Massed practice
Performance feedback metrics
InMotion WRIST™ Videos
* Bosecker Caittlyn MS, Dipietro Laura, Volpe BT, Krebs HI “Kinematic Robot-Based Evaluation Scales and Clinical Counterparts to Measure Upper Limb Motor Performance in Patients With Chronic Stroke” Neurorehabilitation and Neural Repair 24(1) 62-69 , 2010.
1 Extensive bibliography, for more information please contact Bionik.
2 An Economic Analysis of Robot-Assisted Therapy for Long-Term Upper-Limb Impairment After Stroke. Stroke 2011, 42:2630-2632.
† US PATENT 5466213 “Interactive Robotic Therapist”