Unweighing system to restore functional mobility.
The assisted walking system (unweighing) is designed for the analysis and treatment of gait disorders in neurologic, orthopaedic or geriatric rehabilitation. In addition to the unweighing system, treadmill has been included, to mobilise in a creative visualization to train gait patterns on the treading surface.
The unweighing system enables partial weight-bearing therapy with open access to the patient. Offloading a percentage of body weight allows the opportunity for early rehabilitation while providing a safe environment for patients. Therapists can focus on treating their patients, manually facilitating lower extremities.
Unweighing system allows full and partial weight bearing without compromising proper gait kinematics. Unweighing system used for motion support, mobilization, locomotion, gait training, functional training and orthopedic rehabilitation.
The patient moves in a treadmill and whilst observing his own footprints, performs tasks that require a continual variation of his gait and balancing. Postural control as well as coordination skills are checked and trained as a result.
- Assist posture and balance
- Weight bearing as per requirement
- Provides stability to trunk and spine
- Prevent excessive rotation
- Facilitate hip flexor tension
- Facilitate motor re-learning
- Improves walking speed and endurance
- Safe and patient friendly
- Stroke
- Spinal cord injuries
- Head injuries
- Amputees
- Vestibular
- Neurologic
- Geriatric
Robotic hand gloves
for hand and finger rehabilitation.
Stroke rehabilitation treatment and recovery.
Cerebral palsy, cerebral infarction, cerebral hemorrhage, cerebral apoplexy, and hemiplegia and other such series of hand dysfunctions or missing, such as brain or hand nerve damage, fractures, car accident injuries, burns, others such as hand dysfunction caused by spinal cord injury can also be used, as long as it is hand dysfunction, hand discomfort, and hand inflexibility. Rehabilitation robot gloves can be used for high muscle tension, palm bending, curling, finger spasm, paralysis, etc.
It can help to relieve hand spasm and stiffness, and promotes motor relearning. Patients can recover faster, and carry out functional task-oriented training, including daily activity training such as stretching, machine holding, etc, as well as rehabilitation training under the real situation to increase the initiative.
It can reduce the muscle tension of the hand, relieve edema and stiffness, accelerate the rehabilitation process of hand function and promote the recovery of cerebral nerve injury, so as to achieve the goal of rehabilitation.
The glove can buffer and protect the metacarpophalangeal joint and the interprocedural joint, and can gently promote the sensory stimulation of the hand after stroke. The cutting edge robot glove helps patients suffering from neurological and orthopedic injuries incorporate their hand functionally in therapy.