C11 hand rehabilitation glove & Upper Limb Rehabilitation Pulley
🔄Unlock the power of comprehensive upper limb rehabilitation with our dynamic duo - SyreboCare Hand Rehabilitation Glove and Upper Limb Rehabilitation Pulley!🔄Shop Now
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Passive Flexion Extension
Passive Training allows stroke to engage in rehabilitation exercises passively, meaning that the glove's technology takes over the work, gently guiding and stimulating the hand's muscles and joints. The power glove can drive the affected hand to flexion and extension in setting times and strength, besides the rehab glove can drive the affected hand to grasp small balls, water cups and other objects.Shop Special Offers
Active Game Training
Use intelligent virtualization technology, it can be connected to APP for operation (can be screened to TV), accelerate the rehabilitation of stroke patient brain motor intention control output.
ADLs training: According to the three stages of sports learning, it is a medically proven effective rehabilitation training method to correct various factors influencing sports to achieve or close to normal biology.
single finger passive & mirror training
Individual Finger Training: anvanced model has air switches to control single finger or multiple fingers to training. Syrebo robotic gloves drives affected hand individual finger flexion and extension, finger end-to-end pinch training,ring finger pinch/two fingers pinch...
c12 Hand Rehabilitation Glove
Syrebo hand rehabilitation glove innovates the design of the glove, increases the number of air pumps and the sensitivity of the sensor, can individually control the mirror training of single finger, controls finger movement more finely, and better helps stroke patients recover fine hand functions.C12 robotic glove also has wireless data glove,more convenient to use.Shop Now
Innovative Hands Mirror Training
Innovative Hands Mirror rehabilitation Training is a method that leverages mirror neurons in the brain to aid in recovery. The unaffected hand drives the affected hand's movements simultaneously, essentially copying the motor nerve pathway from healthy hand to the affected one.
By capitalizing on the brain's neuroplasticity, this approach fosters new neural connections, enhancing motor function and hand dexterity.