Exercise skin muscle equipment

E-LINK is a computerized modular system bringing both evaluation and exercise together in an exciting format with an extensive scope of clinical applications for the upper and lower extremities.E-LINK is available in English, Chinese, German and Spanish.

The AD1 wireless Adaptor which can be used with various E-LINK devices – Dynamometer, Pinchmeter, Goniometers, ForcePlate and the Upper Limb Exerciser.This product is independently tested and certified to BS EN 60601-1:2006 + A1:2013

Mains powered battery charging unit for up to 4 wireless E-LINK sensors (GX5, NC6, AD1). Includes Medical Grade Power Supply and country specific mains power cord..This product is independently tested and certified to BS EN 60601-1:2006 + A1:2013

The wireless Dongle (DG1) enables E-LINK to be used as a complete stand-alone wireless evaluation and exercise system.This product is independently tested and certified to BS EN 60601-1:2006 + A1:2013

The EX2 Interface Unit is used to connect the M400 Myo-EX (GX1, GX2) and AngleX (NC1, NC2) sensors to E3000 Serial Interface Upper Limb Exerciser.This product is independently tested and certified to EN 60601-1:1990 including Amendments A1, A2 and A13

The X4 InterX Unit functions as the intelligent interface to connect the E-LINK evaluation and exercise modules to the computer via the USB port. Up to four E-LINK devices may be connected simultaneously allowing the user to easily and quickly switch between them during an evaluation or exercise session.Includes Medical Grade Power Supply and country specific mains power cord. This product is independently tested and certified to EN 60601-1:1990 including Amendments A1, A2 and A13

The X4 InterX Unit functions as the intelligent interface to connect the E-LINK evaluation and exercise modules to the computer via the USB port. Up to four E-LINK devices may be connected simultaneously allowing the user to easily and quickly switch between them during an evaluation or exercise session.Includes Medical Grade Power Supply and country specific mains power cord. This product is independently tested and certified to BS EN 60601-1:2006 + A1:2013.

A rehabilitation device for upper extremity strength testing and exercise. The dynamometer offers isometric and concentric isotonic modes, as well as many adapters for isolated joint and compound motions.

A rehabilitation device for upper extremity strength testing and exercise. The dynamometer offers isometric and concentric isotonic modes, as well as many adapters for isolated joint and compound motions.

Hose 1ea, Com cable 1ea (1 set box)

GLOVE 1EA

Device 1ea, CPM 1ea, GLOVE 1ea, Hose set 1ea

RL-500 device + CPM

PEN 1EA (One poly bag)

Detection Hub 1ea (One poly bag)

T-wrench

Actuator socket cover

Power switch

Adapter cable

adapter

hand support

buckle

strap set

pad set

Robotic system for neurorehabilitation and rehabilitation of the upper limbs and shoulders of patients with neuromotor disabilities.

The Optimal-G is a robotics-based powered exercise equipment intended to redevelop muscles and to restore motion to joints during the rehabilitation of a patient recovering from a stroke or other neuromuscular condition. The Optimal-G enables passive and allows active motions of the lower limbs, which are carried out by a single robotic guide. The robotic guide is modular, and designed to be appropriate for use both in the in-patient and outpatient facilities. It incorporates sensors for accurate motion control of the robotic guide and provides measures of patient performance.

The ReoAmbulator model is robotics-based powered exercise equipment intended to redevelop muscles and to restore motion to joints during the rehabilitation of a patient recovering from a stroke or other neuromuscular condition. The ReoAmbulator enables passive and allows active motions of the lower limbs, which are carried out by a single robotic guide. The robotic guide is modular, and designed to be appropriate for use both in the in-patient and outpatient facilities. It incorporates sensors for accurate motion control of the robotic guide and provides measures of patient performance.

The Hand of Hope (HOH) is a therapy device (exoskeleton) used for neuromuscular rehabilitationof the hand and forearm. HOHfunctions as a biofeedback device where surface electromyography(sEMG) electrodes depict voluntary muscle activation. Thedepicted signals are processed andsimplified, and can be seen by a convenient presentation of visual feedback. The sEMGreadoutenables patients to monitor the fundamental neuromuscular functional state. Therefore, impairment,functional limitationand impaired volitional movement due to stroke or other neurologic ororthopaedic diseases can be easily presented and utilizedby a sensory signal. Patient’s attention isdrawn to the task through a visually displayed sEMG signal and consequently used forthe initiationof the motor task. This biofeedback mechanism promotes motor learning via interactive use. Inparticular, stroke isone of the leading causes of adult disability, and hand rehabilitation after strokeis a very challenging part thereof. However, it iswell known that sensory signals such as visualsensory inputs reach the motor cortex and modulate motor cortex function andexcitability, andtherefore can improve motor learning. Since active participation and initiation of the movement is thekey tosuccess, using the biofeedback system, HOH motivates patients to actively interact with thesystem during an sEMG controlledtask-related training regime

The Hand of Hope (HOH) is a therapy device (exoskeleton) used for neuromuscular rehabilitationof the hand and forearm. HOHfunctions as a biofeedback device where surface electromyography(sEMG) electrodes depict voluntary muscle activation. Thedepicted signals are processed andsimplified, and can be seen by a convenient presentation of visual feedback. The sEMGreadoutenables patients to monitor the fundamental neuromuscular functional state. Therefore, impairment,functional limitationand impaired volitional movement due to stroke or other neurologic ororthopaedic diseases can be easily presented and utilizedby a sensory signal. Patient’s attention isdrawn to the task through a visually displayed sEMG signal and consequently used forthe initiationof the motor task. This biofeedback mechanism promotes motor learning via interactive use. Inparticular, stroke isone of the leading causes of adult disability, and hand rehabilitation after strokeis a very challenging part thereof. However, it iswell known that sensory signals such as visualsensory inputs reach the motor cortex and modulate motor cortex function andexcitability, andtherefore can improve motor learning. Since active participation and initiation of the movement is thekey tosuccess, using the biofeedback system, HOH motivates patients to actively interact with thesystem during an sEMG controlledtask-related training regime

The Hand of Hope (HOH) is a therapy device (exoskeleton) used for neuromuscular rehabilitationof the hand and forearm. HOHfunctions as a biofeedback device where surface electromyography(sEMG) electrodes depict voluntary muscle activation. Thedepicted signals are processed andsimplified, and can be seen by a convenient presentation of visual feedback. The sEMGreadoutenables patients to monitor the fundamental neuromuscular functional state. Therefore, impairment,functional limitationand impaired volitional movement due to stroke or other neurologic ororthopaedic diseases can be easily presented and utilizedby a sensory signal. Patient’s attention isdrawn to the task through a visually displayed sEMG signal and consequently used forthe initiationof the motor task. This biofeedback mechanism promotes motor learning via interactive use. Inparticular, stroke isone of the leading causes of adult disability, and hand rehabilitation after strokeis a very challenging part thereof. However, it iswell known that sensory signals such as visualsensory inputs reach the motor cortex and modulate motor cortex function andexcitability, andtherefore can improve motor learning. Since active participation and initiation of the movement is thekey tosuccess, using the biofeedback system, HOH motivates patients to actively interact with thesystem during an sEMG controlledtask-related training regime

The product is suitable for patients with certain hand movement ability, which can improve the precise control ability of the hand through assisting the hand to realize different gestures and movements. In addition, it can be applied in various training modes such as passive training, mirror training, active training, resistance training, power-assisted training and voice control training, to stimulate and intervene patients' central and peripheral nerves, which is helpful to the recovery of hand movement function of patients.

The OMEGO is a robotic pre-gait therapy system for the rehabilitation of patients with neurologic disorders.

The MYRO therapy system is generally used for neurological rehabilitation of the upper extremities.

DIEGO is a robotic arm-shoulder therapy system for the rehabilitation of patients with limited arm function.

The PABLO Lower Extremity system is a sensor-based therapy system for gait assessment and movement feedback.

PABLO System is a modern therapy device for the rehabilitation of patients suffering from motoric dysfunctions; it is primarily used for neurological rehabilitation purposes.

The TYMO system is a modern monitoring and therapy device for the rehabilitation of patients suffering from motoric dysfunctions; it is primarily used for neurological rehabilitation purposes.

The AMADEO system is intended for robot-supported finger-hand therapy of patients with neurological damage to the central nervous system, caused by typical indications such as stroke or traumatic brain injury.