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Syrebo Hand Rehabilitation Robot hospital version SY-HR08E is the?newest and the best model.It can provide?the most?training modes,and add more advanced functions.
It uses soft robotic technology, combined with clinical neurorehabilitation theories, to drive the affected hand for multi-modal training and meet full-cycle training needs; it helps patients with brain neurological injury to actively activate brain motor control through motor re-learning.
The difference between SY-HR08E with SY-HR06E and SY-HR03E
Based on the theory of brain plasticity and brain functional reorganization, in order to better promote the functional reorganization of the brain, MRP needs many times repeated action training, so that patients can fully experience the normal motor feeling and required strength of each simple action to each group of complex actions, so as to better master and improve the motor control ability, and promote the coordinated movement of multiple muscle groups.
BS training principle: symmetrical movement of bilateral muscle groups of the same name at the same time activates similar neural networks in both hemispheres of the brain. Through bilateral training, when a symmetrical movement is completed, the same motion parameters of both hands can be realized through the communication between neurons, and gradually strengthened.
Many studies proved that MI training is one of the important methods for clinical rehabilitation of hemiplegia. MI therapy combined with conventional rehabilitation training has a synergistic effect on stroke patients with hemiplegia, which can be further improved the upper limb function of stroke patients with hemiplegia and can significantly improve their FMA, MAS and muscle strength.
The Core Idea of the theory: the comprehensive application of central and peripheral interventions can better promote hand function rehabilitation.
SY-HR08E?has four major rehabilitation mode (passive+assistance+active+resistance) to meet the full cycle rehabilitation needs.
In the passive training mode, the rehabilitation glove can drive the affected hand to execute flexion and extension exercises. The flexion time parameter and the extension time parameter can be adjusted individually to meet the different training needs of different users.
Through fine motor training combined with the upper limb motor control training£¬the patients change from passive participants to active learners, enhancing, accelerating and inducing the central control ability of the affected hand.
According to the prompts, the patients complete the designated active gesture training, and can adjust the detailed movement parameters, gradually strengthen the completion of the movement, and improve the hand movement ability and coordination.
Passive training is combined with task-oriented hand function training. Patients can actively participate in controlled exercise training and repeated reinforcement.
The earlier application of active and passive consciousness can enhance the input of sensory information and promote the accelerated repair or reconstruction of damaged motor conduction pathways, so as to effectively accelerate the rehabilitation of hand function.
The muscle force sensor captures the patient's active muscle contraction, recognizes the patient's active motor intention, and assists the patient to complete the full range of joint training.
Activate the motion of the mirror neuronal region through bilateral synchronous training.
Symmetrical movements performed simultaneously by muscle groups on both sides of the brain can activate neural networks similar to those in the hemispheres on both sides of the brain.
Through bilateral training, when a symmetrical movement is completed, the same motor parameters of the two hands are realized through communication between neurons and gradually strengthened.
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Active muscle contractions are performed by the patient. External resistance needs to be overcome to complete the training.
The resistance mode is divided into two intensity levels: 'low' and 'strong', which can adapt to the corresponding training mode according to the patient's individual recovery situation, and more effectively help the patient recover.
Game training combined with the upper limb motor control training, Syrebo can stimulate the patients' interest of participating.
The patients change from passive participants to active learners, enhancing, accelerating and inducing the central control ability of the affected hand.
By holding the hand switch in the healthy hand, the grip of the dysfunctional hand can be controlled
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Game training combined with hand strength control training, Syrebo can stimulate the patients' interest of participating. The patients change from passive participants to active learners, enhancing, accelerating and inducing the central control ability of the affected hand.
Use pressure pump to prevent excessive force
Anti spasticity mode, used by patients with advanced tension, can reduce the occurrence of spasms
Joint research and development with expert teams; Combining internationally leading software aware AI algorithms; Obtained medical device qualification
Easy to wear, semi cut gloves with humanized design, allowing patients to wear them alone without the need for assistance
When the patient's hand function in a spastic phase (high tone), slow and gradual flexion and extension is required to reduce the tone. If the rate of flexion and extension is too fast, this can lead to an increase in muscle tone and cause secondary injury.
Improves joint range of motion
Relieves abnormal muscle tone of hand
Improve ADLs ability
Improve muscle strength
Prevent spasms & eliminates edema
Promotes neural pathway reconstruction
Results: The FMA, BBT, ARAT, MBI etc. scores of the treatment group (SYREBO gloves group) are improved obviously than the control group.
It is developed with Professor Jia Jie, who is the director of Rehabilitation Medicine Department of Huashan Hospital and chairman of China Hand Function Rehabilitation Committee.