Let me introduce you to pneumatic joint rehabilitation training devices and robotic rehabilitation gloves, highlighting their roles in hospitals.

Pneumatic Joint Rehabilitation Training Device

The pneumatic joint rehabilitation training device is an advanced rehabilitation equipment based on in-depth research into human joint kinematics and physiology. Its core principle involves using pneumatic technology to precisely control the pressure, flow rate, and inflating/deflating sequence of gas, thereby simulating the natural joint movement patterns of the human body.

In hospitals, this training device demonstrates extensive applicability and powerful therapeutic efficacy. For patients undergoing orthopedic surgeries, such as knee replacement and hip surgery, postoperative joint stiffness and muscle atrophy are common complications that severely impact the rehabilitation process and quality of life. The pneumatic joint rehabilitation training device can intervene early in rehabilitation therapy, effectively preventing joint adhesions, promoting blood circulation around the joint tissues, accelerating wound healing, and helping patients restore normal joint function and range of motion as soon as possible through progressive joint activity training.

Moreover, for patients with joint dysfunction caused by neurological diseases, such as stroke and spinal cord injury, the training device also plays a crucial role. It can tailor personalized training programs based on the patient's specific condition and rehabilitation stage, gradually transitioning from passive motion training to assisted motion training and then to active resistance motion training, step-by-step stimulating the patient's joint movement potential, rebuilding neuromuscular control circuits, and improving their limb coordination and motor ability.

Robotic Rehabilitation Glove

The robotic rehabilitation glove is an intelligent device designed for the rehabilitation of hand motor function in stroke patients. It comprises three main modules: a touchable human-machine interface (HMI), a control and drive system, and bionic finger covers with bend sensors.

This glove uses various technological means such as electric engines, pressure sensors, and virtual reality to simulate patients' hand movements. It offers five functions: passive training, finger-to-finger training, bilateral mirror training, functional training, and voice control, catering to the needs of patients with different hand dysfunctions. By driving finger joint activities using pneumatic artificial muscles, patients can perform a series of hand movement training, such as hand clapping and grip strength exercises, thereby accelerating the recovery of hand function and significantly improving symptoms like finger spasms, paralysis, and numbness.

In hospitals, robotic rehabilitation gloves can assess and monitor patients' rehabilitation status, optimize and adjust rehabilitation plans using artificial intelligence technology, enabling patients to recover more scientifically and rapidly under the guidance of doctors. These gloves can also assist in rehabilitation training, reducing the physical burden on therapists and improving their work efficiency.

In summary, both pneumatic joint rehabilitation training devices and robotic rehabilitation gloves play significant roles in hospitals, providing effective solutions for the rehabilitation of patients with joint dysfunction and enhancing the quality and efficiency of rehabilitation services.