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Başvuru of hand rehabilitasyon Cihaz in hemiplegic hand rehabilitasyon - Inme Merkez

Statistics show that after inme, only 15% of Hastalar can İyileşmek about half of their el işlevi, and only 3% of Hastalar can İyileşmek more than 70% of their original el işlevi. It has become a Büyük trend in the rehabilitasyon Tarla to explore Etkili rehabilitasyon Tedavi methods and promote the Kurtarma of Hastalar' el işlevi. Therefore, the combination of task-oriented Eğitim and emerging rehabilitasyon Teknoloji has gradually become an indispensable rehabilitasyon Tedavi Teknoloji for el işlevi rehabilitasyon. The emergence of el işlevi rehabilitasyon robotus has brought Yeni ideas for the rehabilitasyon of el işlevi after inme.

This article will briefly Paylaş the intelligent soft hand rehabilitasyon Robot and beyin-bilgisayar arayüzü hand-function Robot.


Intelligent soft hand rehabilitasyon robotu

The intelligent soft el işlevi rehabilitasyon robotu combines Robotik Teknoloji and neuroscience, and can provide various Eğitim modes such as passive, Yardım, resistance, bilateral mirror and Aktif games. It is a el işlevi rehabilitasyon robotu that fully covers the Dönem from soft paralysis to rehabilitasyon. In the İşlem of Robot-assisted Eğitim, bilateral ayna terapisi and motor imagery were combined to realize the integrated Tedavi of central intervention and peripheral intervention.

With the intelligent soft hand rehabilitasyon robotu, Hastalar can Uyarmak the motor cortex of the Beyin through multi-modal Uyarı through visual, auditory and tactile sensory Uyarı to Form a closed-loop rehabilitasyon Eğitim and improve the Hasta's willingness to actively participate in el işlevi rehabilitasyon Eğitim to promote the Kurtarma of the Hasta's motor function. At the Aynı Zaman, in bilateral ayna terapisi, the healthy hand drives the affected hand to Egzersiz, which can further improve the nöropastisite of the Beyin.

beyin-bilgisayar arayüzü hand-function Robot

The addition of Yeni methods makes the closed-loop rehabilitasyon model of central-peripheral-central a clinically Önemli rehabilitasyon Teori. Central intervention can promote the activation of the corresponding functional Beyin areas of the Beyin and improve Beyin nöropastisite. Peripheral intervention continuously strengthens the positive Geri bildirim of sensory and motor control modes to the Beyin Merkez. The combination of the two modes promotes the remodeling of Beyin function in inme Hastalar. The beyin-bilgisayar arayüzü has become the En iyi choice to realize the closed-loop rehabilitasyon Mod.

Beyin-bilgisayar arayüzü Eğitim will give Hastalar VR visual and auditory dual Uyarı, so that they can perform motor imagination of the affected hand movements, so as to control the dış iskelet rehabilitasyon robotu to Tam the hand grasping and opening movements. Through beyin-bilgisayar arayüzü Eğitim, Hastalar repeatedly imagine the grasping and opening movements of the affected hand in their brains, and the generation of actual movements assisted by dış iskelet robots achieves a high Derece of matching between motor intentions and behavioral movements, which is more conducive to Remodeling of the cerebral cortex.

At Şimdiki, the beyin-bilgisayar arayüzü el işlevi rehabilitasyon robotu has gradually been Tanınan by Hastalar.

The picture below shows the Hasta's motor imagination task of hand grasping and opening according to the display screen and voice prompts. Each Eylem has 3 imagination opportunities. While the Hasta is performing motor imagery, the EEG Cihaz can collect the Özellik EEG Sinyaller of the cerebral motor cortex through the collector.

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If the Hasta can accurately Tam the motor imagery task within 3 times, the EEG Sinyal will Tam the Sinyal extraction and Özellik conversion through the Sinyal converter, and then control the dış iskelet manipulator to Yardım the Hasta Tam the corresponding grasping or opening Eylem; If the motor İmaj cannot be accurately completed within 3 chances, the EEG Sinyal converter cannot be triggered to Tam the Hareket of the dış iskelet manipulator. According to the Hasta's Performans, the Sistem will score the Hasta's Derece of Tamamlama, which also improves the Hasta's enthusiasm for participating in the Eğitim.

 However, at Şimdiki, there are still some Problemler with el işlevi rehabilitasyon robotus commonly used in Klinik Uygulama. It is hoped that such Problemler can be İyileştirilmiş in Gelecek Araştırma.