Background:Üst ekstremite impairment is common in inme and can have a devastating Etki Açık the daily lives of inme survivors. Conventional rehabilitasyon strategies targeting motor impairments in inme survivors include the multidisciplinary treatments of fizik tedavi and ergoterapi. Recently, techniques such as constraint-induced Hareket Terapi, ayna terapisi (MT), and Robot-assisted Terapi utilise Son effector Sistemler. While such approaches have been reported to be efficacious in several Çalışmalar, they largely require a Minimum Seviye of residual Hareket of the paretic limbs to carry out, and this excludes a large Orantı of inme Hastalar, such as in the Durum of CIMT. Using beyin-bilgisayar arayüzü (BCI)-Temelli motor imagery (MI) presents an alternative Araç of rehabilitasyon to Adres the Sorun faced by Hastalar with negligible residual motor function.

Amaç: This randomized controlled feasibility Çalışma investigates the Yetenek for Klinik Başvuru of the Beyin-bilgisayar arayüzü-Temelli Soft Robotik Eldiven (BCI-SRG) incorporating activities of daily living (ADL)-oriented tasks for inme rehabilitasyonu.
Methods: Eleven recruited chronic inme Hastalar were randomized into the BCI-SRG or Soft Robotik Eldiven (SRG) Grup. Each Grup underwent a 120-Dakika intervention per session comprising 30-Dakika Standart arm Terapi and 90-Dakika experimental Terapi (BCI-SRG or SRG). To perform ADL tasks, the BCI-SRG Grup used motor imagery-BCI and SRG, while the SRG Grup used SRG without motor imagery-BCI. Both groups received 18 sessions of intervention over 6 weeks. Fugl-Meyer Motor Değerlendirme (FMA) and Eylem Araştırma Arm Test (ARAT) scores were measured at baseline (Hafta 0), Pozisyon-intervention (Hafta 6), and Takip et-ups (Hafta 12 and 24). In Toplam, 10/11 Hastalar completed the Çalışma with 5 in each Grup and 1 dropped out.
Sonuçlar: Though there were Hayır Önemli intergroup Farklar for FMA and ARAT during 6-Hafta intervention, the Gelişme of FMA and ARAT seemed to sustain beyond 6-Hafta intervention for BCI-SRG Grup, as compared with SRG control. Incidentally, all BCI-SRG subjects reported a sense of vivid Hareket of the inme-impaired üst ekstremite and 3/5 had this phenomenon persisting beyond intervention while none of SRG did.


Sonuç: BCI-SRG suggested probable trends of sustained functional improvements with Garip kinesthetic Deneyim outlasting Aktif intervention in chronic inme despite the dire İhtiyaç for large-Ölçek investigations to verify İstatistiksel significance. Adding BCI to soft Robotik Eğitim for ADL-oriented inme rehabilitasyonu holds promise for sustained improvements and elicited Algı of motor movements.

As the İnovatif beyin-bilgisayar arayüzü-Temelli soft Robotik Eldiven (BCI-SRG), the Syrebo hand rehabilitasyon robotu (BCI) Temelli Açık the principles of motor imagery and neural plasticity can achieve a "Algı-control" bidirectional closed-loop neural Uyarı, significantly improving rehabilitasyon Etkinlik. It adopts a Beyin-inspired Algoritma to capture EEG, ensuring Veri Doğruluk. At the Aynı Zaman, It can collect EEG Sinyal Veri and can be viewed Açık Yazılım, providing references for rehabilitasyon Programlar and Klinik Araştırma. İstek Demo & Deneme: [email protected]


Reference: Cheng N, Phua KS, Lai HS,et al. Beyin-bilgisayar arayüzü-Temelli Soft Robotik Eldiven Rehabilitasyon for Inme. IEEE Trans Biomed Eng. 2020 Dec;67(12):3339-3351.