Effect of rotator cuff strengthening exercises along with sleeper stretch program verses traditional exercises program in baseball player having glenohumeral internal rotation deficit (GIRD) - A comparative study
Por Ayushi Devgade (Autor), Neeraj Singh (Autor), Jharna Gupta (Autor), Priyanshu Joshi (Autor).
Resumo
therapy for stroke survivors, spinal cord injury patients, and individuals with movement disorders. Studies have shown significant improvements in motor function and muscle strength among robotic-assisted rehabilitation users. Virtual Reality (VR) and Augmented Reality (AR): VR and AR technologies provide immersive and engaging environments for neurorehabilitation exercises. These platforms enhance motivation and compliance while offering real-time feedback to patients. Recent studies have demonstrated the effectiveness of VR-based interventions in stroke rehabilitation, balance training, and cognitive rehabilitation for conditions like traumatic brain injury. Neuroplasticity-Based Approaches: Advances in our understanding of neuroplasticity have led to the development of novel neurorehabilitation strategies. Techniques such as constraint-induced movement therapy (CIMT) and transcranial magnetic stimulation (TMS) are designed to harness the brain’s adaptive capacity. They have shown promise in promoting functional recovery and reorganization of neural circuits. Telehealth and Remote Monitoring: The integration of telehealth in neurorehabilitation has expanded access to rehabilitation services, particularly in underserved regions. Remote monitoring, teleconsultations, and wearable sensors allow therapists to track patients’ progress and adjust treatment plans in real-time, enhancing continuity of care