Rehabilitation body engineering and hand therapy utilizing soft tissue manipulation represent a novel and effective approach for addressing a wide range of diseases, including those that are resistant to traditional treatments. This therapeutic method involves applying targeted pressure to specific soft tissue areas to enhance organ function and overall health. The technique shows promise in treating conditions that conventional methods often fail to address, providing a significant advantage in comprehensive patient care. The integration of artificial intelligence (AI) into hand rehabilitation robots further expands the potential of these therapies. AI technology enhances the functionality of rehabilitation robots by improving their precision, effectiveness, and adaptability. Through AI-driven algorithms, these robots can deliver personalized rehabilitation exercises, adjust treatment parameters in real-time, and optimize therapy outcomes based on individual patient needs. This technological advancement not only enhances the accuracy and responsiveness of rehabilitation practices but also reduces the burden on medical resources by streamlining treatment processes. Moreover, AI contributes to a more engaging and comfortable rehabilitation experience for patients. By facilitating human-robot collaboration, AI enables more interactive and supportive rehabilitation sessions, thus increasing patient motivation and adherence to treatment regimens. The promising synergy between AI and hand rehabilitation robotics points to a future where rehabilitation therapies are not only more effective but also more accessible and tailored to individual requirements. Overall, this approach represents a significant leap forward in the field of rehabilitation, offering new solutions for managing complex health conditions and improving patient outcomes.