Brain–computer interface (BCI) technology enable humans to interact with external devices by decoding their brain signals. Despite it has made some significant breakthroughs in recent years, there are still many obstacles in its applications and extensions. The current used BCI control signals are generally derived from the brain areas involved in primary sensory- or motor-related processing. However, these signals only reflect a limited range of limb movement intention. Therefore, additional sources of brain signals for controlling BCI systems need to be explored. Brain signals derived from the cognitive brain areas are more intuitive and effective. These signals can be used for expand the brain signal sources as a new approach. This paper reviewed the research status of cognitive BCI based on the single brain area and multiple hybrid brain areas, and summarized its applications in the rehabilitation medicine. It’s believed that cognitive BCI technologies would become a possible breakthrough for future BCI rehabilitation applications.
With the development of rehabilitation medicine being promoted as a national strategy, the rehabilitation medicine has developed rapidly in China, and the number of rehabilitation medicine departments in tertiary general hospitals has increased greatly. However, the discipline development faces some problems, such as unreasonable physical condition setting, nonstandard clinical path of rehabilitation technology, inaccurate discipline positioning, loopholes in safety management, inadequate rehabilitation quality control, and imperfect talent construction system. This paper attempts to discuss the strategic thinking of the development of rehabilitation medicine from six dimensions: foundation, technology, system, safety, quality control, and talents, so as to provide a reference for discipline builders.
As a kind of extracorporeal shock wave therapy, radial extracorporeal shock wave therapy (rESWT) has been gradually applied to the rehabilitation treatment of diseases in various clinical systems and has become an important physiotherapy method in the department of rehabilitation medicine due to its benefits of high-efficiency, non-invasive, simple and safe, etc. Radial extracorporeal shock wave has unique biological and physical characteristics, and can play the role of anti-inflammatory, analgesia and neovascularization, etc. In this paper, the excellent efficacy of rESWT in orthopedic diseases, spastic paralysis, peripheral nerve injury, refractory wound and andrology diseases was described. This article aims to provide guidance for the clinical application of rESWT in the field of rehabilitation medicine.
In recent years, regenerative medical technology and modern rehabilitation technology complement each other and develop rapidly. Regenerative rehabilitation with tissue regeneration and functional recovery as the core concept arises at the historic moment. Regenerative rehabilitation can quickly repair damaged or diseased tissues and organs, and restore or improve the function of patients to the greatest extent. This paper introduces the origin and development of regenerative rehabilitation, discusses the research progress and significance of related strategies from three aspects of neurological, motor and circulatory diseases, and stress the importance of regenerative rehabilitation in helping patients to obtain the best curative effect.