Surgery is an essential method of comprehensive treatment for lung cancer, but it also impairs patients’ cardiopulmonary function. A subset of patients who undergo surgery may suffer from postoperative complications, and even death. Preoperative pulmonary rehabilitation is a part of enhanced recovery after surgery, and can improve patients' cardiopulmonary function, reduce postoperative complication rate and shorten hospital stay. It has been already demonstrated a great value in lung cancer surgery. In this review, we summarized the three important components of preoperative pulmonary rehabilitation, including smoking cessation, chest physical therapy, and preoperative exercise training. Moreover, this review outlined the development of pulmonary rehabilitation for lung malignancies, aiming to promote its application and standardization.
An increasing number of health system researchers use systematic review to synthesize research evidence to inform the development of health policies at global and national levels. However, there are methodological challenges facing the health system research in undertaking systematic reviews of health policy literatures. This paper explored the constraints and promise of systematic review as a tool for evidence-based health system research in developing countries. It introduced the systematic review method and its evolution in health research over the past decades. The paper then discussed the definition of health system research, as system science, and contrasted its features/characteristics to those of medical research. It discussed and analyzed if the systematic review could be an effective tool for evidence-based health system research, particularly in developing countries. The paper concludes that the systematic review may be a very useful tool that can be used for evidence-based health system research to address specific policy issues; however, research on some health system/policy issues may not be appropriate to use the systematic review at all.
Brain-computer interfaces (BCIs) have become one of the cutting-edge technologies in the world, and have been mainly applicated in medicine. In this article, we sorted out the development history and important scenarios of BCIs in medical application, analyzed the research progress, technology development, clinical transformation and product market through qualitative and quantitative analysis, and looked forward to the future trends. The results showed that the research hotspots included the processing and interpretation of electroencephalogram (EEG) signals, the development and application of machine learning algorithms, and the detection and treatment of neurological diseases. The technological key points included hardware development such as new electrodes, software development such as algorithms for EEG signal processing, and various medical applications such as rehabilitation and training in stroke patients. Currently, several invasive and non-invasive BCIs are in research. The R&D level of BCIs in China and the United State is leading the world, and have approved a number of non-invasive BCIs. In the future, BCIs will be applied to a wider range of medical fields. Related products will develop shift from a single mode to a combined mode. EEG signal acquisition devices will be miniaturized and wireless. The information flow and interaction between brain and machine will give birth to brain-machine fusion intelligence. Last but not least, the safety and ethical issues of BCIs will be taken seriously, and the relevant regulations and standards will be further improved.
As the implementation of the high-quality development policy of public hospitals is faced with the problems of diversified environment and the coordination of execution of complex actors, the network structure has changed from the closed resistance type to the open competition type. At present, China’s high-quality development policy of public hospitals needs to improve the policy system and refine the top-level design; strengthen the executive power of network entities and innovate the joint governance mechanism; optimize the structure of policy tools to improve the resilience and flexibility of the network; implement the performance evaluation mechanism and strengthen supervision. This article is based on policy network theory and provides an in-depth analysis of the current high-quality development policy texts for public hospitals in China, with the aim of providing suggestions for policy development
At the end of 2022, the National Medical Products Administration (NMPA), in conjunction with the National Cancer Center, Cancer Hospital, Chinese Academy of Medical Sciences and Peking Union Medical College raised for the first time the important issue of clinical research globally: whether the source of the death time of clinical trials based on the simple follow-up records is credible, and proposed a consensus document on the source of the death time of clinical trials. The results were published in The Lancet Regional Health-Western Pacific, which attracted wide attention and recognition from the international industry. This is the first time that the China consensus on quality standards for clinical research has been ahead of the U.S. Food and Drug Administration and other international colleagues. The NMPA has been leading China in promoting the scientific development of clinical research, so as to constantly establish and improve the scientific regulatory system and ecological system, and promote China's full integration into the global pharmaceutical research and development system. China clinical research institutions and the whole industry are also gradually from standardized development to scientific development, high-quality development process. In this study, we summarized the scientific and subject-oriented development of China clinical research industry in recent years, and continuously strengthened the international competitiveness of China pharmaceutical industry. It is suggested that scientific thinking model should be used to deal with the normative problems in clinical research and promote the development of medical model to scientific model.