This article introduces the exploration and practice of the “West China Hospital of Sichuan University-Zhenxiong model”, discusses the model of medical precision poverty alleviation work in the new era. Through in office and online service, the counterpart assistance measures will be deeply integrated with the reality of Zhenxiong, to effectively radiate the high-quality medical resources of West China Hospital of Sichuan University to Zhenxiong, and gradually promote the county to form a cross-regional medical alliance of “West China Hospital of Sichuan University + Zhenxiong medical community”, so as to practice the national medical reform policy. It is hoped that through the practice of this model, non-Communist parties can learn from the experience of participating in poverty alleviation.
The prevention and control of hospital infection should be precise. Otherwise, a lot of medical resources will be wasted. To achieve accuracy, prevention and control should be considered from the microbial level to enhance its scientific nature. It is specifically reflected in the need of having knowledge of microorganisms, understanding the pathogens of infection and their transmission routes, therefore to carry out prevention and control work contrapuntally. Specific measures include infection surveillance at the microbial level, establishing the idea and habits of infection diagnosis from the microbial level, being familiar with microbial perspective to identify infection risks and vulnerabilities, implementing evidence-based prevention and control measures for different pathogens, encouraging researches on infection control and management at the microbial level, and developing precise prevention and control regulations, standards, or guidelines for specific pathogens.
How to accurately identify factors of cancer occurrence and to provide intervention early are the key issues that urgently need to be addressed in cancer prevention and treatment. Mendelian randomization (MR) analysis uses genetic variants as instrument variables for exposures of interest, which compensates the shortcomings of traditional observational studies and clinical trials. This review introduced the current application status of MR analysis in cancer etiology and treatment researches in details, including assessment of cancer risk factors, exploration of cancer treatment targets, and evaluation of drug efficiency and adverse reactions. The scopes and dimensions of cancer etiology and treatment researches are greatly expanded because of various MR designs and abundant high-level omics data. As well, it provides a practical and feasible method for constructing cancer etiology networks and drug targeted databases, which are promising for supporting the development of precision cancer prevention and treatment.
Breast cancer is one of the most common malignant tumors among women. Typically, the operation of breast cancer should include breast surgery and axillary lymph node surgery since breast cancer first metastasizes to regional axillary lymph nodes. However, postoperative breast cancer-related lymphedema (BCRL) in upper limb is the most common long-term complication. The injury to upper limb lymphatic system contributes to causing the postoperative BCRL. Therefore, precision medicine in the extent of axillary lymph node surgery plays an important role in preventing BCRL which can improve the quality of life in breast cancer patients.
This paper introduces the background and research design (including site of investigation, study population, baseline survey and follow-up monitoring), which belongs to the Precision Medicine Project of the National Key Research and Development Program of China.
This paper analyzes the health status and predicament of Mabian Yi Autonomous County before accepting assistance from West China Hospital of Sichuan University in 2016, and expounds the measures and achievements of West China Hospital of Sichuan University in building a “West China Hospital-Mabian model” of precision health poverty alleviation combining its own advantages and oriented by the needs of health poverty alleviation of Mabian Yi Autonomous County. The main contents of the model are putting an emphasis on the application and promotion of appropriate technologies, paying equal attention to technical and management help, combining “blood transfusion” and “hematopoiesis”, and taking the construction of a chimeric medical association as the carrier. The “West China Hospital-Mabian model” of precision health poverty alleviation provides a reference for continuously and systematically improving the technical level, service capacity and management level of grassroots hospitals in ethnic minority areas.
Retinitis pigmentosa (RP) is an inherited retinal disease characterized by degeneration of retinal pigment epithelial cells. Precision medicine is a new medical model that applies modern genetic technology, combining living environment, clinical data of patients, molecular imaging technology and bio-information technology to achieve accurate diagnosis and treatment, and establish personalized disease prevention and treatment model. At present, precise diagnosis of RP is mainly based on next-generation sequencing technology and preimplantation genetic diagnosis, while precise therapy is mainly reflected in gene therapy, stem cell transplantation and gene-stem cell therapy. Although the current research on precision medicine for RP has achieved remarkable results, there are still many problems in the application process that is needed close attention. For instance, the current gene therapy cannot completely treat dominant or advanced genetic diseases, the safety of gene editing technology has not been solved, the cells after stem cell transplantation cannot be effectively integrated with the host, gene sequencing has not been fully popularized, and the big data information platform is imperfect. It is believed that with the in-depth research of gene sequencing technology, regenerative medicine and the successful development of clinical trials, the precision medicine for RP will be gradually improved and is expected to be applied to improve the vision of patients with RP in the future.
In order to promote the responsible development of precision medicine in China, the current situation of precision medicine in three major fields (clinical, research and commercial) was briefly introduced, and key ethical issues or disputes in each field (including informed consent, return of incidental findings, and allocation of medical resources in the clinical field; informed consent, return of research results, and data use and sharing in the research field; genetic counseling, clinical utility of genetic testing, and use of data in the field of direct-to-consumer genetic testing) were discussed. It is necessary to actively meet these ethical challenges for the development of precision medicine in China.
Precision medicine is an individualized clinical research model established according to gene, environment, lifestyle and other information. As an innovative method of clinical trials, the main scheme design breaks the barriers of traditional randomized controlled trials to the evaluation of targeted therapies in precision medicine and improves the efficiency of clinical research. This paper will systematically introduce the types, concepts and principles of the main scheme design of the new method of precision medicine clinical trial design, and summarize the advantages and limitations of the main scheme design combined with classic cases, aiming at providing scientific and rigorous methodological guidance and clinical practice experience for precision medicine scientific research design.
Mixed reality technology is new digital holographic imaging technology that generates three-dimensional simulation images through computers and anchors the virtual images to the real world. Compared with traditional imaging diagnosis and treatment methods, mixed reality technology is more conducive to the advantages of precision medicine, helps to promote the development of medical clinical application, teaching and scientific research in the field of orthopedics, and will further promote the progress of clinical orthopedics toward standardization, digitization and precision. This article briefly introduces the mixed reality technology, reviews its application in the perioperative period, teaching and diagnosis and treatment standardization and dataization in the field of orthopedics, and discusses its technical advantages, aiming to provide a reference for the better use of mixed reality technology in orthopedics.