The application of precision medicine in the field of tuberculosis is still in its infancy. The precision medicine of tuberculosis cannot be separated from the rapid and accurate diagnosis, the effective anti-tuberculosis drugs, and the comprehensive application of new cutting-edge technologies. In recent years, the precision medicine of tuberculosis has focused on drug-resistant tuberculosis, host-directed therapy and nano-targeted therapy, which has achieved certain results, providing an important mean for the treatment of tuberculosis, especially for the drug-resistant tuberculosis. In the future, the development of new drugs and the application of emerging technologies are the focus of precision medicine of tuberculosis. It is necessary to gradually carry out relevant clinical trial research and objectively evaluate its application value and prospects.
Tuberculosis (TB) is one of the major public health concerns worldwide. Since the development of precision medicine, the filed regarding TB control and prevention has been brought into the era of precision medicine. Although great progress has been achieved in the accurate diagnosis, treatment and management of TB patients, we have to face several challenges. We should seize the opportunity, and develop and improve novel measures in TB prevention on the basis of precision medicine. The accurate diagnosis criteria, treatment regimen and management of TB patients should be carried out according to the standard of precision medicine. We aim to improve the treatment of TB patients and prevent the transmission of TB in the community, thereby contributing to the achievement of the End TB Strategy by 2035.
Precision medicine is a novel medical modality based on genome sequencing, bioinformatics and big data science. The studies regarding tuberculosis always concentrated on the bacteria and host in the setting of precision medicine. This review mainly introduces the application of precision medicine in the diagnosis and treatment of tuberculosis. The limits of the Chinese studies with respect to precision medicine in tuberculosis are also discussed. Moreover, the article predicates its future development.
ObjectiveTo summarize current patient-derived organoids as preclinical cancer models, and its potential clinical application prospects. MethodsCurrent patient-derived organoids as preclinical cancer models were reviewed according to the results searched from PubMed database. In addition, how cancer-derived human tumor organoids of pancreatic cancer could facilitate the precision cancer medicine were discussed. ResultsThe cancer-derived human tumor organoids show great promise as a tool for precision medicine of pancreatic cancer, with potential applications for oncogene modeling, gene discovery and chemosensitivity studies. ConclusionThe cancer-derived human tumor organoids can be used as a tool for precision medicine of pancreatic cancer.
The "All of Us" research program is a research project supported by the National Institutes of Health. By recruiting over 1 million volunteers residing in the United States, the project builds a strong research resource to promote the exploration of biological, clinical, social, and environmental determinants of health and disease. This paper introduced the design plan of the "All of Us" research program systematically and provided information that can be used for the construction of a million natural population cohort of precision medicine in China.
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.
ObjectivesTo initially construct a scientific, reasonable and precision medicine technology value judgment framework suitable for China’s national conditions based on expert consultation method, so as to provide scientific value judgment system support for China's medical insurance decision-making.MethodsThe preliminary evaluation indicator system for precision medicine technology value was established by using literature analysis and expert consultation method, and the direct weighting method was used to determine the indicators weight.ResultsAfter two rounds of expert consultation, an indicator system suitable for the value judgment of precision medicine technology in China was constructed, including 5 primary indicators (health needs, health effects, economics, innovation and suitability) and 14 secondary indicators. Each indicator was weighted according to importance.ConclusionsA set of precision medicine value judgment indicator system suitable for China has been initially established, which lays a certain foundation for further measurement research of the indicator system and provides a scientific basis for medical insurance decision-making.
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.
Basing on development of medical model, new national diagnostic standard is interpreted according to three aspects: classification, diagnostic standard, and diagnostic contents. Tracheobronchial tuberculosis and tuberculous pleurisy are added into the classification. The value of molecular and pathological techniques for diagnosis of the pulmonary tuberculosis is emphasized. The status of drug-resistance is included in the diagnostic content. Two opinions are suggested: some practical methods such as diagnostic chemotherapy are indicated in some grassroots areas, while new molecular techniques for detection of DNA/RNA of mycobacteria and resistant mutation are encouraged in some suitable institutions.
Precision medicine is a medical paradigm founded on individual genetic information amalgamated with extensive clinical data to offer patients precise diagnoses and treatments. Genetic testing forms the cornerstone of accurate diagnosis, and skilled professionals in fields like clinical medicine, molecular biology, and bioinformatics play a crucial role in realizing the potential of precision medicine. This paper presents reference suggestions for the continuing education approach for relevant technical personnel. The main emphasis is on conducting routine face-to-face and hands-on training to enhance theoretical knowledge and professional skills. Secondly, there is a need to modify the training approach by reinforcing molecular biology, bioinformatics, and other courses, enhancing assessment methods, gradually implementing specialized training in precision medicine subspecialties, and ensuring effective clinical practice and management of precision medicine.