With the rapid development of all science and technology, new technologies are being used more and more widely in the medical field, bringing convenient diagnosis and treatment methods to medical staff and patients. The application of new technologies in the field of thyroid surgery is also rich, such as intraoperative neuromonitoring, parathyroid positive/negative imaging technique, laparoscopic and robot-assisted surgery technology, molecular and genomic diagnosis technology, artificial intelligence-assisted diagnosis technology, etc. The application of new technologies in the field of thyroid surgery is already a trend. While applying high-tech technologies, we need to have a deep understanding of the limitations of the technology itself. Some limitations must be strictly avoided, especially the early application of new technologies. We must view it dialectically and compare and combine it with traditional technical means to make clinical decisions and provide patients with the best, precise and individualized diagnosis and treatment. At the same time, as clinicians, we must have a deep understanding of the underlying logic of the advancement and development of new technologies themselves, and while deepening our professional fields, we must continuously improve our ability to apply them across disciplines in a comprehensive manner to adapt to and promote technological innovation and improvement.
The article summarized the national and international history and current situation of healthcare-associated infection control, and analyzed the tendency of new technique and progress in healthcare-associated infection control according to the experience in research and practice.
Severe hallux valgus, a triplanar foot deformity significantly impairing patients' quality of life, has witnessed progressive advancements in surgical management. This article systematically reviews the therapeutic progress through literature analysis, encompassing modifications of conventional surgical procedures, novel techniques, and applications of innovative biomaterials. A critical analysis and discussion of these technological advancements and future developmental directions are presented to provide valuable insights and references for clinical management of severe hallux valgus.