Regulation of non-coding RNA in type H vessels angiogenesis of bone / 中国修复重建外科杂志

OBJECTIVE@#To summarize the regulatory effect of non-coding RNA (ncRNA) on type H vessels angiogenesis of bone.@*METHODS@#Recent domestic and foreign related literature about the regulation of ncRNA in type H vessels angiogenesis was widely reviewed and summarized.@*RESULTS@#Type H vessels is a special subtype of bone vessels with the ability to couple bone formation. At present, the research on ncRNA regulating type H vessels angiogenesis in bone diseases mainly focuses on microRNA, long ncRNA, and small interfering RNA, which can affect the expressions of hypoxia inducible factor 1α, platelet derived growth factor BB, slit guidance ligand 3, and other factors through their own unique ways of action, thus regulating type H vessels angiogenesis and participating in the occurrence and development of bone diseases.@*CONCLUSION@#At present, the mechanism of ncRNA regulating bone type H vessels angiogenesis has been preliminarily explored. With the deepening of research, ncRNA is expected to be a new target for the diagnosis and treatment of vascular related bone diseases.

Advancement on the pathogenesis of hereditary multiple exostoses / 中华骨科杂志

Hereditary multiple exostoses (HME) are benign bone tumors characterized by autosomal dominant inheritance, which can cause skeletal malformation in adolescents, seriously affecting the body's aesthetic and motor functions. Currently, there are no guidelines for diagnosing and treating HME, and the main treatment is surgical treatment to remove the tumor and correct the deformity. However, osteochondroma is multiple and difficult to be completely resected. Therefore, more and more scholars are exploring the method of conservative treatment. However, the current understanding of the pathogenesis of HME is limited, and there are no safe and effective drugs in the clinic. Most hypotheses regarding the pathogenesis of HME are based on genetic mutations. Patients with HME may have EXT tumor suppressor gene mutations and function loss caused by secondary mutations such as loss of gene heterozygosity, which ultimately induce abnormal proliferation and differentiation of cartilage in growth plates. Abnormal EXT gene expression causes a decrease in the level of heparan sulphate (HS), leading to abnormalities in multiple molecular pathways that regulate the development and differentiation of growth plate chondrocytes, which together participate in the entire process of HME development and progression. This paper reviews the relevant studies on the pathogenesis of HME in recent years, in order to better understand the pathological process of HME, provide a theoretical basis for the diagnosis and treatment of HME, and also provide ideas for the development of drugs targeting HME.