A bibliometric analysis of RNA methylation in diabetes mellitus and its complications from 2002 to 2022.

Background: RNA methylation has emerged as an active research field in diabetes mellitus (DM) and its complications, while few bibliometric analyses have been performed. We aimed to visualize the hotspots and trends using bibliometric analysis to provide a comprehensive and objective overview of the current search state in this field. Methods: The articles and reviews regarding RNA methylation in DM and its complications were from the Web of Science Core Collection. A retrospective bibliometric analysis and science mapping was performed using the CiteSpace software to plot the knowledge maps and predict the hotspots and trends. Results: Three hundred seventy-five qualified records were retrieved. The annual publications gradually increased over the past 20 years. These publications mainly came from 66 countries led by Canada and 423 institutions. Leiter and Sievenpiper were the most productive authors, and Jenkins ranked first in the cited authors. Diabetes Care was the most co-cited journal. The most common keywords were "Type 2 diabetes", "cardiovascular disease", "diabetes mellitus", and "n 6 methyladenosine". The extracted keywords mainly clustered in "beta-cell function", "type 2 diabetes", "diabetic nephropathy", "aging", and "n6-methyladenosine". N6-methyladenosine (m6A) in DM and its complications were the developing areas of study. Conclusion: Studies on RNA methylation, especially m6A modification, are the current hotspots and the future trends in type 2 diabetes (T2D) and diabetic nephropathy (DN), as well as a frontier field for other complications of DM. Strengthening future cooperation and exchange between countries and institutions is strongly advisable to promote research developments in this field.

Furoxan Incorporation into C-H Bonds Enabling Nitrogen-Containing Functional Group Installation into the Same.

A C-C bond forming method was developed, whereby a furoxan ring is incorporated into various types of C-H bonds. The protocol not only offers a concise synthetic route to a variety of alkylated furoxan derivatives but also provides an efficient strategy for the insertion of various nitrogen-containing functional groups into C-H bonds via transformation of the resultant furoxan ring.

[Research and development of osteogenic differentiation of bone marrow mesenchymal stem cells].

Supercritical large area or large segmental bone defects are still a clinical problem. Researchers are committed to the development of artificial bone materials, but in order to solve the problem of poor bone formation of artificial bone materials, people are paying more and more attention to application of bone marrow mesenchymal stem cells in bone tissue engineering. In this review, bone marrow mesenchymal stem cells, osteogenic differentiation, osteoblasts cells, clinical application were used as keywords to search CNKI database, Wanfang database, Weipu database and PUBMED database by computer. The isolation and culture of bone marrow mesenchymal stem cells, bone marrow mesenchymal stem cell identification method, osteogenic induction method, osteogenic differentiation identification and clinical applicationt were comprehensively summarized in order to provide a theoretical basis for its use as a seed cell in the treatment of bone tissue diseases. Scholars have preliminarily studied the treatment of bone and cartilage defects, osteoarthritis, femoral head necrosis and other diseases with bone marrow mesenchymal stem cells combined with transplantation, and obtained good clinical efficacy.However, bone marrow mesenchymal stem cells have certain advantages and disadvantages, and further clinical studies and long-term efficacy verification are needed.