Author(s)

Xu Kunyuan ^1,2

Affiliation(s)

¹ China Academy of Chinese Medical Sciences, Beijing, China
² Department of Endocrinology, Guang'anmen Hospital, Beijing, China

Corresponding Author

Xu Kunyuan

ABSTRACT

Diabetic vascular calcification (DVC) is a significant manifestation of vascular complications in diabetes, markedly increasing the risk of cardiovascular events and affecting the long-term prognosis of diabetic patients. This study aims to provide a comprehensive and visual perspective on DVC research, laying the foundation for further investigations. Relevant literature on DVC was retrieved from the Web of Science Core Collection (WoSCC) database. Bibliometric and visualization analyses of the DVC research field were conducted using CiteSpace 6.3.R1 software, focusing on aspects such as countries/regions, institutions, authors, journals, references, and keywords. A total of 1,864 articles on DVC were identified, including 1,521 research papers and 343 reviews. These publications involved 71 countries/regions, 813 institutions, and 10,064 authors. The articles were distributed across 590 journals, with 1,107 references cited more than ten times. The most prolific author was John Jeffrey Carr, with 26 publications. The University of California system was the most productive institution, with 104 papers. The United States led with 506 papers, and Nephrology Dialysis Transplantation was the most frequently published journal, with 57 papers. The most highly cited article, published by Shuichi Jono in 2000 in Circulation Research has been cited 1,164 times. The most co-cited reference was published by Andrew L. Durham in 2018 in Cardiovascular Research with 42 co-citations. The top five keyword clusters were 'peripheral arterial disease', 'fibroblast growth factor 23', 'bone mineral density', 'diabetes mellitus' and 'chronic kidney disease'. The most frequently cited keyword was 'vascular calcification'. This study analyzed the research hotspots, frontiers, and development trends in DVC. The research on DVC is evolving towards a comprehensive, personalized, and precision medicine approach. Global participation should be encouraged to enrich scientific perspectives and drive scientific and clinical innovation.

KEYWORDS

Bibliometric Analysis, Diabetes Mellitus, Vascular Calcification, Diabetic Vascular Calcification, CiteSpace

CITE THIS PAPER

Xu Kunyuan, Research Hotspots and Trends in Diabetic Vascular Calcification: A Bibliometric and Visualization Analysis. MEDS Clinical Medicine (2024) Vol. 5: 14-35. DOI: http://dx.doi.org/10.23977/medsc.2024.050403.

REFERENCES

[1] Sun, H., Saeedi, P., Karuranga, S., Pinkepank, M., Ogurtsova, K., Duncan, B.B., Stein, C., Basit, A., Chan, J.C.N., Mbanya, J.C., Pavkov, M.E., Ramachandaran, A., Wild, S.H., James, S., Herman, W.H., Zhang, P., Bommer, C., Kuo, S., Boyko, E.J. and  Magliano, D.J. IDF Diabetes Atlas: Global, regional and country-level diabetes prevalence estimates for 2021 and projections for 2045. Diabetes Res Clin Pract, (2022) 183, 109-119. 
[2] Lee, S.J., Lee, I.K. and Jeon, J.H. Vascular Calcification-New Insights Into Its Mechanism. Int J Mol Sci, (2020) 8, 2685.
[3] Wong, N.D., Nelson, J.C., Granston, T., Bertoni, A.G., Blumenthal, R.S., Carr, J.J., Guerci, A., Jacobs, D.R Jr., Kronmal, R., Liu, K., Saad, M., Selvin, E., Tracy, R. and Detrano, R. Metabolic syndrome, diabetes, and incidence and progression of coronary calcium: the Multiethnic Study of Atherosclerosis study. JACC Cardiovasc Imaging, (2012) 4, 358-366.
[4] Yao, H., Sun, Z., Zang, G., Zhang, L., Hou, L., Shao, C. and Wang, Z. Epidemiological Research Advances in Vascular Calcification in Diabetes. J Diabetes Res, 2021, 4461311.
[5] Bojic, M., Bielesz, B., Cejka, D., Schernthaner, G.H. and Höbaus, C. Calcification Propensity in Serum and Cardiovascular Outcome in Peripheral Artery Disease. Thromb Haemost, (2022) 6, 1040-1046.
[6] Qasim, A.N., Rafeek, H., Rasania, S.P., Churchill, T.W., Yang, W., Ferrari, V.A., Jha, S., Master, S.M., Mulvey, C.K., Terembula, K., Dailing, C., Budoff, M.J., Kawut, S.M. and Reilly, M.P. Cardiovascular risk factors and mitral annular calcification in type 2 diabetes. Atherosclerosis, (2013) 2, 419-424.
[7] Dayanand, P., Sandhyavenu, H., Dayanand, S., Martinez, J. and Rangaswami, J.  Role of Bisphosphonates in Vascular calcification and Bone Metabolism: A Clinical Summary. Curr Cardiol Rev, (2018) 3, 192-199.
[8] Stabley, J. N. and Towler, D. A. Arterial Calcification in Diabetes Mellitus: Preclinical Models and Translational Implications. Arterioscler Thromb Vasc Biol, (2017) 2, 205-217.
[9] Ghosh, S., Luo, D., He, W., Chen, J., Su, X. and Huang, H. Diabetes and calcification: The potential role of anti-diabetic drugs on vascular calcification regression. Pharmacol Res, (2020) 158, 1048-1061.
[10] Li, M., Wu, P., Shao, J., Ke, Z., Li, D. and Wu, J. Losartan Inhibits Vascular Calcification by Suppressing the BMP2 and Runx2 Expression in Rats In Vivo. Cardiovasc Toxicol, (2016) 2, 172-181.
[11] Bellinge, J.W., Francis, R.J., Lee, S.C., Bondonno, N.P., Sim, M., Lewis, J.R., Watts, G.F. and Schultz, C.J. The effect of vitamin K1 on arterial calcification activity in subjects with diabetes mellitus: a post hoc analysis of a double-blind, randomized, placebo-controlled trial. Am J Clin Nutr, (2022) 1, 45-52.
[12] Rousseau, R. Forgotten founder of bibliometrics. Nature, (2014) 7504: 218-219.
[13] Chen, C. Searching for intellectual turning points: progressive knowledge domain visualization. Proc Natl Acad Sci U S A, (2004) 101 Suppl 1, 5303-5310.
[14] Brannigan, M. An Adaptive Piecewise Polynomial Curve Fitting Procedure for Data Analysis[J]. Communications in Statistics Part a-Theory and Methods, (1981) 18, 1823-1848.
[15] Sen, L, Fa-Gen, T. Feature Selection Algorithm Based on Log Likelihood Ratio. Computer Engineering, (2009) 19: 56.
[16] Chen, C.M. and Leydesdorff, L. Patterns of Connections and Movements in Dual-Map Overlays: A New Method of Publication Portfolio Analysis. Journal of the Association for Information Science and Technology, (2014) 2, 334-351.
[17] Jono, S., McKee, M.D., Murry, C.E., Shioi, A., Nishizawa, Y., Mori, K., Morii, H. and Giachelli, C.M.  Phosphate regulation of vascular smooth muscle cell calcification. Circ Res, (2000) 7, E10-7.
[18] Jankowski, J., Floege, J., Fliser, D., Böhm, M. and Marx, N. Cardiovascular Disease in Chronic Kidney Disease: Pathophysiological Insights and Therapeutic Options. Circulation, (2021) 11, 1157-1172.
[19] Durham, A.L., Speer, M.Y., Scatena, M., Giachelli, C.M. and Shanahan, C.M. Role of smooth muscle cells in vascular calcification: implications in atherosclerosis and arterial stiffness. Cardiovasc Res, (2018) 4, 590-600.
[20] KLEINBERG, J. Bursty and hierarchical structure in streams. Data Mining and Knowledge Discovery, (2003) 4, 373-397.
[21] Lanzer, P., Boehm, M., Sorribas, V., Thiriet, M., Janzen, J., Zeller, T., St Hilaire, C. and Shanahan, C. Medial vascular calcification revisited: review and perspectives. European Heart Journal, (2014) 23, 1515-U24.
[22] Durham, A.L., Speer, M.Y., Scatena, M., Giachelli, C.M. and Shanahan, C.M. Role of smooth muscle cells in vascular calcification: implications in atherosclerosis and arterial stiffness. Cardiovascular Research, (2018) 4, 590-600.
[23] Shao, J.S., Cheng, S.L., Pingsterhaus, JM, Charlton-Kachigian, N., Loewy, A.P. and Towler, D.A.  Msx2 promotes cardiovascular calcification by activating paracrine Wnt signals. Journal of Clinical Investigation, (2005) 5, 1210-1220.
[24] Sharif, S., Bots, M.L., Schalkwijk, C., Stehouwer, C.D.A., Visseren, F.L.J. and Westerink, J.; SMART study group. Association between bone metabolism regulators and arterial stiffness in type 2 diabetes patients. Nutrition Metabolism and Cardiovascular Diseases, (2018) 12, 1245-1252.
[25] Maser, R.E., Lenhard, M.J., Sneider, M.B. and Pohlig, R.T. Osteoprotegerin is a Better Serum Biomarker of Coronary Artery Calcification than Osteocalcin in Type 2 Diabetes. Endocrine Practice, (2015) 1, 14-22.
[26] Raaz, U., Schellinger, I.N., Chernogubova, E., Warnecke, C., Kayama, Y., Penov, K., Hennigs, J.K., Salomons, F., Eken, S., Emrich, F.C., Zheng, W.H., Adam, M., Jagger, A., Nakagami, F., Toh, R., Toyama, K., Deng, A., Buerke, M., Maegdefessel, L., Hasenfuß, G., Spin, J.M. and Tsao, P.S. Transcription Factor Runx2 Promotes Aortic Fibrosis and Stiffness in Type 2 Diabetes Mellitus. Circulation Research, (2015) 6, 513-524.
[27] Chen, N.X., Duan, D., O'Neill, K.D. and Moe, S.M. High glucose increases the expression of Cbfa1 and BMP-2 and enhances the calcification of vascular smooth muscle cells. Nephrology Dialysis Transplantation, (2006) 12, 3435-3442.

Sponsors, Associates, and Links

---

• Journal of Neurobiology and Genetics
  
  
• Medical Imaging and Nuclear Medicine
  
  
• Bacterial Genetics and Ecology
  
  
• Transactions on Cancer
  
  
• Journal of Biophysics and Ecology
  
  
• Journal of Animal Science and Veterinary
  
  
• Academic Journal of Biochemistry and Molecular Biology
  
  
• Transactions on Cell and Developmental Biology
  
  
• Rehabilitation Engineering & Assistive Technology
  
  
• Orthopaedics and Sports Medicine
  
  
• Hematology and Stem Cell
  
  
• Journal of Intelligent Informatics and Biomedical Engineering
  
  
• MEDS Basic Medicine
  
  
• MEDS Stomatology
  
  
• MEDS Public Health and Preventive Medicine
  
  
• MEDS Chinese Medicine
  
  
• Journal of Enzyme Engineering
  
  
• Advances in Industrial Pharmacy and Pharmaceutical Sciences
  
  
• Bacteriology and Microbiology
  
  
• Advances in Physiology and Pathophysiology
  
  
• Journal of Vision and Ophthalmology
  
  
• Frontiers of Obstetrics and Gynecology
  
  
• Digestive Disease and Diabetes
  
  
• Advances in Immunology and Vaccines
  
  
• Nanomedicine and Drug Delivery
  
  
• Cardiology and Vascular System
  
  
• Pediatrics and Child Health
  
  
• Journal of Reproductive Medicine and Contraception
  
  
• Journal of Respiratory and Lung Disease
  
  
• Journal of Bioinformatics and Biomedicine