|
|
Visual analysis of the relationship between rheumatoid arthritis and intestinal flora based on CiteSpace |
ZHANG Xinwen1 ZHANG Zixuan1 AN Yi1 ZHAO Xin2 CAO Wei3 |
1.School of Clinical Medicine, Beijing University of Chinese Medicine, Beijing 100029, China;
2.Guang’anmen Hospital, Chinese Academy of Traditional Chinese Medicine, Beijing 100053, China;
3.Wangjing Hospital, Chinese Academy of Traditional Chinese Medicine, Beijing 100102, China
|
|
|
Abstract Objective To visual analysis the literature related to rheumatoid arthritis and intestinal flora based on CiteSpace. Methods The Web of Science core collection database was searched, and the literature related to enteric flora in the field of rheumatoid arthritis included since the establishment of the database to August 2022 was selected, and the CiteSpace 6.1.R2 software was used to visual analysis the annual number of articles, authors, countries, institutions, and keywords of the literature. Results A total of 822 papers were included in this study, and the number of publications, and citation frequency showed an increasing trend. Research scholars were represented by LIU Y, LI X, and SCHER J. Among the research institutions, New York University published the most papers, and the top three countries in terms of publications were the United States, China, and Italy. Research hotspots were mainly focused on intestinal mucosal immunity, inflammatory bowel disease, the molecular mechanism of action, and probiotic agents. Conclusion The number of publications in the field of rheumatoid arthritis and intestinal flora is increasing year by year, with many research hotspots and a wide coverage area, but the research directions are relatively independent among institutions, and there is less cooperation; 16sRNA sequencing, probiotic therapy, and exploration of regulatory T cell mechanisms are the future research trends in this field.
|
|
|
|
|
[1] 倪伟.内科学[M].10版.北京:中国中医药出版社,2016:355.
[2] 田新平,李梦涛,曾小峰.我国类风湿关节炎诊治现状与挑战:来自中国类风湿关节炎2019年年度报告[J].中华内科杂志,2021,60(7):593-598.
[3] Qin J,Li R,Raes J,et al. A human gut microbial gene catalogue established by metagenomic sequencing [J]. Nature,2010,464(7285):59-65.
[4] Block KE,Zheng Z,Dent AL,et al. Gut Microbiota Regulates K/BxN Autoimmune Arthritis through Follicular Helper T but Not Th17 Cells [J]. J Immunol,2016,196(4):1550- 1557.
[5] Farkas AM,Panea C,Goto Y,et al. Induction of Th17 cells by segmented filamentous bacteria in the murine intestine [J]. J Immunol Methods,2015,421:104-111.
[6] Lozupone CA,Stombaugh JI,Gordon JI,et al. Diversity,stability and resilience of the human gut microbiota [J]. Nature,2012,489(7415):220-230.
[7] Zhang X,Zhang D,Jia H,et al. The oral and gut microbiomes are perturbed in rheumatoid arthritis and partly normalized after treatment [J]. Nat Med,2015,21(8):895- 905.
[8] Lee N,Kim WU. Microbiota in T-cell homeostasis and inflammatory diseases [J]. Exp Mol Med,2017,49(5):e340- e340.
[9] Severijnen AJ,Kool J,Swaak AJ,et al. Intestinal flora of patients with rheumatoid arthritis:induction of chronic arthritis in rats by cell wall fragments from isolated Eubacterium aerofaciens strains [J]. Br J Rheumatol,1990,29(6):433- 439.
[10] Eerola E,M?觟tt?觟nen T,Hannonen P,et al. Intestinal flora in early rheumatoid arthritis [J]. Br J Rheumatol,1994,33(11):1030-1038.
[11] Scher JU,Sczesnak A,Longman RS,et al. Expansion of intestinal Prevotella copri correlates with enhanced susceptibility to arthritis [J]. Elife,2013,2:e01202.
[12] Honda K,Littman DR. The microbiota in adaptive immune homeostasis and disease [J]. Nature,2016,535(7610):75- 84.
[13] Maynard CL,Elson CO,Hatton RD,et al. Reciprocal interactions of the intestinal microbiota and immune system [J]. Nature,2012,489(7415):231-241.
[14] Spor A,Koren O,Ley R. Unravelling the effects of the environment and host genotype on the gut microbiome [J]. Nat Rev Microbiol,2011,9(4):279-290.
[15] Zheng D,Liwinski T,Elinav E. Interaction between microbiota and immunity in health and disease [J]. Cell Res,2020,30(6):492-506.
[16] Luckey D,Gomez A,Murray J,et al. Bugs & us:the role of the gut in autoimmunity [J]. Indian J Med Res,2013,138(5):732.
[17] Gomez A,Luckey D,Yeoman CJ,et al. Loss of sex and age driven differences in the gut microbiome characterize arthritis-susceptible 0401 mice but not arthritis-resistant 0402 mice [J]. PLoS One,2012,7(4):e36095.
[18] Kragsnaes MS,Kjeldsen J,Horn HC,et al. Safety and efficacy of faecal microbiota transplantation for active peripheral psoriatic arthritis:an exploratory randomised placebo- controlled trial [J]. Ann Rheum Dis,2021,80(9):1158- 1167.
[19] Gioia C,Lucchino B,Tarsitano MG,et al. Dietary habits and nutrition in rheumatoid arthritis:can diet influence disease development and clinical manifestations? [J]. Nutrients,2020,12(5):1456.
[20] 李杰,陈超美.CiteSpace:科技文本挖掘及可视化[M].2版.北京:首都经济贸易大学出版社,2017:200-201.
[21] Scher JU,Sczesnak A,Longman RS,et al. Expansion of intestinal Prevotella copri correlates with enhanced susceptibility to arthritis [J]. Elife,2013,2:e01202.
[22] Wu HJ,Ivanov II,Darce J,et al. Gut-residing segmented filamentous bacteria drive autoimmune arthritis via T helper 17 cells [J]. Immunity,2010,32(6):815-827.
[23] Maeda Y,Kurakawa T,Umemoto E,et al. Dysbiosis Contributes to Arthritis Development via Activation of Autoreactive T Cells in the Intestine [J]. Arthritis Rheumatol,2016,68(11):2646-2661.
[24] Lee N,Kim WU. Microbiota in T-cell homeostasis and inflammatory diseases [J]. Exp Mol Med,2017,49(5):e340.
[25] Abhari K,Shekarforoush SS,Hosseinzadeh S,et al. The effects of orally administered Bacillus coagulans and inulin on prevention and progression of rheumatoid arthritis in rats [J]. Food Nutr Res,2016,60(1):30876. |
|
|
|