Chinese Journal of Tissue Engineering Research ›› 2021, Vol. 25 ›› Issue (3): 414-419.doi: 10.3969/j.issn.2095-4344.2910
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Fan Yinuo1, Guan Zhiying1, Li Weifeng1, Chen Lixin1, Wei Qiushi2, He Wei2, Chen Zhenqiu2
Received:
2020-02-29
Revised:
2020-03-07
Accepted:
2020-03-30
Online:
2021-01-28
Published:
2020-11-18
Contact:
Chen Zhenqiu, Professor, MD, Master’s supervisor, Chief TCM physician, First Affiliated Hospital of Guangzhou University of Chinese Medicine, Guangzhou 510405, Guangdong Province, China
About author:
Fan Yinuo, Master candidate, First School of Clinical Medicine, Guangzhou University of Chinese Medicine, Guangzhou 510405, Guangdong Province, China
Supported by:
CLC Number:
Fan Yinuo, Guan Zhiying, Li Weifeng, Chen Lixin, Wei Qiushi, He Wei, Chen Zhenqiu. Research status and development trend of bibliometrics and visualization analysis in the assessment of femoroacetabular impingement[J]. Chinese Journal of Tissue Engineering Research, 2021, 25(3): 414-419.
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2.1.2 各个国家的研究发表量 全球研究发表量排行前20的国家如图3所示,统计数据可得美国发表量居第1位,为1 655篇,占总比52.49%,其次是瑞士(370篇,11.735%)、英国(265篇,8.405%)、加拿大(253篇,8.024%)和德国(172篇,5.455%)。 2.1.3 各个国家出版文献的被引频次 被引频次代表出版文献的质量和价值。全球在FAI领域出版文献相应被引频次排行前20的国家如图4所示,统计数据结果显示美国在FAI领域的研究出版文献被引频次最高,为37 019次;其次为瑞士(14 283次),居第2位,其余为加拿大(5 867次)、英国(5 679次)、澳大利亚(2 979次)。"
2.3 全球研究的可视化分析 2.3.1 文献耦合分析 著者耦合分析:纳入研究的全部出版文献共有7 427位著者,在Vos viewer软件中定义每位著者至少有5篇文献相互关联,共保留521位著者,如图11A所示,根据Vos viewer软件在FAI领域中统计结果显示,该领域发表文献耦合强度前5位著者依次为KELLY BT(总耦合强度为704 100)、PHILIPPON MJ(总耦合强度为668 177)、DOMB BG(总耦合强度为631 275)、BEDI A(总耦合强度为583 559)、BEAULE PE(总耦合强度为574 827)。 机构耦合分析:纳入研究的全部出版文献共有1838个机构,在Vos viewer软件中定义每个机构至少有5篇文献,共保留199个机构,如图11B所示,根据Vos viewer软件在FAI领域中统计结果显示,该领域发表文献耦合强度前5位的机构依次为伯尼尔大学(总耦合强度为707 920)、特种外科医院(总耦合强度为539 280)、华盛顿大学(总耦合强度为411 630)、斯蒂芬·菲利彭研究所(总耦合强度为352 693)、密歇根大学(总耦合强度为319 652)。 国家耦合分析:纳入研究的全部出版文献共有53个国家,在Vos viewer软件中定义每个国家至少有5篇文献,共保留33个国家,如图11C所示,根据Vos viewer软件在FAI领域中统计结果显示,该领域发表文献耦合强度前5位的国家依次为美国(总耦合强度为2 615 412)、瑞士(总耦合强度为1 148 950、加拿大(总耦合强度为781 975)、英国(总耦合强度为767 774)、德国(总耦合强度为463 610)。"
2.3.2 共现分析 研究方向分析:纳入研究的全部出版文献共有4 007个关键词,通过Vos viewer软件定义每个关键词至少出现5次,共保留634个关键词,如图12A所示,根据统计出来的关键词集群可以把全球在FAI领域的研究方向分为5大类:流行病学、疾病演变、诊断、治疗方法、预后。在“流行病学”的研究中,常用的关键词有“患病率、疼痛、风险因素、运动、腹股沟疼痛”等;在“疾病演变”的研究中,常用的关键词有“骨关节炎、步态、凸轮型、发育不良、后倾”等;在“诊断”的研究中,常用的关键词有“MRI、诊断、关节造影、早期关节炎、关节软骨”等;在“治疗方法”的研究中,常用的关键词有“治疗方案、手术治疗、髋关节镜手术、清创术、关节脱位”等;在“预后”的研究中,常用的关键词有“治疗结局、关节镜检查、并发症、评分、生活质量”等。 研究发展趋势分析:通过Vos viewer软件可对文献中的关键词按照其出现时间顺序进行颜色分类,因而使其研究热点通过不同颜色表现出来。如图12B所示,从图下的标尺中可以看出,颜色为紫色的出现较早,属于既往的研究热点,其次是绿色,最晚为黄色,为现今的研究热点,颜色变化由紫色-绿色-黄色渐变。由图所示,2012年左右的研究热点是“疾病演变、诊断”,2015年左右的研究热点是“流行病学”,目前的研究方向多是“治疗方法、预后”。其中“经髋关节镜治疗”是近几年提出的研究热点。"
[1] PUN S, KUMAR D, LANE NE. Femoroacetabular impingement. Arthritis Rheumatol. 2015;67(1):17-27. [2] NASSER R, DOMB B. Hip arthroscopy for femoroacetabular impingement.EFORT Open Rev. 2018;3(4):121-129. [3] PIERANNUNZII L. Pelvic posture and kinematics in femoroacetabular impingement: a systematic review.J Orthop Traumatol. 2017;18(3):187-196. [4] CLOHISY JC, BACA G, BEAULÉ PE, et al. Descriptive epidemiology of femoroacetabular impingement: a North American cohort of patients undergoing surgery.Am J Sports Med.2013;41(6):1348-1356. [5] GANZ R, PARVIZI J, BECK M, et al. Femoroacetabular impingement: a cause for osteoarthritis of the hip.Clin Orthop Relat Res. 2003;(417):112-120. [6] ZHANG C, LI L, FORSTER BB, et al. Femoroacetabular impingement and osteoarthritis of the hip. Can Fam Physician. 2015;61(12):1055-1060. [7] LOUDON JK, REIMAN MP. Conservative management of femoroacetabular impingement (FAI) in the long distance runner.Phys Ther Sport.2014;15(2):82-90. [8] FRAITZL CR, NELITZ M, CAKIR B, et al. Transfixation in slipped capital femoral epiphysis:long-termevidence for femoro-acetabular impingement.Z Orthop Unfall. 2009;147(3):334-340. [9] KUHNS BD, WEBER AE, LEVY DM, et al. The natural history of femoroacetabular impingement.Front Surg.2015;2:58. [10] FACCIONI S, CACHOEIRA VA, KNOP GP, et al. Femoroacetabular impingement-factors associated with the presence of deep injuries of the chondrolabral junction.Rev Bras Ortop(Sao Paulo). 2019;54(4):434-439. [11] 熊元,赵振国,邹亮,等.髋关节撞击综合征诊断与治疗的研究进展[J].中国骨与关节杂志,2014,3(6):443-446. [12] SHAW C. Femoroacetabular Impingement Syndrome: A Cause of Hip Pain in Adolescents and Young Adults.Mo Med.2017;114(4):299-302. [13] VOLPON JB. Femoroacetabular impingement.Rev Bras Ortop. 2016;51(6):621-629. [14] IMAM S, KHANDUJA V. Current concepts in the diagnosis and management of femoroacetabular impingement.Int Orthop. 2011;35(10):1427-1435. [15] 张洋,钱秀娟,季卫锋.股骨髋臼撞击综合征的诊治进展[J].中医正骨,2019, 31(12):37-39,42. [16] 彭涛,陈坜桃,陈绪全,等.MRI髋关节单侧斜冠状扫描对髋关节撞击综合征的诊断价值[J].华西医学,2018,33(8):1019-1022. [17] 魏景欣,刘彪,郑进天,等.影像学指标在股髋关节撞击综合征(FAI)诊断中的应用价值研究[J].世界最新医学信息文摘, 2017,17(46):61-62. [18] DIAMOND LE, DOBSON FL, BENNELL KL, et al. Physical impairments and activity limitations in people with femoroacetabular impingement: a systematic review.Br J Sports Med.2015;49(4):230-242. [19] FAIRLEY J, WANG Y, TEICHTAHL AJ,et al.Management options for femoroacetabular impingement: a systematic review of symptom and structural outcomes.Osteoarthritis Cartilage.2016;24(10):1682-1696. [20] WALL PDH, DICKENSON EJ, ROBINSON D. Conservative treatment for femoroacetabular impingement syndrome: personalised hip therapy and the FASHIoN trial.Br J Sports Med.2016;50:1217-1223. [21] MALLETS E, TURNER A, DURBIN J, et al. Short-term outcomes of conservative treatment for femoroacetabular impingeme: a systematic review and meta-analysis.Int J Sports Phys Ther. 2019;14:514-524. [22] LYNCH TS, TERRY MA, BEDI A, et al. Hip arthroscopic surgery:patient evaluation, current indications,and ooutcomes.Am J Sports Med.2013;41(5):1174-1189. [23] GRIFFIN DR, DICKENSON EJ, WALL PDH, et al. Hip arthroscopy versus best conservative care for the treatment of femoroacetabular impingement syndrome (UK FASHIoN): a multicentre randomised controlled trial.Lancet.2018;391: 2225-2235. [24] PALMER AJR, AYYAR GUPTA V, FERNQUEST S, et al. Arthroscopic hip surgery compared with physiotherapy and activity modification for the treatment of symptomatic femoroacetabular impingement: multicentre randomised controlled trial BMJ.2019;364:l185. [25] PU QH, LYU QJ, SU HY. Bibliometric analysis of scientific publications in transplantation journals from Mainland China, Japan, South Korea and Taiwan between 2006 and 2015.BMJ Open02016;6 (8):e11623. [26] XING D, ZHAO Y, DONG S, et al. Global research trends in stem cells for osteoarthritis: a bibliometricand visualized study.Int J Rheum Dis.2018;21(7):1372-1384. [27] ZHANG WJ, DING W, JIANG H, et al. National representation in the plastic and reconstructive surgery literature:a bibliometric analysis of highly cited journals.Ann Plast Surg.2013;70 (2):231-234. [28] KUSTRITZ MVR, NAULT AJ. Measuring Productivity and Impact of Veterinary Education-Related Research at the Institutional and Individual Levels Using the -Index.J Vet Med Educ 2019:e0618072r1. [29] KALCIOGLU MT, ILERI Y, OZDAMAR OI,et al.Evaluation of the academic productivity of the top 100 worldwide physicians in the field of otorhinolaryngology and head and neck surgery using the Google Scholar h-index as the bibliometrics ranking system.J Laryngol Otol.2018;132:1097-1101. [30] MCCARTHY J, MCMILLAN S. Arthroscopy of the Hip: factors affecting outcome.Orthop Clin North Am.2013;44(4):489-498. [31] ROSS JR, CLOHISY JC, BACA G, et al. Patient and disease characteristics associated with hip arthroscopy failure in acetabular dysplasia.J Arthroplasty.2014;29 (9 Suppl): 160-163. [32] DAVIES O, GRAMMATOPOULOS G, POLLARD TCB, et al. Factors increasing risk of failure following hip arthroscopy: a case control study.J Hip Preserv Surg.2018; 5(3):240-246. |
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