key: cord-0824676-yfin0560
authors: Ding, Xing; Yan, Ming; Wu, Jinze; Xu, Chongqing; Yan, Yinjie; Yu, Zhixing; Yin, Mengchen; Xu, Jinhai; Ma, Junming; Mo, Wen
title: Top 50 Most Cited Articles on Thoracic Ossification of Posterior Longitudinal Ligament
date: 2022-05-09
journal: Front Surg
DOI: 10.3389/fsurg.2022.868706
sha: ae28b3e7873a3814b484d70dde4fe43786226ce8
doc_id: 824676
cord_uid: yfin0560

STUDY DESIGN: Bibliometric analysis. OBJECTIVE: Over the last several decades, the field of thoracic ossification of the posterior longitudinal ligament (T-OPLL) has evolved unprecedentedly, and the literature on T-OPLL has increased significantly. The purpose of this study is to identify and review the top 50 most cited publications related to T-OPLL. METHODS: The most frequently cited 50 articles in this field until 30 October 2021 were identified by searching Web of Science. We ranked the articles based on the citation number. Through the bibliometric method, we evaluated the following information: article title, first author, year of publication, journal of publication, total number of citations, country, and study topic. RESULTS: The number of citations of included studies ranged from 20 to 108, with a mean number of 45.4. The journal Spine published most articles (20), followed by Spinal Cord (5), and European Spine (5). All of these articles were contributed by 38 first authors, Yamazaki (4), Fujimura (3), and Aizawa (3) who published more than 2 articles. In the respect of productive countries, Japan (39) contributed most papers. Tomita contributed the most cited article in 1990 on Spine, which was the first-ever report of circumferential decompression for thoracic myelopathy due to T-OPLL. CONCLUSION: The top 50 influential articles on T-OPLL were identified and analyzed in this study. It will undoubtedly provide a comprehensive and detailed basis for the orthopedic and neurosurgery physicians to make a clinical decision and assimilate the research focus of spine surgery.

INTRODUCTION T-OPLL is the heterotopic ossification of the spinal ligament with unclear pathogenesis. T-OPLL is one of the common etiologies of thoracic myelopathy. According to Matsumoto M's report, the incidence of T-OPLL was 0.8% approximately (1) (2) (3) .

Surgical decompression is the only effective therapeutic method, and the surgical treatment of T-OPLL is the research focus in this field. Currently, a variety of surgical procedures have been developed, and the postoperative complication rate is 9.6-40.8% (4) . Each surgical method has pros and cons, and the optimal surgical modalities are still a matter of contention.

The citation count is a useful surrogate measure of the scientific impact of a published work (5) . Bibliometrics is the cross-disciplinary science of quantitative analysis of all knowledge carried by mathematical and statistical methods (6) . Some bibliometric analysis on back pain and spinal disorders has been published, but, regretfully, the most cited papers regarding T-OPLL have not been analyzed in this method (7) (8) (9) .

This study aimed to intuitively show the research focus and reported surgical procedures of T-OPLL, especially by analyzing the top 50 influential articles with the bibliometric method. We hope this study will provide a comprehensive and detailed basis for orthopedic and neurosurgery physicians.

The data for this study were collected from the Web of Science (WOS) and its Core Collection on 30 October 2021. We used the following search command: posterior longitudinal ligament AND ossification AND thoracic. All English articles were published from January 1980 to October 2021 and confined to T-OPLL.

According to citation numbers, all sorted papers were ranked in descending order. Based on a title and an abstract, two independent reviewers confirmed their relevance to T-OPLL. The final results included original articles and reviews. For each paper, the following information was recorded and analyzed: title, author, country of origin, journal of publication, year of publication, and citations number.

The literature search yielded 202 articles. According to citation number, the top 50 highly cited articles were sorted in our study. The citation number ranged from 20 to 108, with an average citation number of 45.4, and the final 50 articles have received 2,270 total citations ( Table 1) . There were 18 articles that were cited more than 50 times.

The top 50 highly cited articles were published by 16 different journals, while the journal with the largest share of publications was the journal Spine (20) . Spinal Cord (5) and European Spine (5) had the second most publications. Eight journals contributed at least 2 papers, which had 42 total publications ( Table 2) .

Overall, the 50 studies were contributed by 38 first authors, of whom 8 authors published more than one paper ( Table 3) . Yamazaki was the most productive author with four publications, followed by Fujimura and Aizawa, who published three articles. The highest number of total citations was still Yamazaki from Japan with an average of 61 citations per article.

On the final list, there were only four countries ( Table 4) : Japan, the USA, China, and South Korea. The majority of identified papers were contributed by Japan (39). According to the list, Japan was the most influential country in the field of T-OPLL over the past four decades. Four papers originated from China, and USA, and Korea that contributed to three publications.

The total number of institutions responsible for the top 50 cited articles was 36, and 5 of them contributed at least 2 articles ( Table 5) . The most affiliated institutions were in Japan, which was similar to the analysis of the productivity of countries. Chiba University Graduate School of Medicine had the highest number of most cited articles (5), followed by Keio University with four papers.

Regarding the study topics, the majority of these 50 articles were related to surgical treatment (31), 21 articles focused on the study of a specific surgical procedure type, and the rest of the articles related to surgery could be categorized as analyses of the surgical treatment's prognostic factors and selection of different surgical methods. There are 11 studies that included more than one surgical treatment, and intersection clusters were formed in these procedures (Figure 1) . Besides surgical treatments, other topics mainly included clinical features and prevalence (8) , pathophysiology (5) , and biomechanical (2) . When we analyzed these articles according to the types of study design, 37 articles could be classified as clinical research (including randomized trials, cohort studies, retrospective studies, etc.), 5 were epidemiologic surveys, 3 were case reports, 3 were pathological mechanism studies, 2 were radiology studies, and 1 was a 3D model study. Among them, clinical research accounted for the largest proportion. This was because the most common study topic was surgical treatment-the only effective clinical method for T-OPLL.

The two earliest articles were published in 1982. One was written by Ono et al. and published in Radiology, which was the first epidemiologic survey of the prevalence of T-OPLL by a decade in a fixed population sample (10). The other one was written by Ohtani and published on Clinical Orthopedics and Related Research, a case report of anterior surgical decompression for T-OPLL (11) . The most recent papers were five articles published in 2016 (12) (13) (14) (15) (16) . Notably, one paper published in 2016 written by Takemoto introduced novel-designed imagebased navigational patient-specific templates for pedicle screw placement, which reduced the contact area on the bone without sacrificing the stability of the template (14) . The concept of this design shed light on the field of spine surgery.

About 70% of OPLL occurs in the cervical spine and 15% in the thoracic spine (17) . Although T-OPLL is a subject of relatively few published studies for the moderate incidence, it usually has an insidious onset, a long disease course, and a very high rate of disability. Through bibliometric analysis, this study aims to evaluate the most-cited articles in the literature, focusing on T-OPLL and reaching a conclusion with several implications for future research and practice.

Ossification of posterior longitudinal ligament occurs most frequently in East Asian populations, which may explain why three of the four productive countries on the final list are East Asian countries (18) . According to the Mori's epidemiologic survey, CT-based prevalence of T-OPLL in the Japanese population was 1.9% (19) . Because of the regional limitations of this disease, five identified articles were epidemiologic surveys conducted in Japan. The USA was the only non-East Asian country on the list with four publications. Research from the USA involved many respects of the spinal field. With an extremely low incidence in this country, T-OPLL was also studied by USA scholars. As further analysis was conducted of the identified articles, we found that the five most cited articles' study topics were all related to surgical treatment. Owing to the narrow canal, the rigidity of the thoracic spine, tenuous blood supply, and the inability of the spinal cord to withstand much compression, the myelopathy symptoms of T-OPLL are often severe, and surgical treatment is inevitable (20) . With the unique anatomy and pathophysiology characteristics of the thoracic spine, T-OPLL surgery is one of the most challenging surgeries in orthopedics. However, there is still a lack of unified standards for surgical approach selections (4, 21, 22) . Spine surgeons have been exploring ideal operative treatments for T-OPLL over the last several decades. The most cited article was a case report published by Tomita et al. with 108 citations in 1990, which was the first report of circumferential compression (CM) for T-OPLL (23) . The author found that the ratio of thoracic myelopathy due to combined OPLL and ossification of the ligamentum flavum (OLF) was low when laminectomy was used alone. OPLL combined with OLF led to circumferential compression of the spinal cord in advanced stages of the disease. CM consisted of two steps: posterior and lateral decompression of the spinal cord by removal of the OLF and anterior removal of the OPLL for anterior decompression. About 10 patients received CM, and the ratio of recovery was between 56 and 100%. Although the study was published in earlier years, this landmark study pioneered the use of the CM technique for TOPLL, and CM was intensively studied and modified in several later studies (21, 24, 25) . The advent of this radical but effective procedure was significant progress in the field.

Yamzaki et al. conducted a retrospective study in 2006, which was ranked second on the final list (26) . Notably, this study was the most cited paper on comparative analysis of the different surgical modalities. This research was compared with the clinical outcomes of posterior decompression and fusion, posterior decompression, and OPLL extirpation for thoracic myelopathy caused by OPLL. This study indicated that posterior decompression with instrumented fusion obtained a considerable degree of neurologic recovery with an extremely low rate of postoperative complications.

The third most cited article was by Aizawa et al. (26) , which was published in 2007 (27), a follow-up study that investigated the results of surgical treatments in 132 patients with thoracic myelopathy and 31 patients with T-OPLL among them. About 24 patients with laminectomy had the worst postoperative JOA score, as the spinal cord could hardly shift backward enough when laminectomy alone was used. This study also found that patients with milder myelopathy and a shorter duration of myelopathy before surgery had better neurological improvement after decompressive surgery.

Postoperative complication has been a constant challenge in surgical procedures, and we found four of the five most cited articles compared the complications according to the type of surgery. A recent systematic review of complications in surgery for T-OPLL has indicated that the indirect decompression approach (posterior decompression and posterior decompression with dekyphosis) was relatively safer than the direct decompression approach (anterior decompression, posterior circumferential decompression, and combined anterior and posterior decompression) (28) . This study retrieved 15 studies, including a total of 595 patients. The indirect decompression approach had a lower overall incidence of complications (16.1 vs. 45.4%; p < 0.001) and better neurologic function recovery postoperatively (63.4 vs. 44.4%; p = 0.073) than the direct decompression approach, which supports the result of Yamzaki et al's. retrospective study (26) in 2006-the second most cited article. In the existing literature, various surgical procedures have been reported to treat this difficult pathology. Ultimately, in devising a surgical management strategy, it will be dependent on the preference and comfort level of the surgeon. While some lesions may be tackled from anterior or circumferential approaches, it appears that most authors favor a posterior approach to the treatment of T-OPLL (29) . With the modern pedicle screw instrumentation system, a posterior-only, indirect approach may be sufficient to decompress the spinal cord from the OPLL.

When OPLL was combined with OLF, severe thoracic myelopathy occurred. In our study, we found circumferential decompression, laminectomy, and posterior decompression with fusion are the main surgical methods in the identified articles. The results of most studies showed that circumferential decompression performs well at neurologic recovery with a high rate of complications and posterior decompression with fusion obtains a considerable degree of neurologic recovery with a relatively low rate of complications. Yamazaki et al. reported a case (30) with T-OPLL combined with OLF, in which postoperative paralysis occurred after laminectomy and was reversed after an additional posterior instrumented fusion. Laminectomy is indirect and the simplest method for T-OPLL decompression, but postoperative paraparesis is the main drawback of this technique. Through the review of these studies, we found posterior decompression with fusion was a safe surgical solution to the condition of T-OPLL combined with OLF. As revealed in Tomita et al's. first report of circumferential decompression (23), it was an effective but radical surgical procedure.

As, for clinical features, multiple identified studies pointed out that thoracic myelopathy caused by T-OPLL can present acutely after minor trauma, and prognostic factors for poor outcomes include longer preoperative duration of symptoms, worse preoperative symptoms, OPLL and/or OLF, a large volume of intraoperative bleeding, and diabetes mellitus. When we made the comparison in each bleeding volume of the same type of surgical procedure in these identified studies, we could not find clear differences in the bleeding volume of recent surgeries and that of surgeries in earlier times. For example, the average bleeding volumes of circumferential decompression (CM) in Tomita et al. first report (23) and Kawahara's case report published in 2008 were 3,190 and 2,900 ml, respectively. We argue that this cannot reflect the absence of advancement in surgical techniques. According to the analysis of identified articles' study topics, we can find spine surgeons have been modifying surgical methods and refining surgery concepts to make more accurate treatment decisions, which have largely ameliorated the surgical prognosis of T-OPLL.

Except for surgery treatment and population incidence, more studies focused on the genetic level of OPLL and documented many genes or gene loci of interest involved in mediating the molecular and genetic pathobiology of OPLL, including COL6A1, COL11A2, TGFβ-1, and IL17RC (31, 32). As neurological surgeons achieved a deeper understanding of the genetic and molecular pathogenesis of OPLL, therapies targeted at preventing the initial formation and progression of T-OPLL may be pursued further.

Citation analysis was a commonly used bibliometric tool to analyze scientific literature with several possible limitations (33) . First, only publications indexed by WOS were analyzed; only part of known journals was indexed in WOS. As a result, some T-OPLL publications were missed or not included in this analysis. Second, as articles were identified according to the number of citations, some new significant publications in the field have no had enough opportunity to be cited by other authors. Their novel techniques and ideas may be ignored. Therefore, it tended to be a kind of retrospective study of historical articles. Thirdly, only published journal papers were included in this analysis. Other papers like clinical guidelines, meeting notes, and textbooks were excluded, which may have a greater impact in this field. Fourth, some authors had opinions that the citation number could not reflect the quality of research necessarily, with the drawbacks like self-citation, language bias toward English, and statements of the competitor (34, 35) . Finally, some studies with a considerably minor proportion of T-OPLL cases were also included in our analysis. We identified these papers from all of the retrieved articles and finally decided to enroll these articles into our study after thoughtful consideration, because we purpose to conduct a comprehensive and detailed bibliometric analysis of T-OPLL, and these papers are indispensable.

This study highlighted the top 50 most cited articles in the field of T-OPLL, including the article title, first author, year of publication, journal of publication, total number of citations, country, and study topic. In terms of study topics, surgical treatments accounted for the largest proportion, which has been developing over the last several decades. The majority of the study design was clinical research, followed by epidemiologic surveys. In addition, several novel and instructive studies may be missed in our study for the inherent limitation of bibliometric analysis. In summary, our study provided a comprehensive and detailed basis for orthopedic and neurosurgery physicians, and we expected the appearance of more high-quality research, which could promote the development of the field of T-OPLL.

The original contributions presented in the study are included in the article/supplementary material, further inquiries can be directed to the corresponding author/s.

XD and MYa are contributing to the design, conduct of the study, and drafting the manuscript. All authors read and approved the final manuscript. 

We would like to thank the reviewers for their thorough review of our manuscript, especially under the severe circumstance of the worldwide epidemic COVID-19, and we wish that everybody pulls through safe and sound.

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The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.