Global research hotspots and trends in non-surgical treatment of adolescent idiopathic scoliosis over the past three decades: a bibliometric and visualization study

Background In recent years, research on the non-surgical treatment of AIS has been increasingly conducted. To the best of our knowledge, this field doesn't yet have a comprehensive and structured pulse combing analysis. In order to provide inspiration and resources for subsequent researchers, we thus reviewed the literature studies on the non-surgical treatment of AIS from the previous thirty years and highlighted the hotspots and frontiers of research in this field. Methods Main using Citespace 6.1 software, the data from the core dataset of the WOS database pertaining to the non-surgical management of AIS from 1990 to 2022 was gathered, displayed, and analyzed. Results 839 papers in all were included in the literature. With 215 papers, the USA came in first place. Chinese Univ Hong Kong ranked first with 32 papers. Research hotspots are adolescent idiopathic spondylitis, Schroth-based physiotherapy-specific exercise efficacy, curve development, Cobb angle, TLSO brace-based clinical efficacy, quality of life, reliability, health-related quality of life questionnaires, finite element biomechanical models, follow-up, and clinical guidelines. Conclusion There aren't many studies that compare the clinical effectiveness of various non-surgical treatments, and because of variations in inclusion eligibility standards and outcome measures, these studies cannot be directly compared. In addition, the inconsistency of existing growth potential and progression risk assessment systems further affects comparative studies of clinical efficacy; it is recommended to establish primary assessment indicators centered on patient treatment outcomes (including appearance, disability, pain, and quality of life), as well as standardized scoliosis progression risk assessment criteria.


Introduction
Adolescent idiopathic scoliosis (AIS) is a three-dimensional spinal deformity that develops in teenagers for unexplained causes, including serial abnormalities in the coronal, sagittal, and axial positions (1).The main diagnostic criterion is a Cobb angle of ≥10°in the coronal plane.It occurs in adolescents aged 10-17 years, with an overall prevalence of 1%-3% (2).When the Cobb angle was between 10°and 20°, the proportion of impacted girls to boys was roughly the same (1.3:1),increasing to 5.4:1 between 20°and 30°for the Cobb angle and to 7:1 for angular values above 30° (3,4).Since adolescents are at the pinnacle of human development and growth, they are also the period when scoliosis progresses most rapidly.In addition to the effects on the spinal structure, there is also damage to the development and function of the adjacent organs of the spine, particularly the thorax and lungs.Treatment options are currently based on the treatment guidelines of the International Scientific Society on Scoliosis Orthopaedic and Rehabilitation Treatment (SOSORT) (5).Bracing is the preferred treatment option for children with Cobb's angle of 26°-45°AIS, and surgery is recommended for patients with Cobb's angles greater than 40°-45°.However, some children with AIS and their parents refuse surgery altogether and insist on wearing a brace.Recently published meta-analyses have shown that bracing can also stop the natural history of scoliosis curves from 40°to 60° (6).In recent years, a growing number of high-quality randomized controlled trials have demonstrated the positive short-term effects of Physiotherapeutic Scoliosis-specific Exercises (PSSE) in the treatment of AIS (7,8), whereas the effectiveness of the longterm effects is unclear, and usually, PSSE is used as a support for the treatment of AIS.Adjunct to therapy.Currently, there is only one study that lists the top 100 citations for AIS in tabular form (9). In recent decades, despite the significant progress in treatment modalities and outcomes, there have been many debates, and the emergence of new theories and technologies has brought new opportunities and challenges to treatment.The use of coronal-deformity angular ratio (C-DAR), for example, eliminates the need for supine or supine lateral bending radiographs for determining the flexibility of scoliosis curves and is instrumental in planning appropriate treatment (10); FED therapy is statistically more effective than FITS therapy in improving outcomes for girls aged 11-15 years with AIS (11); automatic pressure-adjustable orthotics can improve wear quality and thus provide better biomechanical correction during the study period (12).Examining the hotspots and trends in research on non-surgical AIS treatment is crucial.As a result, this work is the first to map the scientific knowledge of research on this topic using visual research techniques by examining its hotspots, frontiers, and evolutionary trajectories, aiming to give an in-depth overview of the research status and developments in this subject, serving as a reference for researchers.

Search strategy and data retrieval
The Web of Science database's core data set search revealed that the initial research on this topic was first published in 1980, but the number of articles from 1980 to 1990 was very small.Only ten articles were retrieved, and the research literature gradually increased from 1990, so the search time started in 1990.The search time was In the advanced search section, the search formula "TS = (Idiopathic scoliosis) AND (Youth OR Teenager OR Teen OR Adolescent) AND (Therapy OR Ttreatment) NOT (Surgery OR Spinal fusio OR Spondylodesis OR Tether OR Anterior tethering OR Anterior spinal growth tethering)" retrieved a total of 862.Inclusion criteria were: (1) the topic of the study was the non-surgical treatment of AIS; (2) the publication time of the literature was from 1990 to 01-01 to 2022- 12-31; (3) the type of the literature was Article and Review, and (4) the language of the literature was English.The exclusion criteria were: (1) the topic of the study was about surgery; (2) the type of the literature was conference abstracts, news, proofreading notices, conference papers, and retraction notices; and (3) the language of the literature was not English.Twentythree articles were excluded based on inclusion-exclusion criteria.The study encompassed 839 articles, and Figure 1 displays the process flowchart in question.

Literature selection
The literature was read separately by two evaluators.The article's title and abstract served as the basis for the first screening, which was followed by a second screening based on the criterion for inclusion and exclusion.If there is any dispute, a third assessor reads it and decides on the final go.

Statistical analysis methods
For the bibliometric analysis in this study, five scientometric programs-CiteSpace (6.1R6, 2023), VOSviewer (1.6.18,2022), R-Studio based R-bibliometrix (4.6.1, 2023), Pajek (5.16, 2022), and Scimago Graphica (1.0.26, 2022)-as well as Microsoft Excel were employed.The software programs CiteSpace, created by Professor Chen C, and VOSviewer, created by Professors Van Eck and Waltman.With the use of the progressive knowledge domain visualization technique, patterns and trends in the body of scientific publication may be identified and visualized by visualizing the most referenced and important literature, areas of knowledge domain competence, and the creation of research themes (13).According to the pertinent information in the article, the data pertaining to the literature is determined using the CiteSpace visualization program (14).The counting method of VOSviewer is full count.In order to perform the function of assessing the present situation and forecasting the future, the CiteSpace emergent word detection function is utilized to investigate the keyword surge change rate and produce the table of keywords with a high rate of mutation (15).Tools like Citespace and VOSviewer are primarily employed to visualize and study the knowledge structure and development patterns of scientific research on a particular topic (16).Additionally, subclusters may be formed from the basic structure of the literature network by employing cluster analysis to find research subdomains or academic hotspots (17).By using overlap analysis with the software programs R-bibliometrix, VOSviewer, and CiteSpace, it is possible to identify research frontiers that might lead to important discoveries in the next years.
Citespace visual analysis software parameters and data analysis were selected as follows to complete the collection of data through the inclusion and exclusion criteria of the literature records, and then use Web of Science to export the collected data in "plain text" format, including "complete records and references," every 500 records to generate a file, the file is renamed in the form of "download," and then loaded into the input folder of the Citespace program, and finally started the visualization and analysis.In the parameter settings of CiteSpace visualization software, firstly, convert the input file to the output file through the Data tab, and then select the corresponding project and data file in the project execution operation area.In the time selection area, the time span is set to 1990-2022, the time scale is set to 1 year, the filtering criterion is set to "Top N," and the threshold is set to 50.In the Pruning option area, "Pathfinder" and "Pruning sliced networks" were selected as the clipping method to simplify the network structure and highlight important features.For node types, select country, journal, author, institution, cited author, keyword, and cited literature for co-occurrence or cluster analysis, click the "GO" option after selecting nodes, then draw a visual map, and finally fine-tuning the color scheme and font size according to the content of the map, etc.The counting method of VOSviewer is full count.

Bibliometrics of publication output
Ultimately, 839 pertinent articles were located, and Figure 2A displays the yearly publishing output in various nations.From 1990 to 2022, the number of research articles on non-surgical management of AIS typically increased with time, with explosive growth in 2007 and 2008, when the number of publications was nearly twice that of 2006, and a trough in 2016, when the number of publications was only 60%.Overall, the US has the highest annual publication volume and is the country with the earliest start and longest duration of research in this field; China has the second highest annual publication volume, with a late start but rapid development in this field.Especially in recent years, it has increased significantly year by year and is already the country with the highest percentage of annual publications.With the help of a polynomial fit analysis, the year of publishing and the total number of articles were shown to be significantly correlated [the coefficients of determination (R2) for all papers, articles, reviews, and randomized controlled trials were 0.9283, 0.9152, 0.8032, and 0.7281, respectively].We predict that in 2025, there will be around 98 papers published, comprising about 81 articles, 17 reviews, and 5 RCTs, as illustrated in Figure 2B, based on the polynomial fit analysis.In general, the growth of the orthopedics and rehabilitation medicine fields has prompted more study.Despite the annual increase in publications, it is evident that there are still not enough highly qualified RCT trials.

Countries or regions and cooperation networks
The generated visualization includes a total of 53 nations or regions, of which 13 had ≥20 articles.Information about the top 10 nations in regard to the number of papers is indicated in Table 1.It is known from the figure that all three of these nations have developed strong scientific partnerships with other nations, see Figure 2C.

Research institutions and cooperation networks
1,165 institutes in all have published studies in this field, among which 11 institutions published ≥15 articles.Information on the top ten organizations in regard to the quantity of articles

Analysis of research trends in emergent word emergence
The emerging words are words that are often used throughout time, showing hotspots and patterns, as seen in Figure 5D.The strongest mutation is "adolescent idiopathic scoliosis" (25.98), followed by "quality of life" (18.58), and in third place is "Cobb angle" (9.2).The keywords with the highest level of mutation during the previous three years include "health-related quality of life" (2019-2022), "succe" (2019-2022), and "exercise" (2020-2022).With the help of Burst emergence analysis and the dynamic temporal evolution of keywords, we may gain a comprehensive understanding of current and upcoming research trends in the field, where the emergent words are validity, Cobb angle, curve progression, deformity, conservative treatment, health, health-related quality of life, succe, and exercise have persisted to date and are likely to remain research hotspots.

Analysis of research hotspots in key literature
In this field, 839 documents were found, having a total citation frequency of 5,837, and the top 10 rankings of highly cited and highly centralized literature are shown in Figure 6A and Tables 5, 6.In order to identify the research hotspots and evolutionary trajectories in the field of non-surgical treatment of AIS, it is necessary to analyze the literature with the highest citation frequency and co-cite important nodes.They can be divided into three groups depending on the type of study: clinical pilot studies, clinical observational studies, and reviews.Citation frequency 2nd, 3rd, and 9th are clinical experimental studies, centrality 1st, 2nd, 4th, 5th, 6th, 9th, 10th and citation frequency 5th and 8th are clinical observational studies, and    Of note is a large multicenter randomized controlled trial (BrAIST) in cited frequency study 2th, which demonstrated that brace treatment was successful in stopping Cobb's angle from increasing to the surgical threshold (usually defined as ≥50°).This study has high confidence that bracing is the only strategy proven to be effective for the non-surgical treatment of AIS.In addition, in the cited frequency 5th study, the investigators compared for the first time different curve patterns between the main thoracic and main lumbar spine for the Boston thoracolumbosacral brace (TLSO) brace for AIS to investigate the efficacy of different curve patterns for the brace for AIS.Prior to the publication of this study, curve amplitude and skeletal maturity were considered to be key factors in determining the efficacy of the brace in treating AIS.However, as the study continued, it was found that even with strict adherence to the bracing protocol, between 10% and 24% of the curves still developed (39), and in patients with untreated scoliosis, the shape of the curve was linked to the risk of progression (40,41).Therefore, this study confirms that TLSO treatment of AIS in the lumbar curve interrupts or slows the progression of scoliosis better than in the thoracic curve.Furthermore, the positive effect of Schroth physiotherapy scoliosis-specific exercise (PSSE) on slowing or interrupting the progression of AIS has been supported by randomized controlled trials (cited frequency 3rd, Among the questionnaire studies of HRQOL, five papers selected the Scoliosis Research Society 22-item questionnaire SRS-22 (centrality 2nd, 4th, and 5th studies), the Bad Sobernheim Stress Questionnaire (BSSQbrace) (centrality 6th study), and the Spinal Appearance Questionnaire.The SRS-22 patient questionnaire has been shown to be an effective tool for the clinical assessment of patients with AIS, especially for patients who may undergo surgical interventions (43), and the widespread use of the SRS-22 in non-English-speaking countries requires its cross-cultural adaptation.The 2nd study of centrality translated and culturally adapted the SRS-22 questionnaire into Spanish, and testing demonstrated adequate internal consistency and excellent reproducibility of the Spanish version of the SRS-22 patient questionnaire.The SRS-22 questionnaire has been widely used to assess patients with scoliosis, but no studies have assessed how demographic differences in normal, unaffected adolescents affect SRS-22 scores to determine a comparative baseline for AIS.The Centrality 5th study derived baseline values for each item of the SRS-22 by assessing 450 normal adolescents.The Centrality 4th study concluded by Rasch analysis that the SRS-22 did not meet the basic measurement requirements and that the SRS-22 was affected by a severe ceiling effect when used for the first assessment of the AIS.Therefore, the SRS-7 questionnaire was modified and optimized on the basis of the SRS-22, with the advantage that it is an interval scale.BSSQbrace is a new tool to assess the stress experienced by scoliosis patients while wearing a brace, and the reliability of the BSSQbrace questionnaire was tested and validated in the centrality 6th.The Centrality 10th study described the factor analysis and scoring of the SAQ and assessed its psychometric properties.

Analysis of research hotspots for cooccurrence clustering of key literature
On the basis of co-cited literature, cluster analysis can identify subfields that stand in for important areas of research (44).The average cluster Silhouette (S value) = 0.8733 > 0.5, suggesting a compelling cluster, while the clustering Modularity (Q value) = 0.94 > 0.5, showing a strong cluster structure (20).A total of 16 groups were constructed using the typical LLR algorithm, and the keyword clustering analysis indicated that the more aggregation there was, the more homogeneous the relationships between studies were (19).The cluster number and the cluster size are inversely connected, with cluster number 0 representing the largest cluster and so on, Figure 6B.observer variation, scoliosis research society criteria, data logging, clinical study, symmetry, chronic pain, school screening program, finite element model, radiological, examination, dysfunction, bracing, osteoclasts, wear schedule, g(i) protein, sex, Cobb angle.The field's research hotspots in terms of clustering order were exercise therapy, meta-analysis, PSSE and biomechanical models, psychometrics, major curves, interobserver differences, and Scoliosis Research Association standards; the field's research trends in terms of lighter colored clusters were quality of life, exercise therapy, meta-analysis, PSSE, biomechanical models, Cobb's angle, clinical studies, psychometrics, wear time, gender, etc.

Analysis of research trends emerging from key literature
Burst citations are important works of literature that have been repeatedly mentioned over time, highlighting hotspots and trends, Figure 6C.The Web of Science database evaluated the 25 burst citations with the most co-cited literature, the one with the highest burst intensity was the new SOSORT 2016 guideline published by Negrini S in 2018, which focuses on idiopathic scoliosis background, descriptions of conservative treatments for different populations and flow charts for clinical practice, as well as a literature review and recommendations on assessment, bracing, PSSE and other conservative treatments (29.16); followed by Weinstein SL's 2013 randomized controlled trial and intention-to-treat trial study finding that Boston-type TLSO significantly reduced the high-risk curve progression in patients with AIS to surgical threshold, with hours of brace wear being significantly and positively associated with treatment success (26.12); in third place, Kuru T's randomized controlled trial study in 2016 found that the 3D Schroth exercise program was superior to the home exercise group and control group in the outpatient treatment group with physiotherapist supervision, particularly in terms of scoliosis angle, rotation angle, lumbar asymmetry (lumbar-elbow distance) and maximum hump height.In addition, a progression of scoliosis was observed in the control group that did not receive any treatment (10.64).According to the order in which the literature emerged, it can be broadly split into four categories: the first part focuses on studies exploring the clinical efficacy of Milwaukee braces for the treatment of AIS (1994)(1995)(1996)(1997)(1998)(1999)(2000)(2001)(2002) (45-47); the second part focuses on popular theoretical studies on the pathogenesis of AIS (48) and a comparison using finite element models of the biomechanical three-dimensional effectiveness of various brace designs for the treatment of AIS (2003-2012) (49,50); the third part of the guidelines in this field mainly describes the background, epidemiology, clinical practice process, assessment, bracing, literature review of conservative therapies such as PSSE, and recommendations (5,35,51) and investigate the effect of patient compliance on the clinical efficacy and HRQOL of AIS

Research hotspots and trend analysis of thematic maps
The thematic maps generated based on the R-Bibliometrix package are displayed as a two-dimensional matrix.Thus, the first quadrant refers to motor topics, which are both crucial and quite well established; the second refers to niche topics, which are developed but not crucial for the domain at hand; the third refers to marginal topics, which have not been adequately established and may have just emerged and may be about to fade away; and the fourth refers to basic topics, which are crucial for the domain yet not well established, Figure 6D.Depending on which quadrant the critical bubbles are in, it can be hypothesized that fusion, orthopedic treatment, reliability, quality of life, questionnaires, effectiveness, and CAD/CAM are the hot spots for research in this area, while the themes of bone mineral density, women, osteoporosis, expression, differentiation, and signaling dysfunction may develop or vanish in the future, while in children, progression of curves, braces, girls, natural history, Boston brace, and Milwaukee brace thematic directions will require more in-depth study in the future.

Bibliometric characteristics of non-surgical treatment of AIS
Bibliometrics is a scientific method first used by Alan Pritchard in 1969 (54).It helps to track data relevance and predict future boundaries.Bibliometric analysis and its visualization can effectively support the integration of information and enable researchers to understand the scope of relevant studies.In this study, a thorough bibliometric analysis of international publications on non-surgical AIS research from 1990 to 2022 was carried out.A total of 839 papers with 5,837 citations were published worldwide in the last 30 years, maintaining an overall trend of gradual increase.These results demonstrate the continued interest of researchers in the field.The two leading nations in terms of the quantity and centrality of publications on the topic are America and China, indicating that they have the greatest impact on the field.The institution with the highest number of publications is Chinese Univ Hong Kong (32), followed by Hong Kong Polytechn Univ (31).The most published scholar was Labelle, Hubert, University of Montreal, Canada (27 articles), followed by Qiu, Yong, Gulou Hospital, Nanjing University, China (24 articles).According to yearly publishing volume and trends, the US and China will keep holding the top two spots.The journal with the highest number of publications, H-index, and citations is SPINE (122 articles, 45 points, 793 citations).Data on key authors can help investigators find potential collaborators.The team represented by Labelle H, Clin J, and Phan, P, scholars from the University of Montreal, Canada, whose research areas are finite element biomechanical analysis studies of TLSO brace for AIS and studies related to the evaluation of computer-aided tools to improve brace design; the team centered on Qiu Y, Xu, L, and Cheng JC from Gulou Hospital, Nanjing University, China, whose research areas are susceptibility polymorphisms on the severity of the curve and the effectiveness of bracing in AIS patients, and the comparative study of gender differences in curve patterns, radiological characteristics, and susceptibility genes in patients with AIS; the team centered on Negrini S, Donzelli, S and Zaina, F from the Italian Scientific Spine Institute, whose areas of research were the study of the effectiveness study of the Scientific Exercise Approach to Scoliosis (SEAS) in patients with AIS at high risk of progression and the Rasch consistency study of HRQOL-related questionnaires.The team centered on Lou E, Hill DL, and Raso, James V, University of Alberta, Canada, whose members are working on the impact of patient compliance and quality of brace treatment on AIS outcomes based on a TLSO brace equipped with a wireless data collection system.

Diversity of options and controversial efficacy of non-surgical treatment of AIS
Currently, there are two main methods of non-surgical treatment for AIS, namely, bracing and physiotherapy scoliosisspecific exercises.SOSORT recommends a non-surgical treatment schedule that selects both modalities based on Cobb angle and skeletal maturity, as shown in Table 7.A total of 14 common braces were summarized according to the characteristics of various braces for AIS, including origin, fabrication method, wearing time, curve type, mechanism of action, opening direction, symmetry, stiffness, and optimal angle, Lyon, ART (55), Boston, Rigo-Chêneau, Gensingen Brace, Milwaukee, Charleston, Providence, Wilmington, SpineCor (56), OMC (Osaka Medical College) (57), Sforzesco (58) 66), FED-Method (67), as shown in Table 9.However, based on characteristics such as the volume of publications in this field of research, some trends can already be seen: In an effort to replace the most invasive braces, innovative alternative concepts have been created, with TLSO replacing Milwaukee a few years ago (68).Recently, casting has also been replaced by Sforzesco and ART braces (55).Not all of these new concepts have proven their efficacy.Efforts to gradually improve and develop some of the more established concepts continue, such as the Cheneau, Boston, or Lyon braces.However, there are also recently developed concepts, such as the OMC (57), Sforzesco (58), PASB (59), Pressure-adjustable (12), ART (55), and SpineCor (56) braces.
Bracing treatment affects sagittal spine pelvic parameters in adolescent AIS patients, particularly in thoracic kyphosis and lumbar lordosis (69,70).A recent comparative study noted approximately equal rates of surgery and success between SpineCor and TLSO, with the main difference being the presence of significant advantages in health-related quality of life for the SpineCor brace, primarily in pain, self-image and functional activity subgroups of the SRS-22 questionnaire (56).A prospective randomized controlled trial with standardized followup according to the SRS noted a significantly higher rate of curve progression with the SpineCor brace compared to the rigid brace.Switching to a rigid brace controlled further curve progression in most patients who had previously failed with a SpineCor brace (71).The effectiveness of the SpineCor brace has not been confirmed in the literature.A systematic review found a final acceptance rate of 18% with TLSO braces, 31% with Charleston braces, and 23% with Milwaukee braces (72).Another systematic review found final acceptance rates of 12%-17% for Boston braces, 27%-41% for various braces (Boston-Charleston-TLSO), 17%-25% for nocturnal braces (Providence or Charleston braces); and 25%-33% for TLSO or Rosenberger braces; Wilmington brace 19%-30% (73).Nocturnal bracing is most effective for single lumbar/thoracolumbar curves of less than 35 degrees (74).Regardless of starting curve size and skeletal maturity, the Boston brace was found to be more effective than the Milwaukee brace by Montgomery's research (75).However, the Climent JM study concluded that Milwaukee brace-treated patients outperformed Boston braces, TLSO braces, and Charleston braces in overall Quality of Life Profile for Spine Deformities (QLPSD) scores, back flexibility, and psychosocial functioning (76).The Babaee T study found comparable differences between Milwaukee braces and thoracolumbosacral orthoses in negatively affecting the quality of life in adolescents (77).A curvilinear regression occurs with the wearing of a thoracolumbosacral orthosis and correlates with patient-reported good outcome scores (78).The traditional Lyon brace and the recently developed Sforzesco brace were contrasted in the Negrini study (58).The Sforzesco brace had better radiographic, sagittal, aesthetic, and patient recovery results than the Lyon brace.In a prospective case study, De Mauroy discovered that the ART brace produced better imaging findings than the Lyon brace, and this pattern continued after 6 months and 1 year (79).Although the ART brace demonstrated greater in-branch correction of the lumbar curve, Zaina's comparison of the short-term imaging outcomes of two superrigid braces (the Sforzesco brace and ART brace) revealed equal results (55).A two-center randomized controlled trial noted that the Pressure-adjustable brace provided better biomechanical correction over the study period by improving the quality of wear compared to the conventional brace (12).The Aulisa AG study showed that PASB-based treatment was associated with a better quality of life compared to Lyon braces (59).PASB is very effective in correcting thoracolumbar curves due to its specific biomechanical effect on vertebral body modeling (80).
However, none of these studies are directly comparable crosssectionally due to differences in inclusion-exclusion criteria and primary endpoints used to define outcomes.It is currently unable to definitively say which brace is superior to the other, and the Scoliosis Research Society (SRS) and SOSORT are actively working to standardize AIS brace studies to address the existing controversy over the efficacy of different types of braces.Therefore, it is recommended that "patient-centered outcomes (including appearance, disability, pain, and quality of life)" be used as the primary indicator for assessing effectiveness and that uniform criteria be established for studies related to the nonsurgical treatment of patients with AIS.Aiming to ensure comparability of clinical efficacy studies of different non-surgical treatments for AIS, to resolve the controversial issue of clinical efficacy of the support, and to create good conditions for later analysis of secondary reviews based on the literature base.
No traditional classification system, individualized treatment plan according to the patient's condition.
The DoboMed method focuses on deepening the thoracic kyphosis, performed in a closed kinetic chain and developed on the symmetrically positioned pelvic and scapular girdle, followed by active stabilization of the corrected position and endured as a postural habit.

Dobomed
Specific Rotational angular breathing in a "phased-lock" respiration technique

3D Cheneau brace
Side-Shift (United Kingdom) (65) Type I is any curve pattern that can be corrected by moving the trunk beyond the coronal midline to the opposite side of the scoliosis curve (a very flexible curve).2. Type II is any curve pattern that can be corrected to the coronal midline.3. III is any curve pattern that cannot be corrected to the midline.
The technique of the lateral shift approach is based on intensive trunk flexion training.This is an active form of auto-correction in which the patient is taught to move the trunk laterally towards the pelvis in the opposite direction to the convexity of the principal curvature Major factors affecting the efficacy of non-surgical treatment of AIS At the time of brace initiation, the magnitude of the curve and skeletal maturity play a considerable role in predicting the success of the brace.However, as research continued, it was found that even with strict adherence to the bracing protocol, between 10% and 24% of the curves still developed (39).The risk of curve development is even greater in some patients, so the effectiveness of bracing is influenced by a variety of factors.Among the main factors are immediate correction rate, coronal deformity angular ratio, patient compliance, quality of brace treatment, initial Cobb angle, type of scoliosis, skeletal maturity, and body mass index.The factors that have a greater impact on the non-surgical treatment of AIS are the quality of brace treatment (the amount of pressure exerted by the brace) and patient compliance (the duration of brace wear).

King
Without controlled pressure and wear time, no meaningful conclusions about the effectiveness of the support can be drawn.Several techniques have been applied to address these issues.For example, temperature sensors (81), pressure switches (82), and force sensors (83) have been used to monitor brace pressure and/ or wear time.Methods such as these have shown that the actual brace wear time is often lower than the wear time reported by the patients themselves (84).Studies with BrAIST Level I evidence suggest that brace therapy has a dose-effect relationship, i.e., as brace wear time increases, the treatment effect increases.The treatment success rate in the brace group was 90%-93%, with a mean brace duration of 12.9 h/d.The treatment success rate was 41% when the wearing time of the brace was 0-6 h per day, which was lower than the treatment success rate of the observation group (48%) (31).In addition, another prospective study also found a 100% success rate for patients wearing the brace for at least 14 h per day and a 66.7% success rate for patients wearing the brace for 2 to 10 h per day (85).Worryingly, it has been shown that brace pressure varies considerably with patient activity and posture (86).Even with increased wear time, brace pressure decreases over time (87).The pressure of the brace decreases over time, even with increased wear time (78).Therefore, even honest and compliant patients may not receive optimal results from brace therapy.The immediate rate of correction (IBC) is the most important predictor of brace efficacy, and the Xu study concluded that brace treatment is likely to fail when the IBC is below 10% (88).In contrast, a systematic review by Van de Bogaart concluded that IBC was the strongest predictor of brace success (89).The disparity between the findings of the research mentioned above may be explained by the use of various methodological standards to gauge the strength of the evidence.Coronal deformity angular ratio (C-DAR) is obtained by dividing the largest Cobb angle by the number of vertebrae involved in the same curve in the frontal plane.Lang et al. (10) used C-DAR for the first time to assess the effectiveness of wearing a 6-week short-term Gensingen brace in treating patients with AIS and found that with an initial C-DAR value of <5 and an IBC rate of >50%, the brace therapy may be successful.However, if the value is >6 and the IBC rate is <50%, the effectiveness of the brace will be reduced.Babaee T et al. (90) used C-DAR to assess the outcome of patients with AIS who wore a 2-year long-term Milwaukee brace and found that 63.9%, 29.2%, and 16.9% of patients had an IBC ≥ 50% at C-DAR <5, 5-6, and >6, respectively, and that the success rate of the brace was 89.2% for patients with an IBC ≥ 50%.That is, C-DAR can be used as a predictor of short-and long-term outcomes of AIS brace therapy.Although the initial Cobb angle and growth stage play a major role in the advancement of scoliosis in the natural disease history, it's not apparent if the initial Cobb angle is associated with the success of brace treatment.One of the three main risk factors for brace treatment failure, according to some academics, is an initial Cobb angle greater than 30° (91).The initial Cobb angle, however, has been linked to treatment success rather than failure, according to a systematic study (89).A systematic review has shown that the type of scoliosis can be a predictor of the success of brace therapy (88).The Thompson study showed that a higher proportion of patients with primary thoracic curvature progressed to a Cobb angle of ≥50°with similar initial Cobb angles and daily brace wear times (92).In contrast, some studies have also not identified the type of scoliosis as a significant factor affecting prognosis (93).The most commonly used skeletal maturity parameter is the Risser rating, and studies have found lower Risser scores in patients who failed brace therapy (88).The Karol study's findings revealed that patients with a Cobb angle There is no traditional classification system, and the focus is on young patients whose motor sensory skills have not yet fully developed and on patients with high curvature resulting in motor sensory impairment.
The FED method is described as threedimensional stabilization of the spine with simultaneous extension and derotation.It is performed using a complex mechanical treatment device that allows corrective forces to act at the level of the scoliosis curve NOTCS RAB FED device (passiveassisting/activeassisting) Classification system: physical therapy with braces classification system.NOTCS, No traditional classification system; RAB, Rotational angular breathing.

Diversity of AIS progress risk assessment methods
With strict nonoperative treatment, some patients still end up having to undergo surgery for scoliosis progression, partly due to inaccurate assessment of the risk of progression in AIS patients during the development of nonoperative treatment plans (96).Therefore, the prognosis of AIS patients should be improved by developing different treatment strategies based on an accurate assessment of the risk of scoliosis progression in clinical care.There are numerous methods for assessing growth potential, each with its own strengths and weaknesses.In children who have been diagnosed, assessment of growth potential is essential to determine the stage and approach to treatment.The assessment of growth potential and risk of scoliosis progression in AIS patients reported in the literature is multidimensional and includes mainly skeletal system assessment and anthropometric assessment.
Skeletal system assessment indexes are clinically important in predicting growth potential and scoliosis progression in AIS patients.The commonly used skeletal system assessment indexes in clinical practice include Y-triangle cartilage, Risser's sign, Tanner-Whitehouse III scoring system, digital skeletal age (DSA) scoring system, distal radius and ulnar (DRU) scoring system, The degree of ossification of the Y-triangle cartilage is an important parameter for early prediction of the risk of scoliosis progression in AIS patients.The ossification of the Y-triangle cartilage mostly begins at Risser's sign level 0 and is, therefore, more closely related to the peak height velocity (PHV).It was found that the Y-triangle cartilage was open or incompletely closed in most patients with AIS at the time of PHV, suggesting that open Y-triangle cartilage predicts that the patient is still located before PHV and has a higher risk of scoliosis progression (97).The Risser's sign assesses the degree of ossification of the iliac crest epiphysis and is the most commonly used indicator of bony maturity in the assessment of the risk of scoliosis progression in AIS patients.The lower the Risser's sign, the higher the growth potential and the higher the risk of scoliosis progression.Nault proposed a modified Risser's sign classification, dividing Risser's sign grade 0 into two groups according to the closure of Y cartilage or not, and found a good correlation between Risser's sign grade 0 with Y triangle cartilage closure and Risser's sign grade 1 and DSA score 400-425 (98).This stage is when the iliac crest is just starting to ossify and is, therefore, closely related to the period of rapid scoliosis progression.However, it has been reported in the literature that approximately 40% of patients with AIS have varying degrees of abnormal iliac crest ossification, which, together with the lack of a uniform international standard for grading abnormal ossification, seriously affects the determination of Risser's sign grade.More importantly, there are currently two scoring standards for Risser's sign in this field, American and European, both of which use a 6-point scale and thus are highly confusing in the literature.Among the assessment indexes of the skeletal system, except for the Y-triangle cartilage and Risser's sign, which are simple and convenient to apply, all other assessment indexes are more complex and difficult to master in a short time.For a brief introduction to other assessment metrics, the Tanner-Whitehouse III scoring system was proposed by Tanner and Whitehouse in 1976, and its scoring criteria are based on the different morphologies of the ulnar, radial, metacarpal, and terminal phalangeal epiphyses (99).In 2007, Sanders found that the ulnar and radial bone age scores in the Tanner-Whitehouse III scoring system had the lowest correlation with growth potential, so the bone age scores of the ulna and radius in this scoring system were removed.Removed and only metaphyseal and phalangeal morphologic scores were calculated and redefined as the DSA scoring system (100).More recently, Verma further refined the DSA grading into 8 levels and defined it as the SSMS (simplified skeletal maturity scoring) scoring system (101).Hung proposed the thumb ossification composite index (TOCI) in 2017 based on the DSA scoring, which is simpler and faster and can greatly improve clinical efficiency (102).Among them, the TOCI5 level suggests that most adolescents are at the peak of height growth rate (70.1%-71.8%)(103).In contrast to the DSA score, Luk redefined and reclassified the morphology of the distal radial and ulnar epiphyses in 2014 and developed a new DRU scoring system (104).They found that the growth spurt in patients with AIS occurred at distal radial epiphysis score R7 and distal ulnar epiphysis score U5 and stopped at R10 and U9, respectively.The Greulich-Pyle mapping method is a standardized mapping of bone age based primarily on the appearance and disappearance of wrist ossification centers with age and the appearance and disappearance of the diaphysis (100).The Sauvegrain bone age score is based on morphological changes in the epiphysis of the elbow at four sites: the epicondyle, the humeral glide, the ulnar eminence, and the proximal radius on frontal and lateral radiographs of the elbow (105).The Olecranon method is a morphologic grading method based on the degree of ossification of the ulnar eminence epiphysis (106).Anthropometric indicators commonly used to assess the risk of scoliosis progression in AIS patients include age at live birth, age at menarche, longitudinal growth rate, response to initial brace treatment, and secondary sex characteristics.Anthropometric indicators are easy to obtain, easy to visualize, and do not require additional radiation exposure, making them indispensable for assessing the risk of scoliosis progression in AIS patients.The most commonly used and simplest indicator for assessing the risk of scoliosis progression in AIS patients is the age at which Abbassi concluded that the onset of rapid height growth occurs at the age of 9 and 11 years for females and males, respectively, and that PHV occurs around 11.5 and 13.5 years for females and males, respectively.Solid footage between 11 and 13 years predicts a high risk for the development of PHV and the progression of scoliosis (107).Mao found that a significantly higher proportion of AIS patients had menarche later than 14 years of age, that menarche occurred on average 7 months (6 months to 2 years) after PHV, and that the onset of menarche represents a deceleration of longitudinal height growth (108).The risk of scoliosis progression was highest in AIS patients between 2 years before and at menarche.The longitudinal growth rate is divided into the longitudinal growth rate of height and the longitudinal growth rate of sitting height.The average PHV reported in the literature is about 8-9 cm/year, and the duration of PHV is about 3-4 years, so AIS patients about 2 years before PHV and 1.5 years after PHV have a higher risk of scoliosis progression (109).Secondary sexual characteristics are most commonly used as a visual indicator to assess the developmental maturity of AIS patients in clinical practice and are most commonly graded by the Tanner sign.When PHV occurs, male patients have a Tanner sign of approximately grade 3-5, whereas female patients tend to have a Tanner grading of grade 2-3 (99).In summary, the risk of scoliosis progression in AIS patients is closely related to their growth potential, and it is important to develop new models that include multiple dimensions with higher predictive sensitivity in the assessment.

Limitations of the study
Only the English language literature study from the WOS database's core dataset was used in this investigation.As a result, it might have overlooked excellent literature on this topic in other databases or other languages.In the process of developing visualization atlases, there is currently no standard setup procedure for time splitting, thresholds, and cropping approaches, which could result in bias.

Conclusion
This study offers fresh views for a rapid understanding of the area of non-surgical treatment of AIS by providing the first bibliometric and visual analysis of non-surgical treatment of AIS research during the previous 20 years from several viewpoints.Keywords of research Hotspots were adolescent idiopathic spondylitis, Schroth-based physiotherapy-specific exercise efficacy, curve development, Cobb angle, TLSO brace-based clinical efficacy, quality of life, reliability, questionnaires for HRQOL, finite element biomechanical models, follow-up and clinical guidelines.Keywords of research trends were Schroth exercise, PSSE comparative clinical efficacy studies, standardization of research methods for conservative treatment outcomes, psychometrics, the impact of patient compliance on clinical outcomes, the importance of early screening, wear time, gender, biomechanical modeling, and meta-analysis.Currently, there are fewer studies comparing the clinical efficacy of different nonsurgical therapies, and the vast majority of them are not directly comparable due to differences in eligibility criteria and primary endpoints used to define outcomes, and it is recommended that "patient-centered outcomes (including appearance, disability, pain, and quality of life)" be used as the primary indicator to assess effectiveness, and that uniform criteria be established for studies related to the non-surgical treatment of AIS.Early intervention at the peak of growth is important for the prevention and treatment of AIS, but the inconsistency of existing growth potential and progression risk assessment systems may also affect comparative studies of clinical outcomes and even miss the optimal stage of intervention as a result.Therefore, it is necessary to standardize the criteria for assessing the risk of scoliosis progression.The efficacy of non-surgical treatment of AIS is influenced by multiple factors, so the clinical efficacy of different treatments cannot be generalized, and the causes should be analyzed from multiple perspectives.

FIGURE 2 (
FIGURE 2 (A) Bibliometric analysis of the WoS core database output.The number of publications on non-surgical treatment of AIS studies published in different countries has changed year by year from 1990 to 2022.(B) Trends in publications in the field of non-surgical AIS research and corresponding polynomial fit curves.(C) Filled plot of the collaborative bibliometric analysis of countries in the field of non-surgical AIS research, with darker colors representing more publications and connecting lines representing collaborative relationships.(D) Institutional co-occurrence network diagram for non-surgical treatment of AIS.The circle in the chart indicates the volume of articles issued, the larger the circle indicates the more articles issued by the institution, the thickness of the purple outer circle represents the centrality of the institution, and the connecting line represents the existence of cooperation or co-occurrence.

(
A) Cluster visualization of journal co-citation analysis generated based on VOSviewer software.Each node represents a journal, and the size of each circle is determined by the journal's co-citation.(B) Biplot overlay of cited and cited journals in the field of non-surgical AIS research.Cited journals are on the left, cited journals are on the right, and the line represents the citation status.(C) Keyword co-occurrence map for non-surgical treatment of AIS.The circles in the figure represent keywords, and the larger the circle indicates the higher the frequency of the keyword.The dark to light colors represent the years from far to near, the connecting lines represent the links between the keywords, and the thickness of the purple outer circle represents the centrality of the keywords.(D) VOSviewer-based clustering view of non-surgical treatment AIS keywords.

FIGURE 5 (
FIGURE 5 (A) Keyword co-occurrence clustering map for non-surgical treatment of AIS.The dark to light colors represent the years from far to near, and the connecting lines represent the links between keywords.(B) Keyword timeline view of non-surgical treatment of AIS.The circles in the figure represent keywords, and the larger the circle indicates the higher the frequency of keywords.The dark to light colors represent the years from far to near, the connecting lines represent the links between the keywords, and the thickness of the purple outer circle represents the centrality of the keywords.(C) VOSviewer-based keyword time view of non-surgical treatment AIS.(D) Keyword emergence map for non-surgical treatment of AIS.The figure of " ▂ " is a 1-year keyword mark, and " ▂ " is the emergence of the year of the word.

FIGURE 6 (
FIGURE 6 (A) Co-cited literature network for non-surgical treatment of AIS.The circles in the figure represent cited literature (showing the first author's name), and the larger the circle, the more citations the literature has received.The thicker the circle is, the more citations the literature has received.The line represents co-citations among the literature, and the thickness of the purple outer circle represents the centrality of the literature.(B) Clustering of cocited literature for non-surgical treatment of AIS.The dark to light colors represent the years from far to near, and the connecting lines represent the links between keywords.(C) Emergence of key literature on non-surgical treatment of AIS.Note: The " ▂ " in the figure are the years in which the unexpected citations appeared, and the " ▂ " in the figure are the nodes in which the number of citations for the unexpected citations suddenly rose, arranged in chronological order from top to bottom.(D) Thematic map of non-surgical treatment AIS.

TABLE 1
Top 10 high-impact countries and institutions for non-surgical AIS research.

TABLE 2
Top 10 high-impact authors for non-surgical AIS studies.

TABLE 3
Status of high-impact journals for non-surgical AIS research, 1990-2022.

TABLE 5
Top 10 ranking of cited literature centrality for non-surgical treatment AIS.

TABLE 6
Top 10 ranked frequency of cited literature for non-surgical treatment AIS.
(34,53)7)the fourth section is focuses on clinical efficacy studies of Schroth-based PSSE for AIS(7,32,37)and exploring the importance of early screening for AIS and how to efficiently detect and monitor scoliosis development during growth (2018-present)(34,53), of which the third and fourth parts of the literature burst intensity has continued to date, and on the basis of a careful reading of the high burst citations, future research trends can be foreseen as standardization of research methods to standardize the effects of conservative treatment, the impact of patient compliance on clinical outcomes, clinical efficacy studies of PSSE, comparative efficacy studies of different Schroth types, the importance of early screening, effective modalities of early screening, the study on the success of different braces and the type of scoliosis curve, optimal use of PSSE with different braces, optimal Cobb angle for various PSSE.

TABLE 7
Recommended plan for non-surgical treatment of AIS.

TABLE 8
Commonly used braces for non-surgical treatment of AIS and their characteristics.

TABLE 9
Main characteristics of the eight main physiotherapeutic scoliosis-specific exercises.

TABLE 9 Continued
(91)nd 32.4% risk of surgery for Risser grade 0 and open and closed acetabular "Y" cartilage, respectively(94).The Hawary study identified low skeletal maturity as a risk factor for failure of brace treatment(91).Body mass index (BMI) is an important indicator to evaluate the nutritional status of the body.