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Systematic Review
Revised

Prevalence of carpal tunnel syndrome among dentists: a systematic review and meta-analysis

[version 3; peer review: 2 approved]
Evangelos Kostares
https://orcid.org/0000-0003-1332-0479
1Georgia Kostare1Michael Kostares1Maria Kantzanou1
Evangelos Kostares
https://orcid.org/0000-0003-1332-0479
1Georgia Kostare1Michael Kostares1Maria Kantzanou1
PUBLISHED 31 Jul 2023
Author details Author details
OPEN PEER REVIEW
REVIEWER STATUS

This article is included in the HEAL1000 gateway.

Abstract

Purpose: To estimate the prevalence of carpal tunnel syndrome (CTS) among dental surgeons and the effect of possible moderators on it.
Methods: A systematic literature search (Medline and Scopus databases) was conducted independently by two reviewers. Only observational studies that examined specifically the prevalence rates of CTS among dentists were included. Quality assessment was performed. The pooled prevalence with 95% confidence intervals (CI) was estimated. Outlier and influential analysis were conducted. Moderator analysis was performed in order the effect of categorical and continuous variables on the estimated prevalence to be investigated.
Results: In total, ten eligible studies (3,547 participants) were finally included in this meta-analysis. Two of them were estimated as high quality (low risk of bias) and the remaining ones as moderate quality (moderate risk of bias). The overall prevalence of CTS among dental surgeons was estimated as 9.87% (95%CI 6.84%-14.03%) with significant heterogeneity between studies. No study was identified as influential. Potential sources of heterogeneity were not identified through meta-regression analysis. In the subgroup analysis the prevalence was 12.47% (95%CI 6.38%-22.95%) for the group identified as having CTS through medical history and at least clinical examination or electrodiagnostic testing and 8.56% (95%CI 5.53%-13.01%) among those who identified solely through questionnaire.
Conclusions: Our findings are important to provide the pooled prevalence of CTS among dentists. Our results were based on highly heterogeneous studies. Our study reports a considerable prevalence, consequently, significance of awareness among dental surgeons regarding the etiology of this issue is more than necessary. More studies need to be conducted that could guide researchers in order this issue to be fully investigated.

Keywords

carpal tunnel syndrome, CTS, entrapment neuropathy, dentists, dental surgeons, prevalence, meta-analysis

Corresponding author: Evangelos Kostares
Competing interests: No competing interests were disclosed.
Grant information: The publication of the article in OA mode was financially supported by HEAL-Link.
The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
Copyright:  © 2023 Kostares E et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
How to cite: Kostares E, Kostare G, Kostares M and Kantzanou M. Prevalence of carpal tunnel syndrome among dentists: a systematic review and meta-analysis [version 3; peer review: 2 approved]. F1000Research 2023, 12:196 (https://doi.org/10.12688/f1000research.131173.3) First published: 20 Feb 2023, 12:196 (https://doi.org/10.12688/f1000research.131173.1) Latest published: 31 Jul 2023, 12:196 (https://doi.org/10.12688/f1000research.131173.3)

Revised Amendments from Version 2

Only minor changes were made to the original text, specifically to the methods and discussion sections. However, all of the reviewer's comments were carefully considered, and in cases where no changes were made, detailed explanations were provided.

See the authors' detailed response to the review by Mohammad Alavinia
See the authors' detailed response to the review by Essam Ahmed Al‐Moraissi

Introduction

Carpal tunnel syndrome (CTS) is one of the most frequent and well-studied entrapment neuropathies with a prevalence in middle-aged general population estimated at around 4.0% to 5.0%.12 As per its’ pathophysiology, CTS occurs as the median nerve is being compressed and damaged through its passage within the narrow osteofibrous canal (carpal tunnel).27,34 Among the great variety of symptoms that may occur, CTS is also identified by patients as pain, paraesthesias (especially, during the night) and dysaesthesias in the distribution of the median nerve (in the first three and a half digits of the affected hand), are the predominant ones. As CTS pathophysiology evolving, all muscles innervated by branches of the median nerve (flexor pollicis brevis, abductor pollicis brevis, opponens pollicis) are being atrophied and weakened, resulting the patient’s declined functionality.9,14,23,24 On a regular basis, the diagnosis of CTS can be made throughout the combination of a comprehensive patient’s history and a thorough clinical examination (including Tinel, Phalen and Durkan’s tests). Yet, in specific patients, advanced procedures (electrodiagnostic tests) such as the nerve conduction studies, can be utilized both in the diagnosis as well as in treatment decision making.27 Many risk factors have been identified throughout the years including the obesity, diabetes, hypothyroidism, pregnancy, lupus erythematosus and Reynaud’s phenomenon.

In the recent years, specific interest exists regarding the occurrence of CTS in certain occupations such as the dental surgeons,2,13,20,21 that is expected to be higher than the general occupation31 given that the procedures that are usually performed require the use of vibratory tools, strong griping, uncomfortable hand position and the performance of long-lasting repetitive tasks.29

Therefore, the aim of this study is to review the available literature for data related to the occurrence of CTS in dental surgeons and to obtain an accurate estimate of its’ prevalence. On a secondary basis, an attempt to identify factors that may be associated with its’ prevalence will be performed.

Methods

This review is reported in line with the PRISMA guidelines.38

Search strategy

A literature search of Medline (PubMed search engine) and Scopus database was conducted through inception up to December 16th, 2022, following the Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines.28 The literature search was independently performed by two reviewers, using the following algorithm: (carpal tunnel syndrome OR CTS OR entrapment neuropathy OR median nerve compression) AND (“dentists” OR “dental surgeon”).

The reference lists of all identified eligible studies were evaluated by both reviewers for potentially missed articles from the initial literature search. Following the aforementioned procedure, all studies were stored in the Zotero reference management software (version 6.0.18) and the duplicate citations were removed.36 The remaining articles were independently screened by two investigators to identify studies that met the pre-determined inclusion criteria. The study selection was conducted in two stages. First, article titles and abstracts were reviewed and those that did not meet our inclusion/exclusion criteria were removed. Secondly, the full texts of the remaining articles were retrieved and evaluated. If an absence in studies selection procedure was notified, the final decision was reached by team consensus.

Criteria for study selection and data extraction

Articles that examined specifically the prevalence rates of CTS among dentists were included. Only observational studies written in English language were inserted with no restriction on publication date. Case reports, case series with less than ten participants, review articles, clinical trials, animals studies, letters to the editor, books, expert opinion, conference abstracts, studies with no full-text available, studies not written in English language, articles reported solely the prevalence of CTS’ symptoms, studies regarding dental laboratory technicians, dental hygienists and dental practitioners (such as the studies conducted from Anton D., et al.3 and Cherniack M., et al.8 and Prasad, D.A. et al.30) were excluded. In articles with overlapping populations, the most recent or most complete publication was considered eligible. The following variables were obtained from each study: the first author’s name, year of publication, study design, continent of origin, study period, total number of patients, proportion of males, mean age, participants with CTS and diagnostic procedures.

Quality assessment

Quality appraisal was independently performed by two investigators using the National Heart, Lung, and Blood Institute (NHLBI) Quality Assessment Tools. The NHLBI quality assessment tool for Observational Cohort and Cross-Sectional Studies was employed. Individual studies were assessed for potential flaws in accordance the study methodology or the conduct of each survey that could jeopardize internal validity. For each of the fourteen questions, investigators could select one of the following answers: “yes”, “no”, “cannot determine” (e.g. data were unclear or contradictory) or “not reported” (e.g. missed data) or “not applicable” (e.g. not relevant question regarding this type of study). Study quality was defined as “low”, “moderate” or “high” risk of bias.25

Statistical analysis

Statistical analysis was carried out using RStudio (version: 022.12.0+353) software (RStudio Team (2022)).32 The meta-analysis was conducted through metafor package.33 The DerSimonian and Laird random-effects model was used to estimate the pooled prevalence and its respective 95% confidence intervals (CI). Logit transformation was performed. Heterogeneity presence between studies was evaluated through visual inspection of the forest plot and by using the Cochran’s Q statistic and its respective p value. The Higgins I2 statistic and its respective 95% CI were used for quantifying the magnitude of true heterogeneity in effect sizes. An I2 value of 25%, 50%, and 75% indicated low, moderate, and high heterogeneity, respectively. To determine if the potential outlying effect sizes (as evaluated in the forest plot) were also influential (influence diagnostics are statistical methods used to identify individual studies that have a substantial impact on the overall results) (as an example, the covariance ratio can be used to evaluate the influence of each individual study in a meta-analysis, assisting in the identification of studies that might have a disproportionate impact on the overall pooled effect estimate), screening for externally studentized residuals with z-values larger than two in absolute value and leave-one-out diagnostics (through this process, each study's influence on the overall findings was evaluated) were performed.34 Due to high heterogeneity remaining, subgroup and meta-regression analysis were performed. In the conducted subgroup analysis, the continent of origin and the diagnostic procedure (verified during the implementation of each study or previously diagnosed) were chosen as the categorical moderators on effect sizes. In the performed meta-regression analysis with continuous variables, the year of publication and the proportion of males were assessed as moderators on effect sizes. Owing to the limited availability of data (less than ten studies for each covariate) regarding other variables (e.g mean age, obesity, diabetes, hypothyroidism, pregnancy, autoimmune diseases), these data were not included in this analysis.17 Unless otherwise stipulated, the statistical significance was established at p=0.05 (two-tailed). Tests to evaluate publication bias, such as Egger’s test,10 Begg’s test5 and funnel plots, were developed in the context of comparative data. They assume studies with positive results are more frequently published than studies with negative results, however in a meta-analysis of proportions there is no clear definition or consensus about what a positive result is.4 Therefore, publication bias in this current meta-analysis was assessed qualitatively.

Results

Search results and characteristics of the included studies

In total, ten (n=10) eligible studies (3,547 participants) were finally included in this analysis (see Figure 1 for the PRISMA flow chart).37 In 6 of the eligible studies CTS was diagnosed through questionnaire and in the rest of them through medical history and at least clinical examination or electrodiagnostic testing. The descriptive characteristics of the incorporated research are presented in Table 1. All articles were published from 2001 to 2021 (conducted from 1997 to 2019). All of them were found to be of cross-sectional design. Most studies were contemplated in Asia (Iran, Lebanon, Saudi Arabia, n=6), followed by America (USA, Brazil, n=2) and Europe (Czech, Germany, n=2). The average percent of males was 54.22% while the mean age of participants ranged from 35 years to 46.4 years (median=38.2 years). Lastly, two studies were estimated as high quality (low risk of bias) and the remaining ones as moderate quality (moderate risk of bias).

ebb81387-f1b8-4c6a-87c9-c9d59746aae0_figure1.gif

Figure 1. Flow chart depicting the systematic search results from the relevant studies' identification and selection.

Table 1. Main characteristics and data outcome of the included studies.

AuthorYear of publicationStudy designContinent of originStudy periodTotal participantsProportion of malesMean ageCTSDiagnosisQuality assessment
Hamann C142001Cross-sectionalAmerica (USA)1997-1998107983.6NR52Q, EDTModerate
Haghighat A152012Cross-sectionalAsia (Iran)NR24072NR40Q, CEModerate
Borhan Haghighi A62013Cross-sectionalAsia (Iran)NR4062.537.27Q, CE, EDTModerate
Hodacova L182014Cross-sectionalEurope (Czech)2010-20115752846.484QModerate
Jaoude SB192017Cross-sectionalAsia (Lebanon)201431458.639.224QModerate
de Jesus Júnior LC92018Cross-sectionalAmerica (Brazil)201428650NR38QModerate
Alhusain FA12019Cross-sectionalAsia (Saudi Arabia)201722360NR17QHigh
Meisha DE222019Cross-sectionalAsia (Saudi Arabia)NR23454.3NR21QModerate
Ohlendorf D262020Cross-sectionalEurope (Germany)2018-201945036.23514QModerate
Maghsoudipour M212021Cross-sectionalAsia (Iran)NR10637NR19Q, CE, EDTHigh

Prevalence of CTS among dentists

A random-effects model analysis yielded an initial overall CTS prevalence of 9.87% (95%CI 6.84%-14.03%) with significant heterogeneity between studies I2=90.55% (95%CI 79.29%-97.31%, p<0.01) (Figure 2). The influence diagnostics are presented in Figure 3. The forest plot illustrating the results of the leave-one-out analysis is presented in Figure 4. As per them, no study was identified as being influential. In other words, there was no study identified that was capable of turning the effect of the analysis into some direction.

ebb81387-f1b8-4c6a-87c9-c9d59746aae0_figure2.gif

Figure 2. Forest plot evaluating the calculated prevalence of CTS among dentists using random-effects model.

ebb81387-f1b8-4c6a-87c9-c9d59746aae0_figure3.gif

Figure 3. Visual representation of the influence diagnostics for each of the included studies.

Abbreviations used—rstudent: studentized deleted residuals; dffits: DFFITS values; cook.d: Cook’s distances; cov.r: covariance ratio; tau2.del: estimated τ2 values; QE.del: estimated Cochran’s Q values.

ebb81387-f1b8-4c6a-87c9-c9d59746aae0_figure4.gif

Figure 4. Forest plot displaying the re-calculated pooled effects, with one study omitted each time, using the leave-one-out method.

Subgroup and meta-regression analysis

To investigate the effect of potential risk factors in the heterogeneity, a moderator analysis was performed. Forest plots of the subgroup analysis are illustrated in Figure 5 and Figure 6. The prevalence was 7.02% (95%CI 1.44%-27.99%) among studies conducted in Europe, 8.06% (95%CI 2.88%-20.60%) among studies conducted in America and higher among those conducted in Asia (11.71%) (95%CI 8.25%-16.35%). The prevalence was 12.47% (95%CI 6.38%-22.95%) for the group identified as having CTS through medical history and at least clinical examination or electrodiagnostic testing and 8.56% (95%CI 5.53%-13.01%) among those who identified solely through questionnaire (previously diagnosed, self-reported). Heterogeneity remained high in the subgroup analysis by both continent of origin and type of diagnostic procedure. In the meta-regression analysis with continuous variables, the year of publication and the proportion of males, no statistically significant (positive or inverse) modification was found as presented in Table 2.

ebb81387-f1b8-4c6a-87c9-c9d59746aae0_figure5.gif

Figure 5. Forest plot illustrating the prevalence of CTS among dentists by continent of origin: America, Asia, Europe.

ebb81387-f1b8-4c6a-87c9-c9d59746aae0_figure6.gif

Figure 6. Forest plot illustrating the prevalence of CTS among dentists by diagnostic procedure (Diagnostic procedure 1: questionnaire, clinical examination, electrodiagnostic test; Diagnostic procedure 2: questionnaire).

Table 2. Meta-regression analysis.

KQMRegression coefficientp-value
Year of publication1076.570.02 (95%CI -0.05-0.08)0.63
Proportion of males100.26-0.01 (95%CI -0.03-0.02)0.61

Discussion

CTS is one of the most frequently diagnosed entrapment neuropathy, accounting for high disability among different occupations.24 To date, only systematic reviews regarding musculoskeletal disorders (which is a general term referring to injuries in muscles, ligaments, tendons, nerves, blood vessels, bones and joints) among dental healthcare providers exist in the scientific literature. One indicative example of the above is the meta-analysis conducted by Chenna et al., in which the authors combined data from 88 studies and found out that seven out of ten dental healthcare workers (including dentists, dental students, dental hygienists and dental auxiliaries) experienced a musculoskeletal disorder. As per the location of the disorders, the most affected sites were the neck, the back, the lower back, the shoulder, the upper back and the wrist with a prevalence of 51%, 50%, 46%, 41%, 35% and 31%, respectively.7

To the best of our knowledge, this is the first attempt to calculate the prevalence of CTS among dentists, through a systematic review. We do not have previously published data to compare our pooled estimate with. The prevalence of the existing observational studies varies considerably in the scientific literature. Our study provides evidence for 9.87% (95%CI 6.84%-14.03%) prevalence of CTS among dentists. Overall, the results are based on highly heterogeneous articles. Through the moderator analysis, we do not manage to identify sources of heterogeneity between the eligible studies. In the subgroup analysis, the prevalence was 12.47% (95%CI 6.38-22.95) for the group identified as having CTS through medical history and at least clinical examination or electrodiagnostic testing while, the prevalence was 8.56% (95%CI 5.53%-13.01%) among those who identified solely through questionnaire (previously diagnosed, self-reported). It should be noted that the latter pooled estimate may underestimate the dental surgeons with CTS due to the diagnostic method used. In matter of other oral health care professionals, Anton D., et al., found an 8.4% prevalence of CTS among 95 dental hygienists3 while, Cherniack M., et al., calculated a 14.9% prevalence among 94 dental hygienists.8 In a recent meta-analysis, Epstein S., et al., combining data from seven eligible studies, found a 9% (95%CI 5%-16%) prevalence of CTS among 2449 physicians (from different specialties including general surgeons, plastic surgeons, orthopedic surgeons and urologists) with significant heterogeneity between studies I2=94.5%.11 All the aforementioned results align with our estimation, providing more evidence that CTS can be considered as an occupational hazard among health care professionals.

It should be noted that there are many treatments available for this entrapment neuropathy. Patients developing mild or moderate symptoms should be treated conservatively through splinting, local corticosteroid injection or oral prednisone. Other treatments available, such as physical therapy, have not proven their effectiveness yet. Surgical decompression is the treatment of choice for patients developing severe symptoms.16,35 Our study reports a considerable prevalence, consequently, the importance of awareness among dentists, regarding the etiology of this issue is more than necessary. More research should be conducted in order to explore the association between CTS among dentists and potential risk factors, such as gender, obesity, endocrine conditions (hypothyroidism, acromegaly and diabetes) and trauma. The findings of this systematic review and meta-analysis reveal a concerning prevalence of CTS among dental surgeons, with an overall prevalence rate of 9.87%. These results underscore the significance of addressing ergonomic concerns and implementing preventive measures to protect the occupational health and well-being of dental surgeons.

Study’s strengths and limitations

The main strength was the comprehensive methodology applied for literature search, study selection, specific inclusion/exclusion criteria, screening for eligibility, quality assessment and pooling analysis of prevalence data from ten studies. Nonetheless, the present study had several limitations. It should be noted that the unidentified heterogeneity remained on high levels, therefore, the results should be interpreted with caution. The highly heterogenous outcomes across the included studies were expected due to the nature of this type of studies. Owing to the limited availability of data (less than ten studies for each covariate) regarding variables such as mean age, obesity, diabetes, hypothyroidism, pregnancy, autoimmune diseases, these data were not included in this analysis. Lastly, only observational studies written in English language were included resulting in the occurrence of reporting bias.

Conclusion

In conclusion, the prevalence of CTS among dentists is estimated at 9.87% (95%CI 6.84%-14.03%). Our results were based on highly heterogeneous studies. Sources of heterogeneity were not identified. Our findings point to several directions for future research. Therefore, further studies, both prospective and retrospective need to be conducted in order this issue to be fully investigated.

Data availability

Underlying data

Figshare: Main characteristics and data outcome of the included studies. https://doi.org/10.6084/m9.figshare.22087427.v1. 37

Reporting guidelines

Figshare: PRISMA_2020_checklist.pdf. figshare. https://doi.org/10.6084/m9.figshare.22069034.v1. 38

Data are available under the terms of the Creative Commons Zero “No rights reserved” data waiver (CC0 1.0 Public domain dedication).

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Kostares E, Kostare G, Kostares M and Kantzanou M. Prevalence of carpal tunnel syndrome among dentists: a systematic review and meta-analysis [version 3; peer review: 2 approved]. F1000Research 2023, 12:196 (https://doi.org/10.12688/f1000research.131173.3)
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Mohammad Alavinia, KITE, Toronto Rehabilitation Institute – University Health Network, University Health Network, Toronto, ON, Canada 
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Alavinia M. Reviewer Report For: Prevalence of carpal tunnel syndrome among dentists: a systematic review and meta-analysis [version 3; peer review: 2 approved]. F1000Research 2023, 12:196 (https://doi.org/10.5256/f1000research.153668.r192513)
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NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article.
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Version 2
VERSION 2
PUBLISHED 20 Mar 2023
Revised
Views
36
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Reviewer Report 24 Jul 2023
Mohammad Alavinia, KITE, Toronto Rehabilitation Institute – University Health Network, University Health Network, Toronto, ON, Canada 
Approved with Reservations
VIEWS 36
https://doi.org/10.5256/f1000research.145508.r185139
Thank you for providing me with the opportunity to review the Systematic Review and Meta-analysis paper titled "Prevalence of carpal tunnel syndrome among dentists: a systematic review and meta-analysis.  

This systematic review and meta-analysis were conducted to ... Continue reading
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CITE
HOW TO CITE THIS REPORT
Alavinia M. Reviewer Report For: Prevalence of carpal tunnel syndrome among dentists: a systematic review and meta-analysis [version 3; peer review: 2 approved]. F1000Research 2023, 12:196 (https://doi.org/10.5256/f1000research.145508.r185139)
The direct URL for this report is:
https://f1000research.com/articles/12-196/v2#referee-response-185139
NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article.
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  • Author Response 31 Jul 2023
    Ευάγγελος Κωσταρές, School of Health Sciences, National and Kapodistrian University, Athens, 11527, Greece
    31 Jul 2023
    Author Response
    Dear Reviewer,

    On behalf of all authors, we would like to thank you for your kind words and valuable input regarding our manuscript.

    Please find a point-to-point response ... Continue reading
    Report a concern
  • Respond or Comment
COMMENTS ON THIS REPORT
  • Author Response 31 Jul 2023
    Ευάγγελος Κωσταρές, School of Health Sciences, National and Kapodistrian University, Athens, 11527, Greece
    31 Jul 2023
    Author Response
    Dear Reviewer,

    On behalf of all authors, we would like to thank you for your kind words and valuable input regarding our manuscript.

    Please find a point-to-point response ... Continue reading
    Report a concern
Views
42
Cite
Reviewer Report 29 Mar 2023
Essam Ahmed Al‐Moraissi, Department of Oral and Maxillofacial Surgery, Thamar University, Dhamar, Yemen 
Approved
VIEWS 42
https://doi.org/10.5256/f1000research.145508.r166950
The authors have ... Continue reading
CITE
CITE
HOW TO CITE THIS REPORT
Ahmed Al‐Moraissi E. Reviewer Report For: Prevalence of carpal tunnel syndrome among dentists: a systematic review and meta-analysis [version 3; peer review: 2 approved]. F1000Research 2023, 12:196 (https://doi.org/10.5256/f1000research.145508.r166950)
The direct URL for this report is:
https://f1000research.com/articles/12-196/v2#referee-response-166950
NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article.
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Version 1
VERSION 1
PUBLISHED 20 Feb 2023
Views
90
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Reviewer Report 06 Mar 2023
Essam Ahmed Al‐Moraissi, Department of Oral and Maxillofacial Surgery, Thamar University, Dhamar, Yemen 
Not Approved
VIEWS 90
https://doi.org/10.5256/f1000research.143986.r163987
This systematic review (SR) assessed the prevalence of CTS among dentists. The study is of interest. However, there are some major revisions that need to be made as follows:

Abstract: The authors should clearly state the inclusion ... Continue reading
CITE
CITE
HOW TO CITE THIS REPORT
Ahmed Al‐Moraissi E. Reviewer Report For: Prevalence of carpal tunnel syndrome among dentists: a systematic review and meta-analysis [version 3; peer review: 2 approved]. F1000Research 2023, 12:196 (https://doi.org/10.5256/f1000research.143986.r163987)
The direct URL for this report is:
https://f1000research.com/articles/12-196/v1#referee-response-163987
NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article.
Report a concern
  • Author Response 20 Mar 2023
    Ευάγγελος Κωσταρές, School of Health Sciences, National and Kapodistrian University, Athens, 11527, Greece
    20 Mar 2023
    Author Response
    Dear Reviewer,

    On behalf of all authors, we would like to thank you for your kind words and valuable input regarding our manuscript.

    Please find a point-to-point response ... Continue reading
    Report a concern
  • Respond or Comment
COMMENTS ON THIS REPORT
  • Author Response 20 Mar 2023
    Ευάγγελος Κωσταρές, School of Health Sciences, National and Kapodistrian University, Athens, 11527, Greece
    20 Mar 2023
    Author Response
    Dear Reviewer,

    On behalf of all authors, we would like to thank you for your kind words and valuable input regarding our manuscript.

    Please find a point-to-point response ... Continue reading
    Report a concern

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Version 3
VERSION 3 PUBLISHED 20 Feb 2023
Comment

Open Peer Review

Reviewer Status

Alongside their report, reviewers assign a status to the article:

Approved
The paper is scientifically sound in its current form and only minor, if any, improvements are suggested
Approved with reservations
A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit.
Not approved
Fundamental flaws in the paper seriously undermine the findings and conclusions

Reviewer Reports

Invited Reviewers
1 2
Version 3
(revision)
 31 Jul 23 		read
Version 2
(revision)
 20 Mar 23 		read read
Version 1
20 Feb 23 		read
  1. Essam Ahmed Al‐Moraissi, Thamar University, Dhamar, Yemen
  2. Mohammad Alavinia, University Health Network, Toronto, Canada

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    Alongside their report, reviewers assign a status to the article:
    Approved - the paper is scientifically sound in its current form and only minor, if any, improvements are suggested
    Approved with reservations - A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit.
    Not approved - fundamental flaws in the paper seriously undermine the findings and conclusions
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