Comparing dextrose prolotherapy with other substances in knee osteoarthritis pain relief: A systematic review

Cortez, Vitor Santos; Moraes, Walter Augusto; Taba, João Victor; Condi, Alberto; Suzuki, Milena Oliveira; Nascimento, Fernanda Sayuri do; Pipek, Leonardo Zumerkorn; Mattos, Vitoria Carneiro de; Torsani, Matheus Belloni; Meyer, Alberto; Hsing, Wu Tu; Iuamoto, Leandro Ryuchi

doi:10.1016/j.clinsp.2022.100037

Abstract

The objective of this study is to compare the effectiveness of dextrose-prolotherapy with other substances for pain relief in patients with primary knee osteoarthritis. The literature screening was done in January 2021 through Medline (PubMed), EMBASE, and Database of the National Institute of Health based on the following criteria: randomized clinical trials that subjected patients with primary knee osteoarthritis who underwent treatment with dextrose-prolotherapy and other substances for pain relief. Paired reviewers independently identified 3381 articles and included 8 trials that met the eligibility criteria. According to the findings of this review, participants that underwent dextrose-prolotherapy showed improvements between baseline and posterior assessments and when compared to saline injections, but when compared to other substances, the results were not clear. Although dextrose-prolotherapy is a useful treatment method by itself, it is still not possible to clearly affirm that it is superior or inferior to its counterparts. There is an urgent need for further studies to bring more evidence to the field.

HIGHLIGHTS

Dextrose injections promote deposition of collagen into injured structures through growth factors and inflammatory cells.
Dextrose-prolotherapy is a useful treatment method, but it is not superior or inferior to its counterparts.

Introduction

Knee Osteoarthritis (KOA) is a degenerative disease of the knee joint that causes pain and restricted range of motion, often impairing the patient's quality of life. It is a major medical condition thought to affect over 600 million people worldwide, with a prevalence of 22.9% in individuals aged 40 or above.¹1 Losina E, Paltiel AD, Weinstein AM, Yelin E, Hunter DJ, Chen SP, et al. Lifetime medical costs of knee osteoarthritis management in the United States: impact of extending indications for total knee arthroplasty. Arthritis Care Res 2015;67(2):203-15. (Hoboken)., ²2 Cui A, Li H, Wang D, Zhong J, Chen Y, Lu H. Global, regional prevalence, incidence and risk factors of knee osteoarthritis in population-based studies. EClinicalMedicine 2020;29-30:100587. [Internet]Dec 1 [cited 2021 Apr 8]Available from: https://linkinghub.elsevier.com/retrieve/pii/S258953702030331X.
https://linkinghub.elsevier.com/retrieve... A person diagnosed with KOA is expected to spend over $140,300 in treatment during the course of his/her life.¹1 Losina E, Paltiel AD, Weinstein AM, Yelin E, Hunter DJ, Chen SP, et al. Lifetime medical costs of knee osteoarthritis management in the United States: impact of extending indications for total knee arthroplasty. Arthritis Care Res 2015;67(2):203-15. (Hoboken). In the USA, the annual costs attributed to osteoarthritis sit between 400 and 500 billion dollars, and these are expected to increase in the next few years.³3 The Osteoarthritis Action Alliance (OAAA). Cost of osteoarthritis – osteoarthritis action alliance [Internet]. Available from: https://oaaction.unc.edu/policy/cost-of-osteoarthritis/. [Accessed 2021 Apr 8th].
https://oaaction.unc.edu/policy/cost-of-... Unfortunately, even with a vast array of treatment options, failed attempts and refractory symptoms still appear to be very prevalent.¹1 Losina E, Paltiel AD, Weinstein AM, Yelin E, Hunter DJ, Chen SP, et al. Lifetime medical costs of knee osteoarthritis management in the United States: impact of extending indications for total knee arthroplasty. Arthritis Care Res 2015;67(2):203-15. (Hoboken)., ²2 Cui A, Li H, Wang D, Zhong J, Chen Y, Lu H. Global, regional prevalence, incidence and risk factors of knee osteoarthritis in population-based studies. EClinicalMedicine 2020;29-30:100587. [Internet]Dec 1 [cited 2021 Apr 8]Available from: https://linkinghub.elsevier.com/retrieve/pii/S258953702030331X.
https://linkinghub.elsevier.com/retrieve... , ³3 The Osteoarthritis Action Alliance (OAAA). Cost of osteoarthritis – osteoarthritis action alliance [Internet]. Available from: https://oaaction.unc.edu/policy/cost-of-osteoarthritis/. [Accessed 2021 Apr 8th].
https://oaaction.unc.edu/policy/cost-of-...

Research on D-PRL treatment for KOA has increased significantly over the last 10 years, thus signaling the need for a new analysis of its efficacy as a pain relief method when compared to other therapies.⁴4 Arias-Vázquez PI, Tovilla-Zárate CA, Legorreta-Ramírez BG, Burad Fonz W, MagañaRicardez D, González-Castro TB, et al. Prolotherapy for knee osteoarthritis using hypertonic dextrose vs other interventional treatments: systematic review of clinical trials. Adv Rheumatol 2019;59(1):39.. (London, England). Though its precise mechanisms are still debated, it has been hypothesized that intra-articular dextrose injections promote a regional influx of growth factors and inflammatory cells that ultimately provoke the deposition of new collagen into injured structures.⁵5 Hackett GS. Prolotherapy in whiplash and low back pain. Postgrad Med 1960;27 (June):214-9., ⁶6 Jensen KT, Rabago DP, Best TM, Patterson JJ, Vanderby RJ. Response of knee ligaments to prolotherapy in a rat injury model. Am J Sports Med 2008;36(7):1347-57.

Arias-Vazquez et al.⁴4 Arias-Vázquez PI, Tovilla-Zárate CA, Legorreta-Ramírez BG, Burad Fonz W, MagañaRicardez D, González-Castro TB, et al. Prolotherapy for knee osteoarthritis using hypertonic dextrose vs other interventional treatments: systematic review of clinical trials. Adv Rheumatol 2019;59(1):39.. (London, England). sought to compare the usage of D-PRL with saline solution, HA, ozone infiltration, PRP, erythropoietin, and radiofrequency recently. However, this review potentially missed valuable studies in its analysis by limiting the literature search timeframe from January 2000 to May 2018 and the database search to PubMed, SciELO, and Google Scholar. Additionally, it is important to follow the AMSTAR- 2 guidelines. This lack of methodological rigor might not ensure unbiased results and, therefore, a new review is needed.

The present study’s aim is to develop a systematic review of the literature to compare the effectiveness of D-PRL with other substances for pain relief in patients with primary knee osteoarthritis.

Material and methods

This systematic review was carried out in accordance with the items of Preferred Reports for Systematic Reviews and Protocol Meta-Analysis (PRISMA-P)⁷7 Moher D, Shamseer L, Clarke M, Ghersi D, Liberati A, Petticrew M, et al. Preferred reporting items for systematic review and meta-analysis protocols (PRISMA-P) 2015 statement. Rev Esp Nutr Humana Diet 2016;20(2):148-60. and Assessing the Methodological Quality of Systematic Reviews (AMSTAR-2) guidelines.⁸8 Tao H, Yang L, Ping A, Quan L, Yang X, Zhang Y, et al. Interpretation of AMSTAR 2: a critical appraisal tool for systematic reviews that include randomized or non-randomized studies of healthcare interventions. Chin J Evidenc Based Med 2018;18(1):101–8. This study was registered by the Prospective Register of Systematic Reviews (PROSPERO, identification code CRD42021243755) before the research was carried out.

Drafting of the research question was based on the PICO strategy⁹9 University of Illinois at Chicago’s library of the health sciences at Peoria. What is the PICO Model?[Internet]. Available from: https://researchguides.uic.edu/cphp?g=252338&p=3954402 [Accessed 2021 Apr 8th].
https://researchguides.uic.edu/cphp?g=25... considering: patients with primary knee osteoarthritis (Patient or Problem); dextrose prolotherapy (Intervention or Assessment); other substances comparison (Control or Comparison); pain relief outcomes available in the literature were considered in the analysis (Outcome).

Eligibility criteria: Inclusion criteria

Types of studies. Only Randomized Clinical Trials (RCT) were considered, and the articles were selected from their titles and abstracts according to their data relevance and regardless of their publication status.

RCTs were favored over other types of studies due to their capability of producing high-quality evidence, given that the goal of this review was to compare the efficacy of clinical interventions.

Types of participants. Study participants were patients with primary KOA who underwent treatment with dextrose prolotherapy and other substances for pain relief.

Types of intervention. The studies included must have had an intervention group that was treated with D-PRL. Control groups were characterized by either treatment with placebo or with therapeutic medical interventions other than D-PRL. Interventions that were common to all groups within a study were also allowed into the present review.

Exclusion criteria

Studies will be excluded if: (1) Do not use a standard assessment method for the entire duration of the study or do not have pre-assessment; (2) Use dextrose prolotherapy as a single evaluation method or in a control group; (3) Compare dextrose prolotherapy only to non-interventional treatments; (4) Are not related to the question in the review; (5) Are in a language other than English, Portuguese or Spanish; (6) Are incomplete, unpublished or inaccessible articles to the authors.

Types of variables/parameters analyzed

Data were collected regarding the authors, date, and country of publication, the number of participants analyzed, sex, age, body mass index, KOA grade, group design, time of interventions and assessments, main parameters analyzed, main results, conclusions, funding and reported limitations of each study.

Literature revision

The survey was conducted on January 25, 2021, without language restrictions, in the Medline database (via PubMed), EMBASE, and Database of the National Institute of Health (NIH).

Using the search tool, the authors selected MeSH terms from the most relevant publications to conduct a new search in order to obtain articles that could be included in this systematic review. In addition, a manual search of theses, meetings, references, study records, and contact with experts in the field was carried out.

Search strategy

The same keywords were used in all databases, respecting their heterogeneities (for example, Emtree terms and MeSH terms were mapped in Embase and Medline, respectively).

The search strategy was: ((Prolotherapy) OR (Dextrose) OR (glucose) OR (injection)) AND ((Knee) OR (patellar)) AND ((osteoarthritis*) OR (osteo-arthritis*) OR (Osteoarthrotic) OR (Osteoarthrosis*) OR (arthralgia) OR (degenerate*) OR (Degenerative joint disease) OR (gonarthrosis)) AND ((Pain Management) OR (Pain) OR (Chronic Pain)).

Data extraction

The data for each study were extracted independently by three authors (VSC, JVT, and WAM). Disagreements were resolved by consensus. If no consensus was reached, a fourth author (AM) would be consulted. Data extraction was carried out using the Rayyan tool ‒ https://rayyan.qcri.org/.¹⁰10 Ouzzani M, Hammady H, Fedorowicz Z, et al. Rayyan—a web and mobile app for systematic reviews. Syst Rev 2016;5(210).

All studies were analyzed according to their titles and abstracts, according to inclusion and exclusion criteria. If the eligibility criteria were met, the full text would be extracted. All studies eligible for qualitative analysis were described in the ""Results"" section.

Missing data were clarified by contacting the authors directly.

Data validation

Four authors (VSC, WAM, JVT, and AC) carried out the data validation through the discussion of the selected works. If no consensus was reached, a fifth author (LI) would be consulted.

The risk of bias for intervention-type studies was analyzed using the guidelines of the Cochrane Back Review Group (CBRG).¹¹11 Cochrane Methods Screening and Diagnostic Tests. Cochrane Handbook for Systematic Reviews of Diagnostic Test Accuracy [Internet]. Available from: http://methods.cochrane.org/sdt/handbook-dta-reviews [Accessed 2021 Apr 8th].
http://methods.cochrane.org/sdt/handbook...

Statistical analysis

If sufficient studies with a satisfactory quality were available, a metaanalysis would have been carried out with measures of heterogeneity and publication bias. Unfortunately, due to the heterogeneity of the data between eligible studies, no proper statistical analysis could be performed.

Results

Research flow

The electronic search found 5381 results for the keywords used. After removing 2000 duplicates and screening through abstract, the authors considered 16 potentially eligible studies for full-text analysis. Of these, 8 did not respect the exclusion criteria. Only 8 studies were considered eligible for qualitative analysis (Fig. 1).

Fig. 1
Research flow.

Quality of evidence

After reading the articles included in the systematic review, the following factors were analyzed to determine the level of evidence: randomization process, intended intervention (effect of assignment and adhering), missing outcome data, measurement of outcomes, and reported results. The summary of the risk of bias analysis for each of the included articles is shown in Figs. 2 and 3.

Fig. 2
Graph of risk analysis of general bias in articles.

Fig. 3
Summary of risk analysis of general articles bias.

A total of 5 articles were classified as having a low overall risk of bias, Rabago et al.¹²12 Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37. Rahimzadeh et al.¹³13 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702., ¹⁴14 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Zamanabadi MN, Alebouyeh MR. The effects of injecting intra-articular platelet-rich plasma or prolotherapy on pain score and function in knee osteoarthritis. Clin Interv Aging 2018;13:73–9. Sert et al.¹⁵15 Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17. and Shan Sit et al.¹⁶16 Shan Sit RWS, Wu RWK, Rabago D, Reeves KD, Chan DCC, Yip BHK, et al. Efficacy of intra-articular hypertonic dextrose (Prolotherapy) for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2020;18(3):235–42. The remaining 3, Rezasoltani et al.¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]. Hosseini et al.¹⁸18 Hypertonic dextrose vs intraarticular hyaluronic acid injections: A comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis Hosseini B, Taheri M, Ardekani RP, Moradi S, Mofrad MK. Periarticular hypertonic dextrose vs intraarticular hyaluronic acid injections: a comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis. Open Access Rheumatol Res Rev 2019;11:269–74. [Internet]. and Pishgahi et al.¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su... did not fall in this category, the first being high risk, whilst the other two were in some concerns category.¹²12 Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37., ¹³13 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702., ¹⁴14 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Zamanabadi MN, Alebouyeh MR. The effects of injecting intra-articular platelet-rich plasma or prolotherapy on pain score and function in knee osteoarthritis. Clin Interv Aging 2018;13:73–9., ¹⁵15 Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17., ¹⁶16 Shan Sit RWS, Wu RWK, Rabago D, Reeves KD, Chan DCC, Yip BHK, et al. Efficacy of intra-articular hypertonic dextrose (Prolotherapy) for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2020;18(3):235–42., ¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]., ¹⁸18 Hypertonic dextrose vs intraarticular hyaluronic acid injections: A comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis Hosseini B, Taheri M, Ardekani RP, Moradi S, Mofrad MK. Periarticular hypertonic dextrose vs intraarticular hyaluronic acid injections: a comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis. Open Access Rheumatol Res Rev 2019;11:269–74. [Internet]., ¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su...

All articles achieved a low risk of bias in the categories of the randomization process, selection of the reported results, and missing outcome data. Therefore, they met the determined criteria successfully with a randomized and concealed allocation sequence, a proper data analysis with a pre-specified plan, and all outcome data being disclosed.

Regarding the ""Bias from intended intervention (effect of assignment")", Hosseini et al.¹⁸18 Hypertonic dextrose vs intraarticular hyaluronic acid injections: A comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis Hosseini B, Taheri M, Ardekani RP, Moradi S, Mofrad MK. Periarticular hypertonic dextrose vs intraarticular hyaluronic acid injections: a comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis. Open Access Rheumatol Res Rev 2019;11:269–74. [Internet]. Rezasoltani et al.¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]. and Pishgahi et al.¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su... were determined to be on the ""some concerns"" rank, due to the lack of disclosure that would allow us to properly assign them a ""low bias"".¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]., ¹⁸18 Hypertonic dextrose vs intraarticular hyaluronic acid injections: A comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis Hosseini B, Taheri M, Ardekani RP, Moradi S, Mofrad MK. Periarticular hypertonic dextrose vs intraarticular hyaluronic acid injections: a comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis. Open Access Rheumatol Res Rev 2019;11:269–74. [Internet]., ¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su... The remainder did accomplish all the expected requirements.

Rezasoltani et al.¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]. was the only article classified as a non-low risk in the other three categories, being in the ""some concerns"" rank in ""Bias from the intended intervention (effect of adhering")" and ""Bias in the measurement of outcome"", because he did not design a double-blinded study, as he thought it would not be possible considering the nature of such intervention, and a lacked disclosure of relevant information concerning parts of his methodology.

Study characteristics

All included studies are complete, published, and have no conflict of interest. Doubts about the available data were supplemented by contacting the respective authors. The demographic characteristics collected are shown in Table 1; the methodological characteristics are shown in Table 2; the main results and conclusions are available in Table 3.

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Table 1
Demographic characteristics of the studies.

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Table 2
Methodological characteristics of the studies.

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Table 3
Main results and conclusions of the studies.

Demographics

When combined, the studies summed up to a total of 660 participants, whose KOA grade varied from 1 to 4 (measured by the Kellgren-Lawrence scale of the Radiological Society of America.²⁰20 Vaishya R, Pariyo GB, Agarwal AK, Vijay V. Non-operative management of osteoarthritis of the knee joint. J Clin Orthop Traum 2016;7(3):170–6. [Internet]. It should be noted that dropout rates were substantially low, not adding up to 1% of the total number. The gender distribution leaned heavily towards the female sex, as they accounted for 61% (n = 400) of the total population; among the D-PRL groups, this distribution was almost numerically identical (60%, n = 149), and the trend was also present in other intervention groups combined (61%, n=251).

Assessment times and interventions

Regarding the assessments, they ranged from 0 to 52 weeks, the majority of them performing their assessments in the first, third and sixth months, and only two continued up to the 52 weeks mark. Whilst the dextrose Intra-Articular Injections (IAI) were applied at weekly or monthly intervals in most articles, with the exception of Rahimzadeh et al., that only injected their patients once.¹³13 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702. Most of them performed a total of 3 injections,¹²12 Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37., ¹⁵15 Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17., ¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]., ¹⁸18 Hypertonic dextrose vs intraarticular hyaluronic acid injections: A comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis Hosseini B, Taheri M, Ardekani RP, Moradi S, Mofrad MK. Periarticular hypertonic dextrose vs intraarticular hyaluronic acid injections: a comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis. Open Access Rheumatol Res Rev 2019;11:269–74. [Internet]., ¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su... 2 articles using fewer¹³13 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702., ¹⁴14 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Zamanabadi MN, Alebouyeh MR. The effects of injecting intra-articular platelet-rich plasma or prolotherapy on pain score and function in knee osteoarthritis. Clin Interv Aging 2018;13:73–9. and 1 using more.¹⁶16 Shan Sit RWS, Wu RWK, Rabago D, Reeves KD, Chan DCC, Yip BHK, et al. Efficacy of intra-articular hypertonic dextrose (Prolotherapy) for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2020;18(3):235–42. Also, Sert et al. and Rabago et al. both carried out Extra-Articular Injections (EAI) in their patients alongside standard IAI.¹⁵15 Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17., ¹²12 Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37.

The dextrose injections varied slightly between studies both in glucose concentration and volume of solution injected. Most utilized 25% solutions, whilst others had a concentration below this mark, ranging from 12.5% to 20%. The most prevalent amount of volume injected was 10 mL, with a minority utilizing 5 mL.

Types of evaluation

WOMAC

The Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC) scale is a major form of assessment for the knee and hip osteoarthritis, consisting of 24 questions that assess the dimensions of pain, stiffness, and physical functionality. Originally, the scale varied between 0 and 96, with lower values indicating better predictors.²¹21 Copsey B, Thompson JY, Vadher K, Ali U, Dutton SJ, Fitzpatrick R, et al. Problems persist in reporting of methods and results for the WOMAC measure in hip and knee osteoarthritis trials. Qual life Res an Int J Qual life Asp Treat Care Rehabil 2019;28 (2):335–43. Hosseini et al.¹⁸18 Hypertonic dextrose vs intraarticular hyaluronic acid injections: A comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis Hosseini B, Taheri M, Ardekani RP, Moradi S, Mofrad MK. Periarticular hypertonic dextrose vs intraarticular hyaluronic acid injections: a comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis. Open Access Rheumatol Res Rev 2019;11:269–74. [Internet]. and Pishgahi et al.¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su... both used a variation of this scale, with higher values indicating better predictors, in contrast with the rest that used the standard version.

VAS. The Visual Analog Scale (VAS) is a validated scale for subjective evaluation of acute or chronic pain, with values ranging from 0 and 10, with 0 corresponding to "no pain" and 10 to "the worst pain you have ever felt".²²22 Delgado DA, Lambert BS, Boutris N, McCulloch PC, Robbins AB, Moreno MR, et al. Validation of digital visual analog scale pain scoring with a traditional paper-based visual analog scale in adults. J Am Acad Orthop Surg Glob Res Rev 2018;2(3):e088., ²³23 Boonstra AM, Schiphorst HR, Reneman MF, Posthumus JB, Stewart RE. Reliability and validity of the visual analogue scale for disability in patients with chronic musculoskeletal pain Boonstra, Anne M.; Schiphorst Preuper, Henrica R.; Reneman, Michiel F.; Posthumus, Jitze B.; Stewart, Roy E Int J Rehabil Res 2008;31 (2):165–9.

SF-36

The Short Form-36 (SF-36) health survey is a widely used self-administered generic health-related quality of life measure, which includes eight scales that measure general health, physical functioning, physical role, bodily pain, vitality, and emotional role, social functioning, and mental health.²⁴24 Ware JEJ. SF-36 health survey update. Spine 2000;25(24):3130–9. (Phila Pa 1976).

KPS

The Knee Pain Scale (KPS) is a validated questionnaire assessing knee pain frequency (0 to 4 ordinal scale) and severity (0 to 5 ordinal scale), with higher values indicating worse symptoms.²⁵25 Rejeski WJ, Ettinger WHJ, Shumaker S, Heuser MD, James P, Monu J, et al. The evaluation of pain in patients with knee osteoarthritis: the knee pain scale. J Rheumatol 1995;22(6):1124–9.

EuroQol-5D

The EuroQol-5D is a self-report questionnaire used to measure health-related quality of life, which consists of two sections. The first section (EQ-5D) consists of five questions related to mobility, self-care, usual activities, pain/discomfort, and anxiety/depression. The second part (EQ-VAS) consists of a 20 cm vertical Visual Analogue Scale (VAS) ranging from 100 (best imaginable health state) to 0 (worst imaginable health state).²⁶26 Fransen M, Edmonds J. Reliability and validity of the EuroQol in patients with osteoarthritis of the knee. Rheumatology 1999;38(9):807–13. [Internet].

KOOS

The Knee injury and Osteoarthritis Outcome Score (KOOS) is a knee-specific scale developed in 1995 to evaluate the opinion of patients about their knees and associated problems. It evaluates both short-term and long-term consequences of a knee injury, unlike the WOMAC scale, which focuses only on the long-term consequences. It consists of 42 items in 5 separately scored subscales; Pain, other Symptoms, Function in Daily Living (ADL), Function in Sport and Recreation (Sport/Rec), and knee-related Quality of Life (QOL).²⁷27 Roos EM, Lohmander LS. The knee injury and osteoarthritis outcome score (KOOS): from joint injury to osteoarthritis. Health Qual Life Outcomes 2003;1:64.

Scale prevalence

The most prevalent evaluation method found in the present review was the WOMAC scale present in three-quarters of the studies; the VAS scale was also significantly pervasive, as half of the studies used it. Overall, every article in this review had at least one of these 2 scales and, in some cases, both. Other rarer evaluation methods, such as KOOS, Euro-Qol-5D, KPS and SF-36, were used in one article each, respectively: Rezasoltani et al.¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]. Shan Sit et al.¹⁶16 Shan Sit RWS, Wu RWK, Rabago D, Reeves KD, Chan DCC, Yip BHK, et al. Efficacy of intra-articular hypertonic dextrose (Prolotherapy) for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2020;18(3):235–42. and Sert et al.¹⁵15 Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17. It should be noted that Rahimzadeh et al.¹³13 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702. also analyzed the range of motion separately.

Main results

No study reported statistically significant differences between groups at the baseline assessment. Furthermore, it should be noted that most articles did not use a control group but focused solely on analyzing D-PRL in comparison with other types of interventions and their respective baselines.

Pertaining to the D-PRL interventions, the main focus of this review, the totality of articles analyzed showed improvement in the D-PRL group in comparison to the baseline. Of the articles here included, 6 reached this conclusion by means of the WOMAC scale¹²12 Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37., ¹³13 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702., ¹⁴14 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Zamanabadi MN, Alebouyeh MR. The effects of injecting intra-articular platelet-rich plasma or prolotherapy on pain score and function in knee osteoarthritis. Clin Interv Aging 2018;13:73–9., ¹⁵15 Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17., ¹⁶16 Shan Sit RWS, Wu RWK, Rabago D, Reeves KD, Chan DCC, Yip BHK, et al. Efficacy of intra-articular hypertonic dextrose (Prolotherapy) for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2020;18(3):235–42., ¹⁸18 Hypertonic dextrose vs intraarticular hyaluronic acid injections: A comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis Hosseini B, Taheri M, Ardekani RP, Moradi S, Mofrad MK. Periarticular hypertonic dextrose vs intraarticular hyaluronic acid injections: a comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis. Open Access Rheumatol Res Rev 2019;11:269–74. [Internet]., ¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su... and, again, 6 used had the same finding through the VAS assessment method.¹³13 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702., ¹⁵15 Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17., ¹⁶16 Shan Sit RWS, Wu RWK, Rabago D, Reeves KD, Chan DCC, Yip BHK, et al. Efficacy of intra-articular hypertonic dextrose (Prolotherapy) for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2020;18(3):235–42., ¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]., ¹⁸18 Hypertonic dextrose vs intraarticular hyaluronic acid injections: A comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis Hosseini B, Taheri M, Ardekani RP, Moradi S, Mofrad MK. Periarticular hypertonic dextrose vs intraarticular hyaluronic acid injections: a comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis. Open Access Rheumatol Res Rev 2019;11:269–74. [Internet]., ¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su... Other less common assessment methods used by the articles¹²12 Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37., ¹³13 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702., ¹⁵15 Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17., ¹⁶16 Shan Sit RWS, Wu RWK, Rabago D, Reeves KD, Chan DCC, Yip BHK, et al. Efficacy of intra-articular hypertonic dextrose (Prolotherapy) for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2020;18(3):235–42., ¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]. also determined similar improvements.

Saline

In all studies that compared D-PRL with saline injections, the D-PRL group presented better results than its counterpart. Those using the 0‒ 96 points WOMAC scale¹²12 Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37., ¹⁵15 Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17., ¹⁶16 Shan Sit RWS, Wu RWK, Rabago D, Reeves KD, Chan DCC, Yip BHK, et al. Efficacy of intra-articular hypertonic dextrose (Prolotherapy) for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2020;18(3):235–42. found statistically significant differences between groups at the final assessment, ranging from 7.73 to 14 points on the scale. Concerning the findings in the VAS, the difference between groups varied from 1.06 to 3.5 points on a 0‒10 cm scale.¹⁵15 Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17., ¹⁶16 Shan Sit RWS, Wu RWK, Rabago D, Reeves KD, Chan DCC, Yip BHK, et al. Efficacy of intra-articular hypertonic dextrose (Prolotherapy) for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2020;18(3):235–42.

Platelet-rich plasma

Both Rahimzadeh et al.¹⁴14 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Zamanabadi MN, Alebouyeh MR. The effects of injecting intra-articular platelet-rich plasma or prolotherapy on pain score and function in knee osteoarthritis. Clin Interv Aging 2018;13:73–9. and Pishgahi et al.¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su... found PRP to be superior to the dextrose injection. They used the 0‒96 point WOMAC scale to quantify their findings, and the difference between groups at the final assessment was 7.3 points in one article and 26.66 in the other.¹⁴14 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Zamanabadi MN, Alebouyeh MR. The effects of injecting intra-articular platelet-rich plasma or prolotherapy on pain score and function in knee osteoarthritis. Clin Interv Aging 2018;13:73–9., ¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su...

Hyaluronic acid

Hosseini et al. and Rezasoltani et al.¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]. compared HA and D-PRL and they showed conflicting results. The first did not find one method to be superior over the other according to the comparison of the means on the VAS assessment method, whilst the latter found D-PRL to be more effective on the same scale.¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]., ¹⁸18 Hypertonic dextrose vs intraarticular hyaluronic acid injections: A comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis Hosseini B, Taheri M, Ardekani RP, Moradi S, Mofrad MK. Periarticular hypertonic dextrose vs intraarticular hyaluronic acid injections: a comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis. Open Access Rheumatol Res Rev 2019;11:269–74. [Internet]. Rezasoltani et al.¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]. demonstrated an almost 4 point difference between the groups on a 0‒10 scale, characterizing it as a strong finding.

Botulinum neurotoxin A

Rezasoltani et al.¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]. performed the comparison of dextrose with neurotoxin A through the VAS assessment method and found no intervention to be superior over the other, whilst both are considered efficient at treating KOA. The means of their final assessment both sit closely at around 2‒3 VAS points with overlapping confidence intervals.

Erythropoietin

Rahimzadeh et al.¹³13 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702. sought to analyze this method and found erythropoietin to be more efficient than dextrose, with a 2 point difference in the VAS assessment method.

Autologous conditioned serum

Pishgahi et al.¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su... found the autologous conditioned serum to be better than dextrose with a 28.3 difference in an adapted VAS (0‒96) and a 37.45 difference in the WOMAC scale.

Non-injection interventions

Physical therapy and exercise programs were studied in two articles and found to be worse than dextrose in both.¹²12 Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37., ¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]. Also, pulsed radiofrequency was analyzed by Rahimzadeh et al.¹³13 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702. and showed good results, despite having the same efficacy as D-PRL.

Limitations reported by the studies

The most common limitations reported in the analyzed studies were the small sample size and the limited timeframe for patient assessment, which may have decreased the statistical power of the studies, and the results obtained may not be sufficiently representative of the general population (Table 4). Other reported limitations mostly revolve around demographic and methodological matters (e.g., a higher number of female patients, the relative youth of the patients, lack of control group and usual care group, lack of literature, and the use of subjective assessments).

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Table 4
Limitations reported by the studies.

Discussion

After screening 1381 articles, the authors found a total of 8 that suitably compared intra-articular injections in an RCT setting. Of such, 5 were able to meet the low risk of bias criteria, whilst the other 3 especially stumbled on their trial's blinding. Nevertheless, the results that these articles presented were hardly quantitatively comparable with one another, given the high heterogeneity between study groups, the lack of a standard dextrose concentration in the injection, the different assessment times, and the use of adapted scales for each language/region that often came along with other numerical modifications. With all these limitations and lack of standardization, the intended meta-analysis was unfortunately made unviable, as no statistical comparison between results could be drawn given this current state of the literature.

On the other hand, a distinct qualitative analysis was executed aimed at continuing the investigation. Overall, the results observed after comparing D-PRL with other intra-articular injections have been mixed, which could be attributed to demographic questions, methodological differences, and the limited number of studies on the subject. Even the most recurrent comparisons in the present review lacked a meaningful number of articles and a satisfactory total sample size.

The only strong finding common to most articles was that the D-PRL group showed a significant improvement between baseline and postassessments, in a way, justifying the relative prevalence of this treatment method in medical center.¹²12 Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37., ¹³13 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702., ¹⁴14 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Zamanabadi MN, Alebouyeh MR. The effects of injecting intra-articular platelet-rich plasma or prolotherapy on pain score and function in knee osteoarthritis. Clin Interv Aging 2018;13:73–9., ¹⁵15 Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17., ¹⁶16 Shan Sit RWS, Wu RWK, Rabago D, Reeves KD, Chan DCC, Yip BHK, et al. Efficacy of intra-articular hypertonic dextrose (Prolotherapy) for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2020;18(3):235–42., ¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]., ¹⁸18 Hypertonic dextrose vs intraarticular hyaluronic acid injections: A comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis Hosseini B, Taheri M, Ardekani RP, Moradi S, Mofrad MK. Periarticular hypertonic dextrose vs intraarticular hyaluronic acid injections: a comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis. Open Access Rheumatol Res Rev 2019;11:269–74. [Internet]., ¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su... This could be attributed to its known but poorly understood inflammatory effects and local healing stimulation.¹²12 Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37. Though it should be noted that these articles lack a proper control group which might be detrimental to the previous assertion.

D-PRL was also significantly better than saline injections according to all articles that investigated this comparison, representing a strong finding as well.¹²12 Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37., ¹⁵15 Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17., ¹⁶16 Shan Sit RWS, Wu RWK, Rabago D, Reeves KD, Chan DCC, Yip BHK, et al. Efficacy of intra-articular hypertonic dextrose (Prolotherapy) for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2020;18(3):235–42. Though it should be noted that a saline control plays the role of a placebo more than an established medical intervention, and it might not be the best reference for comparisons. Another aspect that should be considered is that their total sample size sum could barely break the 3 digits mark, representing a limitation to the strength of such results. Other concerns could be raised about the representativeness of study samples, as they were mostly composed of caucasian women of a few different nationalities. The matter of heterogeneity was also an issue, as each study adopted a different KOA grade for investigation. This could possibly compromise the comparability of articles due to the fact that individuals with different grades of KOA may have different responses to the same intervention and a heterogeneous perception of the pain improvement or lack thereof.

Contrasting with previously stated results, PRP was described as being significantly superior to D-PRL by two articles, being the main representative of an opposite trend in this review.¹1 Losina E, Paltiel AD, Weinstein AM, Yelin E, Hunter DJ, Chen SP, et al. Lifetime medical costs of knee osteoarthritis management in the United States: impact of extending indications for total knee arthroplasty. Arthritis Care Res 2015;67(2):203-15. (Hoboken)., ⁷7 Moher D, Shamseer L, Clarke M, Ghersi D, Liberati A, Petticrew M, et al. Preferred reporting items for systematic review and meta-analysis protocols (PRISMA-P) 2015 statement. Rev Esp Nutr Humana Diet 2016;20(2):148-60. The main rationale behind the use of PRP is that platelets are capable of producing growth factors that stimulate stem cells and play a role in tissue regeneration, which could render it more effective than a dextrose injection. However, it is imperative to make other considerations when comparing the two, considering that PRP demands a far greater technique with its preparation and application, as well as brings higher costs.²⁸28 Bendich I, Rubenstein WJ, Cole BJ, Ma CB, Feeley BT, Lansdown DA. What is the appropriate price for platelet-rich plasma injections for knee osteoarthritis? A Cost-effectiveness analysis based on evidence from level i randomized controlled trials. Arthrosc J Arthrosc Relat Surg 2020;36(7):1983–91. e1.

In addition, erythropoietin and Autologous Serum Comparisons (ACS) all found dextrose to be inferior. The physiology behind ACS is that the inhibition of IL-1 and its inflammatory effects produces sufficient symptom relief, whilst erythropoietin promotes chondrocyte proliferation and angiogenesis.²⁸28 Bendich I, Rubenstein WJ, Cole BJ, Ma CB, Feeley BT, Lansdown DA. What is the appropriate price for platelet-rich plasma injections for knee osteoarthritis? A Cost-effectiveness analysis based on evidence from level i randomized controlled trials. Arthrosc J Arthrosc Relat Surg 2020;36(7):1983–91. e1., ²⁹29 Fu XN, Li HW, Du N, Liang X, He SH, Guo KJ, et al. Erythropoietin enhances meniscal regeneration and prevents osteoarthritis formation in mice. Am J Transl Res 2020;12 (10):6464–77. These orthobiologics, despite being newer, have a better explained mechanism of action, which could, in turn, justify these good results. Although, it should be noted that all the authors’ findings came from only one article each.¹³13 Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702., ¹⁹19 Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864.
https://www.embase.com/search/results?su... Therefore, such conclusions should be taken with caution.

Hyaluronic acid was analyzed by two studies that conflicted with each other in defining whether or not it was superior to dextrose,¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]., ¹⁸18 Hypertonic dextrose vs intraarticular hyaluronic acid injections: A comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis Hosseini B, Taheri M, Ardekani RP, Moradi S, Mofrad MK. Periarticular hypertonic dextrose vs intraarticular hyaluronic acid injections: a comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis. Open Access Rheumatol Res Rev 2019;11:269–74. [Internet]. exemplifying a lack of consensus on the matter. Another study intended to investigate Botulinum toxin type A and concluded that it was considered just as effective as dextrose. It is hypothesized that the blocking of neuropeptides release can exert anti-inflammatory effects.¹⁷17 Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet]. Nevertheless, if this equivalence with dextrose is supported by more studies, then the difference in costs may not justify this type of injection.

A previous review also faced a similar scenario to ours. Arias-Vasquez et al., cited in the introduction, described how D-PRL compared to other types of injections and treatment methods, such as ozone therapy.⁴4 Arias-Vázquez PI, Tovilla-Zárate CA, Legorreta-Ramírez BG, Burad Fonz W, MagañaRicardez D, González-Castro TB, et al. Prolotherapy for knee osteoarthritis using hypertonic dextrose vs other interventional treatments: systematic review of clinical trials. Adv Rheumatol 2019;59(1):39.. (London, England). Concerning intra-articular injections for the treatment of KOA, his results converged with ours significantly. Therefore, the authors may conclude that there is a common trend on the matter.⁴4 Arias-Vázquez PI, Tovilla-Zárate CA, Legorreta-Ramírez BG, Burad Fonz W, MagañaRicardez D, González-Castro TB, et al. Prolotherapy for knee osteoarthritis using hypertonic dextrose vs other interventional treatments: systematic review of clinical trials. Adv Rheumatol 2019;59(1):39.. (London, England).

Study design proposal

Given the current state of the literature on the subject, this research group would like to propose a standardization that, in our eyes, could avert common limitations and favor future meta-analyses and comparisons of results.

To start, a standard dextrose concentration and volume for the intraarticular injections would be desirable, the authors suggest 10%‒25% and 5‒10 mL considering that these are already the most prevalent with other diverging injections being in close proximity. On the matter of assessment times, an article should also contain at least the baseline and the 1st, 3rd, 6th months, as per usual, and, for long-term analysis, the 9th and 12th. As evidenced by Rabago et al.¹²12 Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37. all articles should be capable of performing a double-blinded clinical trial, as the participants, outcome assessors, injectors, and the core investigators could be blinded. Randomization should, as usual, not be neglected.

Additionally, all articles should contemplate both VAS and WOMAC assessment methods, paying close attention to how regional variants of these scales can carry with them changes that could compromise comparability between studies. It would also be valid to use a more objective measuring of pain, such as algometry.³⁰30 Pelfort X, Torres-Claramunt R, Sánchez-Soler JF, Hinarejos P, Leal-Blanquet J, Valverde D, et al. Pressure algometry is a useful tool to quantify pain in the medial part of the knee: an intra- and inter-reliability study in healthy subjects. Orthop Traumatol Surg Res 2015;101(5):559–63. The question of study demographics must also be considered with high regard, as, at the moment, the populations appear to be concentrated in but a couple of areas of the globe in few different ethnic groups. Another concern is raised with the lack of data on participants, especially comorbidities, given that these would provide insightful info on possible confounding factors. Concerning the injections, they should all ideally follow an identical method that uses the same site, and with a common frequency of injections, the authors suggest a one week or one month gap between the injections. The results must also be presented numerically and integrally so that future meta-analyses do not lose parts of the data due to these omissions.

This systematic review's limitations

Possible limitations of the systematic review could be the lack of articles on the matter and that the present results might have been influenced by the use of different versions of assessment methods between studies.

Conclusion

It is surprising that after decades of use, the evidence available in the literature is still limited to this handful of articles. Overall, it is not possible at the moment to say that D-PRL is better or worse than any of its counterparts. So far, the only assertion backed by the articles is that dextrose is capable of providing significant improvement between baseline and post-assessments and when compared to saline injection controls. This should be an immediate call to arms for new clinical trials to be developed in the field, considering the study design proposal included in the present discussion.

Systematic review registration numberRegistered by the Prospective Register of Systematic Reviews (PROSPERO), identification code CRD42021243755.
Funding

No funding.
Availability of data and materials

The authors confirm that the data supporting the findings of this study are available within the article [and/or] its supplementary materials.
Consent for publication

Not applicable.
Ethics approval and consent to participate

Not applicable.
Ethics approval and consent to participate

Not applicable.
Consent for publication

Not applicable.
Availability of data and materials

The authors confirm that the data supporting the findings of this study are available within the article [and/or] its supplementary materials.

Acknowledgment

The authors are thankful to Justin Axel-Berg for the English corrections and Rossana V. Mendoza Lopez for the statistical analysis.

References

¹
Losina E, Paltiel AD, Weinstein AM, Yelin E, Hunter DJ, Chen SP, et al. Lifetime medical costs of knee osteoarthritis management in the United States: impact of extending indications for total knee arthroplasty. Arthritis Care Res 2015;67(2):203-15. (Hoboken).
²
Cui A, Li H, Wang D, Zhong J, Chen Y, Lu H. Global, regional prevalence, incidence and risk factors of knee osteoarthritis in population-based studies. EClinicalMedicine 2020;29-30:100587. [Internet]Dec 1 [cited 2021 Apr 8]Available from: https://linkinghub.elsevier.com/retrieve/pii/S258953702030331X
» https://linkinghub.elsevier.com/retrieve/pii/S258953702030331X
³
The Osteoarthritis Action Alliance (OAAA). Cost of osteoarthritis – osteoarthritis action alliance [Internet]. Available from: https://oaaction.unc.edu/policy/cost-of-osteoarthritis/ [Accessed 2021 Apr 8th].
» https://oaaction.unc.edu/policy/cost-of-osteoarthritis/
⁴
Arias-Vázquez PI, Tovilla-Zárate CA, Legorreta-Ramírez BG, Burad Fonz W, MagañaRicardez D, González-Castro TB, et al. Prolotherapy for knee osteoarthritis using hypertonic dextrose vs other interventional treatments: systematic review of clinical trials. Adv Rheumatol 2019;59(1):39.. (London, England).
⁵
Hackett GS. Prolotherapy in whiplash and low back pain. Postgrad Med 1960;27 (June):214-9.
⁶
Jensen KT, Rabago DP, Best TM, Patterson JJ, Vanderby RJ. Response of knee ligaments to prolotherapy in a rat injury model. Am J Sports Med 2008;36(7):1347-57.
⁷
Moher D, Shamseer L, Clarke M, Ghersi D, Liberati A, Petticrew M, et al. Preferred reporting items for systematic review and meta-analysis protocols (PRISMA-P) 2015 statement. Rev Esp Nutr Humana Diet 2016;20(2):148-60.
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Tao H, Yang L, Ping A, Quan L, Yang X, Zhang Y, et al. Interpretation of AMSTAR 2: a critical appraisal tool for systematic reviews that include randomized or non-randomized studies of healthcare interventions. Chin J Evidenc Based Med 2018;18(1):101–8.
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University of Illinois at Chicago’s library of the health sciences at Peoria. What is the PICO Model?[Internet]. Available from: https://researchguides.uic.edu/cphp?g=252338&p=3954402 [Accessed 2021 Apr 8th].
» https://researchguides.uic.edu/cphp?g=252338&p=3954402
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Ouzzani M, Hammady H, Fedorowicz Z, et al. Rayyan—a web and mobile app for systematic reviews. Syst Rev 2016;5(210).
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Cochrane Methods Screening and Diagnostic Tests. Cochrane Handbook for Systematic Reviews of Diagnostic Test Accuracy [Internet]. Available from: http://methods.cochrane.org/sdt/handbook-dta-reviews [Accessed 2021 Apr 8th].
» http://methods.cochrane.org/sdt/handbook-dta-reviews
¹²
Rabago D, Patterson JJ, Mundt M, Kijowski R, Grettie J, Segal NA, et al. Dextrose prolotherapy for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2013;11(3):229–37.
¹³
Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intraarticular pulsed radiofrequency on pain level reduction and range of motion improvement in primary osteoarthritis of knee. J Res Med Sci 2014;19(8):696–702.
¹⁴
Rahimzadeh P, Imani F, Faiz SHR, Entezary SR, Zamanabadi MN, Alebouyeh MR. The effects of injecting intra-articular platelet-rich plasma or prolotherapy on pain score and function in knee osteoarthritis. Clin Interv Aging 2018;13:73–9.
¹⁵
Sert AT, Sen EI, Esmaeilzadeh S, Ozcan E. The effects of dextrose prolotherapy in symptomatic knee osteoarthritis: a randomized controlled study. J Altern Complement Med 2020;26(5):409–17.
¹⁶
Shan Sit RWS, Wu RWK, Rabago D, Reeves KD, Chan DCC, Yip BHK, et al. Efficacy of intra-articular hypertonic dextrose (Prolotherapy) for knee osteoarthritis: a randomized controlled trial. Ann Fam Med 2020;18(3):235–42.
¹⁷
Rezasoltani Z, Azizi S, Najafi S, Sanati E, Dadarkhah A, Abdorrazaghi F. Physical therapy, intra-articular dextrose prolotherapy, botulinum neurotoxin, and hyaluronic acid for knee osteoarthritis: randomized clinical trial. Int J Rehabil Res 2020;43(3):219–27. [Internet].
¹⁸
Hypertonic dextrose vs intraarticular hyaluronic acid injections: A comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis Hosseini B, Taheri M, Ardekani RP, Moradi S, Mofrad MK. Periarticular hypertonic dextrose vs intraarticular hyaluronic acid injections: a comparison of two minimally invasive techniques in the treatment of symptomatic knee osteoarthritis. Open Access Rheumatol Res Rev 2019;11:269–74. [Internet].
¹⁹
Pishgahi A, Abolhasan R, Shakouri SK, Zangbar MSS, Dareshiri S, Kiyakalayeh SR, et al. Effect of dextrose prolotherapy, platelet rich plasma and autologous conditioned serum on knee osteoarthritis: a randomized clinical trial. Iran J Allergy Asthma Immunol 2020;19(3):243–52. [Internet]Available from: https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864
» https://www.embase.com/search/results?subaction=viewrecord&id=L2007309864&from=export U2 - L2007309864
²⁰
Vaishya R, Pariyo GB, Agarwal AK, Vijay V. Non-operative management of osteoarthritis of the knee joint. J Clin Orthop Traum 2016;7(3):170–6. [Internet].
²¹
Copsey B, Thompson JY, Vadher K, Ali U, Dutton SJ, Fitzpatrick R, et al. Problems persist in reporting of methods and results for the WOMAC measure in hip and knee osteoarthritis trials. Qual life Res an Int J Qual life Asp Treat Care Rehabil 2019;28 (2):335–43.
²²
Delgado DA, Lambert BS, Boutris N, McCulloch PC, Robbins AB, Moreno MR, et al. Validation of digital visual analog scale pain scoring with a traditional paper-based visual analog scale in adults. J Am Acad Orthop Surg Glob Res Rev 2018;2(3):e088.
²³
Boonstra AM, Schiphorst HR, Reneman MF, Posthumus JB, Stewart RE. Reliability and validity of the visual analogue scale for disability in patients with chronic musculoskeletal pain Boonstra, Anne M.; Schiphorst Preuper, Henrica R.; Reneman, Michiel F.; Posthumus, Jitze B.; Stewart, Roy E Int J Rehabil Res 2008;31 (2):165–9.
²⁴
Ware JEJ. SF-36 health survey update. Spine 2000;25(24):3130–9. (Phila Pa 1976).
²⁵
Rejeski WJ, Ettinger WHJ, Shumaker S, Heuser MD, James P, Monu J, et al. The evaluation of pain in patients with knee osteoarthritis: the knee pain scale. J Rheumatol 1995;22(6):1124–9.
²⁶
Fransen M, Edmonds J. Reliability and validity of the EuroQol in patients with osteoarthritis of the knee. Rheumatology 1999;38(9):807–13. [Internet].
²⁷
Roos EM, Lohmander LS. The knee injury and osteoarthritis outcome score (KOOS): from joint injury to osteoarthritis. Health Qual Life Outcomes 2003;1:64.
²⁸
Bendich I, Rubenstein WJ, Cole BJ, Ma CB, Feeley BT, Lansdown DA. What is the appropriate price for platelet-rich plasma injections for knee osteoarthritis? A Cost-effectiveness analysis based on evidence from level i randomized controlled trials. Arthrosc J Arthrosc Relat Surg 2020;36(7):1983–91. e1
²⁹
Fu XN, Li HW, Du N, Liang X, He SH, Guo KJ, et al. Erythropoietin enhances meniscal regeneration and prevents osteoarthritis formation in mice. Am J Transl Res 2020;12 (10):6464–77.
³⁰
Pelfort X, Torres-Claramunt R, Sánchez-Soler JF, Hinarejos P, Leal-Blanquet J, Valverde D, et al. Pressure algometry is a useful tool to quantify pain in the medial part of the knee: an intra- and inter-reliability study in healthy subjects. Orthop Traumatol Surg Res 2015;101(5):559–63.

Publication Dates

Publication in this collection
06 July 2022
Date of issue
2022

History

Received
23 Sept 2021
Accepted
07 Feb 2022

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.

[1] Systematic review registration numberRegistered by the Prospective Register of Systematic Reviews (PROSPERO), identification code CRD42021243755.

[2] Funding

No funding.

[3] Availability of data and materials

The authors confirm that the data supporting the findings of this study are available within the article [and/or] its supplementary materials.

[4] Consent for publication

Not applicable.

[5] Ethics approval and consent to participate

Not applicable.

[6] Ethics approval and consent to participate

Not applicable.

[7] Consent for publication

Not applicable.

[8] Availability of data and materials

The authors confirm that the data supporting the findings of this study are available within the article [and/or] its supplementary materials.

Author (publication year, country)	Baseline assessment main results (score range) (SD)	Post-intervention last assessment main results (score range) (SD)	Study conclusions	Funding
Delgado et al.²²22 Delgado DA, Lambert BS, Boutris N, McCulloch PC, Robbins AB, Moreno MR, et al. Validation of digital visual analog scale pain scoring with a traditional paper-based visual analog scale in adults. J Am Acad Orthop Surg Glob Res Rev 2018;2(3):e088.	1. WOMAC Pain level (0‒20) (p=0.76) a. D-PRL: 14.6 ± 1.4 b. PRP: 14.8 ± 1.5 2. WOMAC Stiffness (0‒8) (p= 0.73) a. D-PRL: 5.2 ± 1.3 b. PRP: 5.4 ± 1.2 3. WOMAC Functional limitations (0‒68) (p=0.81) a. D-PRL: 43.3 ± 6.7 b. PRP: 47.8 ± 4.7 4. Total WOMAC (0‒96) (p=0.75) a. D-PRL: 67.1 ± 7.9 b. PRP: 67.9 ± 7.3	6 months: a. D-PRL: 14.6 ± 1.4 b. PRP: 14.8 ± 1.5 2. WOMAC Stiffness (0‒8) (p =0.73) a. D-PRL: 5.2 ± 1.3 b. PRP: 5.4 ± 1.2 3. WOMAC Functional limitations (0‒68) (p=0.81) a. D-PRL: 43.3 ± 6.7 b. PRP: 47.8 ± 4.7 4. Total WOMAC (0‒96) (p= 0.75) a. D-PRL: 67.1 ± 7.9 b. PRP: 67.9 ± 7.3	PRP was more effective when compared to D-PRL and no significant side effects was observed	Not reported
Boonstra et al.²³23 Boonstra AM, Schiphorst HR, Reneman MF, Posthumus JB, Stewart RE. Reliability and validity of the visual analogue scale for disability in patients with chronic musculoskeletal pain Boonstra, Anne M.; Schiphorst Preuper, Henrica R.; Reneman, Michiel F.; Posthumus, Jitze B.; Stewart, Roy E Int J Rehabil Res 2008;31 (2):165–9.	1. Total WOMAC (0‒96) (p=0.761) a. D-PRL: 68.7 (11.4) b. Saline: 69.2 (17.6) c. CG: 68.9 (11.9) 2. VAS Pain activity (0‒10) (p=0.045) a. D-PRL: 7.2 (1.0) b. Saline: 7.4 (2.0) c. CG: 7.0 (0.9) 3. SF-36 PCS (0‒100) (p=0.159) a. D-PRL: 34.1 (8.9) b. Saline: 30 (7.4) c. CG: 35 (9.3)	18 weeks: 1. Total WOMAC (0‒96) a. D-PRL: 32.7 (11.6) b. Saline: 46.7 (13.5) c. CG: 59.8 (10.7) 2. VAS Pain activity (0‒10) a. D-PRL: 1.1 (1.9) b. Saline: 4.6 (1.8) c. CG: 4.5 (2.0) 3. SF-36 PCS (0‒100) a. D-PRL: 48.5 (7.5) b. Saline: 39.6 (8.5) c. CG: 41.1 (11.7)	D-PRL may become a promising method for KOA treatment	Scientific Research Projects Unit of the Istanbul University (ID: 41877)
Rejeski et al.²⁵25 Rejeski WJ, Ettinger WHJ, Shumaker S, Heuser MD, James P, Monu J, et al. The evaluation of pain in patients with knee osteoarthritis: the knee pain scale. J Rheumatol 1995;22(6):1124–9.	1. VAS Subjective pain (0‒10) (p=0.125) a. D-PRL: 6.5 (1.3) b. Physical therapy: 7.2 (1.1) c. Botulinum neurotoxin: 6.6 (1.6) d. HA: 6.7 (0.7) 2. KOOS (0-100) (p=0.111) a. D-PRL: 99.4 (13.7) b. Physical therapy: 94 (15.1) c. Botulinum neurotoxin: 93.3 (16.8) d. HA: 89.9 (14.3)	3 months: 1. VAS Subjective pain: Botulinum neurotoxin and D-PRL were better pain management therapies, while HA was the least efficient method 2. KOOS: Botulinum neurotoxin and D-PRL scores were reduced more than physical therapy (non-statistically significant difference), while HA was the least efficient method	D-PRL or botulinum neurotoxin type A could be effective first-line treatments. Physical therapy can be useful if patient is not willing to continue regular therapeutic programs	None
Vaishya et al.²⁰20 Vaishya R, Pariyo GB, Agarwal AK, Vijay V. Non-operative management of osteoarthritis of the knee joint. J Clin Orthop Traum 2016;7(3):170–6. [Internet].	1. WOMAC Pain level (p =0.73) a. D-PRL: 66.8 (14.9) b. Saline: 62.7 (14.3) c. EP: 63.2 (13.1) 2. WOMAC Stiffness (p=0.49) a. D-PRL: 57.1 (19.9) b. Saline: 53.9 (14.2) c. EP: 55.3 (18.0) 3. WOMAC Functional limitations (p=0.73) a. D-PRL: 65.2 (15.8) b. Saline: 67.6 (17.5) c. EP: 61.9 (12.7) 4. Total WOMAC (p =0.73) a. D-PRL: 63.1 (15.0) b. Saline: 62.7 (14.3) c. EP: 60.5 (11.3)	52 weeks: 1. WOMAC Pain level mean score change a. D-PRL: 14.18 (SE 3.62) b. Saline: 7.38 (SE 3.67) c. EP: 9.24 (SE 3.63) 2. WOMAC Stiffness mean score change a. D-PRL: 15.55 (SE 4.66) b. Saline: 9.97 (SE 3.67) c. EP: 8.31 (SE 4.68) 3. WOMAC Functional limitations mean score change (p < 0.001) a. D-PRL: 16.25 (SE 3.39) b. Saline: 5.46 (SE 3.44) c. EP: 7.31 (SE 3.4) 4. Total WOMAC mean score change (p= 0.022) a. D-PRL: 15.32 (SE 3.32) b. Saline: 7.59 (SE 3.36) c. EP: 8.24 (SE 3.33)	D-PRL was more effective when compared to Saline and EP	National Institutes of Health: National Center for Complementary and Alternative Medicine (5K23AT001879-02)
Copsey et al.²¹21 Copsey B, Thompson JY, Vadher K, Ali U, Dutton SJ, Fitzpatrick R, et al. Problems persist in reporting of methods and results for the WOMAC measure in hip and knee osteoarthritis trials. Qual life Res an Int J Qual life Asp Treat Care Rehabil 2019;28 (2):335–43.	1. VAS Subjective pain (0‒10) (p=0.349) a. D-PRL: 7.11 (1.03) b. Erythropoietin: 6.65 (0.96) c. Pulsed radiofrequency: 7.08 (1.08) 2. ROM (p=0.339) a. D-PRL: 101 (1.36) b. Erythropoietin: 98.08 (1.60) c. Pulsed radiofrequency: 95 (1.97)	12 weeks: 1. VAS Subjective pain (0‒10) (p= 0.002) a. D-PRL: 5.53 (1.60) b. Erythropoietin: 3.50 (1.23) c. Pulsed radiofrequency: 5.50 (1.93) 2. ROM (p=0.039) a. D-PRL: 113 (2.16) b. Erythropoietin: 123 (1.53) c. Pulsed radiofrequency: 113 (2.16)	Erythropoietin was more effective than D-PRL or pulsed radiofrequency	Not reported
Fransen and Edmonds²⁶26 Fransen M, Edmonds J. Reliability and validity of the EuroQol in patients with osteoarthritis of the knee. Rheumatology 1999;38(9):807–13. [Internet].	1. VAS Pain instensity (0‒10) a. D-PRL: 7.8 ± 1.4 b. HA: 8.2 ± 1.7 2. Total WOMAC (0‒96) a. D-PRL: 52.7 ± 9.8 b. HA: 55.9 ± 10.4	1. VAS Pain intensity (0‒10) (p= 0.02) a. D-PRL: 2.5 ± 1.1 b. HA: 2.1 ± 0.6 2. Total WOMAC (0‒96) (p < 0.001) a. D-PRL: 83.7 ± 12.7 b. HA: 88.5 ± 15.6	Both methods had positive results, but HA was more effective than D-PRL in pain and symptoms control	Not reported
Roos and Lohmander²⁷27 Roos EM, Lohmander LS. The knee injury and osteoarthritis outcome score (KOOS): from joint injury to osteoarthritis. Health Qual Life Outcomes 2003;1:64.	1. VAS Pain activity (0‒96) (p=0.120) a. D-PRL: 67.00 (2.50) b. PRP: 61.10 (1.21) c. Autologus Conditioned Serum: 61.25 (3.44) 2. Total WOMAC (0‒96) (p=0.103) a. D-PRL: 65.93 (1.67) b. PRP: 60.33 (3.70) c. Autologus Conditioned Serum: 56.28 (3.13)	6 months: 1. VAS Pain activity (0‒96) a. D-PRL: 63.30 (2.92) b. PRP: 55.00 (2.27) c. Autologus Conditioned Serum: 35.00 (3.51) 2. Total WOMAC (0‒96) a. D-PRL: 72.33 (2.57) b. PRP: 45.67 (3.82) c. Autologus Conditioned Serum: 34.88 (3.35)	Autologus conditioned serum and PRP are more effective than D-PRL	Physical Medicine and rehabilitation Reseach center, Tabriz University of Medical Sciences (Grant no. 63138)
5. VAS Pain intensity: Difference between groups: -10.98 (-21.36 to -0.61)*	1. WOMAC Pain a. D-PRL: 49.9 (23.1) b. Saline: 44.0 (20.4) 2. WOMAC Stiffness a. D-PRL:48.0 (26.3) b. Saline: 46.8 (27.0) 3. WOMAC Function a. D-PRL: 49.0 (21.8) b. Saline: 45.9 (22.1) 4. Total WOMAC a. D-PRL: 49.1 (21.8) b. Saline: 45.6 (21.2) 5. VAS Pain intensity a. D-PRL: 63.1 (21.2) b. Saline: 60.1 (19.2)	52 weeks: 1. WOMAC Pain level Difference between groups: -10.34 (-19.20 to -1.49)* 2. WOMAC Stiffness Difference between groups: -8.01 (-18.56 to 2.54) 3. WOMAC Function limitations Difference between groups: -9.55 (-17.72 to -1.39)* 4. Total WOMAC Difference between groups: -9.65 (-17.77 to -1.53)* *p < 0.05	D-PRL may be appropriate care for patients with KOA refractory to more conservative care	Chinese University of Hong Kong Direct Grant for Research 2013-14 (HKD 40,000)

Author (publication year, country)	Reported limitations
Delgado et al.²²22 Delgado DA, Lambert BS, Boutris N, McCulloch PC, Robbins AB, Moreno MR, et al. Validation of digital visual analog scale pain scoring with a traditional paper-based visual analog scale in adults. J Am Acad Orthop Surg Glob Res Rev 2018;2(3):e088.	1. Lack of CG. 2. Lack of morphological assessment of structures in and around the knee joint. 3. Small sample size. 4. Limited timeframe for patient assessment.
Boonstra et al.²³23 Boonstra AM, Schiphorst HR, Reneman MF, Posthumus JB, Stewart RE. Reliability and validity of the visual analogue scale for disability in patients with chronic musculoskeletal pain Boonstra, Anne M.; Schiphorst Preuper, Henrica R.; Reneman, Michiel F.; Posthumus, Jitze B.; Stewart, Roy E Int J Rehabil Res 2008;31 (2):165–9.	1. Small sample size. 2. Limited timeframe for patient assessment. 3. Higher number of female patients. 4. Participants with moderate-to-severe pain level and refractory to conservative therapy.
Rejeski et al.²⁵25 Rejeski WJ, Ettinger WHJ, Shumaker S, Heuser MD, James P, Monu J, et al. The evaluation of pain in patients with knee osteoarthritis: the knee pain scale. J Rheumatol 1995;22(6):1124–9.	1. Limited timeframe for patient assessment. 2. Did not evaluate combined therapy.
Vaishya et al.²⁰20 Vaishya R, Pariyo GB, Agarwal AK, Vijay V. Non-operative management of osteoarthritis of the knee joint. J Clin Orthop Traum 2016;7(3):170–6. [Internet].	1. Small sample size. 2. Lack of very severe baseline WOMAC scores. 3. Relative youth of the participants. 4. Indirect assessment of participant satisfaction. 5. Radiographs were not avaliable for all participants. 6. Exclusion of patients taking chronic opioids.
Copsey et al.²¹21 Copsey B, Thompson JY, Vadher K, Ali U, Dutton SJ, Fitzpatrick R, et al. Problems persist in reporting of methods and results for the WOMAC measure in hip and knee osteoarthritis trials. Qual life Res an Int J Qual life Asp Treat Care Rehabil 2019;28 (2):335–43.	1. Limited follow up time. 2. Lack of literature on intra-articular prescription of erythropoietin.
Fransen and Edmonds²⁶26 Fransen M, Edmonds J. Reliability and validity of the EuroQol in patients with osteoarthritis of the knee. Rheumatology 1999;38(9):807–13. [Internet].	None reported
Roos and Lohmander²⁷27 Roos EM, Lohmander LS. The knee injury and osteoarthritis outcome score (KOOS): from joint injury to osteoarthritis. Health Qual Life Outcomes 2003;1:64.	1. Limited budget making long-term follow up of 12 or 24 months impossible. 2. Due to the different characteristics of injected materials (color and viscosity), it was not possible to design a double-blinded study.
Ware²⁴24 Ware JEJ. SF-36 health survey update. Spine 2000;25(24):3130–9. (Phila Pa 1976).	1. Lack of a usual care group may limit the external validity. 2. Exclusion of morbidly obese patients may limit the generalizability of the data. 3. Treatment of only one painful knee may not reflect the overall efficacy of D-PRL. 4. Failure to track the amount of exercise and weight loss in each group. 5. Language and culture differences also limited direct comparisons to other work.

Brasil

Brasil

Comparing dextrose prolotherapy with other substances in knee osteoarthritis pain relief: A systematic review

Abstract

HIGHLIGHTS

Introduction

Material and methods

Eligibility criteria: Inclusion criteria

Exclusion criteria

Types of variables/parameters analyzed

Literature revision

Search strategy

Data extraction

Data validation

Statistical analysis

Results

Research flow

Quality of evidence

Study characteristics

Demographics

Assessment times and interventions

Types of evaluation

WOMAC

SF-36

KPS

EuroQol-5D

KOOS

Scale prevalence

Main results

Saline

Platelet-rich plasma

Hyaluronic acid

Botulinum neurotoxin A

Erythropoietin

Autologous conditioned serum

Non-injection interventions

Limitations reported by the studies

Discussion

Study design proposal

This systematic review's limitations

Conclusion

Acknowledgment

References

Publication Dates

History