Abstract

Background:

To evaluate the efficacy and safety of prolotherapy with hypertonic dextrose in patients with knee osteoarthritis. A systematic search was performed in electronic databases including PUBMED, SCIELO, DIALNET and Google Scholar.

Main body:

We searched for randomized clinical trials that evaluated therapeutic interventions in patients with knee osteoarthritis. These trials compared the effect of intra-articular and / or extra-articular infiltrations of hypertonic dextrose vs the effect of intra-articular and / or extra-articular infiltrations of other substances or some interventional procedure application, via assessing pain, physical function and secondary effects and / or adverse reactions. Ten randomized clinical trials were included in this systematic review, the total sample size comprised 328 patients treated with hypertonic dextrose (prolotherapy) vs 348 controls treated with other infiltrations such as local anesthetics, hyaluronic acid, ozone, platelet-rich plasma or interventional procedures like radiofrequency.

Conclusions:

In terms of pain reduction and function improvement, prolotherapy with hypertonic dextrose was more effective than infiltrations with local anesthetics, as effective as infiltrations with hyaluronic acid, ozone or radiofrequency and less effective than PRP and erythropoietin, with beneficial effect in the short, medium and long term. In addition, no side effects or serious adverse reactions were reported in patients treated with hypertonic dextrose. Although HDP seems to be a promising interventional treatment for knee OA, more studies with better methodological quality and low risk of bias are needed to confirm the efficacy and safety of this intervention.

Keywords:
Prolotherapy; Hypertonic dextrose; Knee; Osteoarthritis

Introduction

The knee joint represents one of the anatomical locations that most frequently suffer osteoarthritis (OA) [¹1. Brooks PM. The burden of musculoskeletal disease--a global perspective. Clin Rheumatol. 2006;25(6):778-81.], which increases with age and has a prevalence of 15.6% in men and 30.7% in women over 55 years old [²2. Litwic A, Edwards MH, Dennison EM, Cooper C. Epidemiology and burden of osteoarthritis. Br Med Bull. 2013;105:185-99.]. Osteoarthritis is a rheumatic disease that causes serious physical disability [³3. Guevara-Pacheco SV, Feican-Alvarado A, Delgado-Pauta J, Lliguisaca-Segarra A, Pelaez-Ballestas I. Prevalence of disability in patients with musculoskeletal pain and rheumatic diseases in a population from Cuenca, Ecuador. J Clin Rheumatol. 2017;23(6):324-9.] and leads to high living costs [⁴4. White AG, Birnbaum HG, Janagap C, Buteau S, Schein J. Direct and indirect costs of pain therapy for osteoarthritis in an insured population in the United States. J Occup Environ Med. 2008;50(9):998-1005.].

There are several options for treating knee OA including non-pharmacological therapy, [⁵5. McAlindon TE, Bannuru RR, Sullivan MC, Arden NK, Berenbaum F, Bierma-Zeinstra SM, et al. OARSI guidelines for the non-surgical management of knee osteoarthritis. Osteoarthr Cartil. 2014;22(3):363-88., ⁶6. Bruyere O, Cooper C, Pelletier JP, Maheu E, Rannou F, Branco J, et al. A consensus statement on the European Society for Clinical and Economic Aspects of osteoporosis and osteoarthritis (ESCEO) algorithm for the management of knee osteoarthritis-from evidence-based medicine to the real-life setting. Semin Arthritis Rheum. 2016;45(4 Suppl):S3-11.] pharmacological treatment [⁵5. McAlindon TE, Bannuru RR, Sullivan MC, Arden NK, Berenbaum F, Bierma-Zeinstra SM, et al. OARSI guidelines for the non-surgical management of knee osteoarthritis. Osteoarthr Cartil. 2014;22(3):363-88., ⁶6. Bruyere O, Cooper C, Pelletier JP, Maheu E, Rannou F, Branco J, et al. A consensus statement on the European Society for Clinical and Economic Aspects of osteoporosis and osteoarthritis (ESCEO) algorithm for the management of knee osteoarthritis-from evidence-based medicine to the real-life setting. Semin Arthritis Rheum. 2016;45(4 Suppl):S3-11.] and interventional measures such as intra-articular infiltrations with corticosteroids [⁵5. McAlindon TE, Bannuru RR, Sullivan MC, Arden NK, Berenbaum F, Bierma-Zeinstra SM, et al. OARSI guidelines for the non-surgical management of knee osteoarthritis. Osteoarthr Cartil. 2014;22(3):363-88., ⁶6. Bruyere O, Cooper C, Pelletier JP, Maheu E, Rannou F, Branco J, et al. A consensus statement on the European Society for Clinical and Economic Aspects of osteoporosis and osteoarthritis (ESCEO) algorithm for the management of knee osteoarthritis-from evidence-based medicine to the real-life setting. Semin Arthritis Rheum. 2016;45(4 Suppl):S3-11.] or hyaluronic acid (HA) [⁶6. Bruyere O, Cooper C, Pelletier JP, Maheu E, Rannou F, Branco J, et al. A consensus statement on the European Society for Clinical and Economic Aspects of osteoporosis and osteoarthritis (ESCEO) algorithm for the management of knee osteoarthritis-from evidence-based medicine to the real-life setting. Semin Arthritis Rheum. 2016;45(4 Suppl):S3-11.]. In recent years, new treatments have been reported to be effective for treating patients with knee OA, including intra-articular platelet-rich plasma application, [⁷7. Shen L, Yuan T, Chen S, Xie X, Zhang C. The temporal effect of platelet-rich plasma on pain and physical function in the treatment of knee osteoarthritis: systematic review and meta-analysis of randomized controlled trials. J Orthop Surg Res. 2017;12(1):16., ⁸8. Nguyen C, Lefevre-Colau MM, Poiraudeau S, Rannou F. Evidence and recommendations for use of intra-articular injections for knee osteoarthritis. Ann Phys Rehabil Med. 2016;59(3):184-9.] mesenchymal stem cells, [⁹9. Cui GH, Wang YY, Li CJ, Shi CH, Wang WS. Efficacy of mesenchymal stem cells in treating patients with osteoarthritis of the knee: a meta-analysis. Exp Ther Med. 2016;12(5):3390-400.] ozone therapy, [¹⁰10. Duymus TM, Mutlu S, Dernek B, Komur B, Aydogmus S, Kesiktas FN. Choice of intra-articular injection in treatment of knee osteoarthritis: platelet-rich plasma, hyaluronic acid or ozone options. Knee Surg Sports Traumatol Arthrosc. 2017;25(2):485-92.] hypertonic dextrose [¹¹11. Sit RW, Chung V, Reeves KD, Rabago D, Chan KK, Chan DC, et al. Hypertonic dextrose injections (prolotherapy) in the treatment of symptomatic knee osteoarthritis: a systematic review and meta-analysis. Sci Rep. 2016;6:25247.] and even the botulinum toxin type A [⁸8. Nguyen C, Lefevre-Colau MM, Poiraudeau S, Rannou F. Evidence and recommendations for use of intra-articular injections for knee osteoarthritis. Ann Phys Rehabil Med. 2016;59(3):184-9.].

Intra-articular or extra-articular applications of hypertonic dextrose infiltration over ligament and tendon insertions have been used for decades to treat musculoskeletal pain under the name of Prolotherapy; infiltrations are performed using hypertonic dextrose usually mixed with local anesthetics [¹²12. Rabago D, Nourani B. Prolotherapy for osteoarthritis and tendinopathy: a descriptive review. Curr Rheumatol Rep. 2017;19(6):34.]. Nevertheless, Hypertonic Dextrose Prolotherapy (HDP) remains of little use when treating knee OA; given the lack of solid scientific evidence to support its benefits, it has been classified as a complementary therapeutic intervention. Therefore, the objective of our study was to conduct a systematic search of randomized clinical trials that compared the therapeutic use of HDP vs another type of placebo or therapeutic interventionist procedure in patients with knee OA, in order to analyze its efficacy, characteristics in its application, dosage and side effects or adverse reactions.

Methods

The methodology we used was based on the PRISMA statement [¹³13. Moher D, Liberati A, Tetzlaff J, Altman DG. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. BMJ (Clinical research ed). 2009;339:b2535.] for systematic review and meta-analysis type reports presentation.

Types of studies

This review included Randomized Controlled Clinical Trials that used a therapeutic intervention with HDP vs other substances infiltration or some other performance interventional procedure for treating patients with knee OA. We excluded reviews, series of cases studies, reports of one case, randomized clinical trials performed in patients with knee OA that compared non-interventional treatments and studies performed for knee pathologies other than OA.

Characteristics of the participants

We selected studies that included individuals with clinical and radiographic diagnosis of knee OA, who suffer pain and alterations in functionality. All participants were adults of at least 18 years of age.

Types of intervention

We selected studies in which patients were treated with one or more HDP sessions in at least one of the groups studied; the intra-articular hypertonic dextrose infiltration sessions could be with or without complementary extra-articular infiltrations and /or concomitant local anesthetics.

Control groups consisted of individuals with knee OA treated with placebo or other therapeutic substances infiltrations or some other interventional procedure. Other cointerventions were allowed as long as they were uniform in all groups. The studies chosen had to describe in detail the intervention(s) performed, evaluations used and results.

Outcomes measures

We included studies that evaluated self-reported pain and /or self-reported physical function. Pain was assessed using the Visual Analogue Scale (VAS) [¹⁴14. Tubach F, Ravaud P, Baron G, Falissard B, Logeart I, Bellamy N, et al. Evaluation of clinically relevant changes in patient reported outcomes in knee and hip osteoarthritis: the minimal clinically important improvement. Ann Rheum Dis. 2005;64(1):29-33.], while function was assessed using other validated scales [¹⁵15. Collins NJ, Misra D, Felson DT, Crossley KM, Roos EM. Measures of knee function: international knee documentation committee (IKDC) subjective knee evaluation form, knee injury and osteoarthritis outcome score (KOOS), knee injury and osteoarthritis outcome score physical function short form (KOOS-PS), knee outcome survey activities of daily living scale (KOS-ADL), Lysholm knee scoring scale, Oxford knee score (OKS), Western Ontario and McMaster universities osteoarthritis index (WOMAC), activity rating scale (ARS), and Tegner activity score (TAS). Arthritis Care Res. 2011;63(Suppl 11):S208-28.]. We categorized the results according with the follow-up time reported in each study, by grouping them into three categories: 2-3 months, 5-6 months and 12 months of follow-up.

Method and search strategy

We identified possible studies by searching in electronic databases PUBMED DIALNET, SCIELO databases and other electronic sources such as Google Scholar, using a search period from January 2000 to May 2018. The search terminology included prolotherapy “or” dextrose prolotherapy “or” hypertonic dextrose injections “and” knee “or” knee arthrosis “or” knee osteoarthritis.

Methodological quality and risk of bias assessments

Based on the Cochrane Handbook for Systematic Reviews recommendations, version 5.1 [¹⁶16. Higgins J, Green S. Cochrane handbook for systematic reviews of interventions version 5.1.0 The Cochrane collaboration. Confidence intervals; 2011.] two investigators independently assessed the methodological quality and risk of bias of each study included. The following domains were evaluated: generation of random sequence (selection bias), allocation concealment (selection bias), blinding of participants and staff (performance bias), blinding of outcome assessment (detection bias), incomplete outcome data (attrition bias), selective reporting (report bias) and other biases. The risk of bias for each domain was classified as low, high, or uncertain. A trial was considered to have low bias risk only when all domains were rated as low. If 1 or 2 domains were classified as high or uncertain risk of bias, the trial was considered to have a moderate bias risk; if 3 or more domains were classified as high or uncertain risk of bias, then it was considered a trial with high bias risk. The evaluation summary of the risk of bias is shown in Fig. 1.

Eligibility assessment and data extraction

Two reviewers independently examined titles, abstracts and full texts, and determined the eligibility of each study. Data of eligible studies were extracted independently: study design, risk of bias, clinical configuration, participant characteristics, intervention features, outcomes, follow-up duration and adverse events.

Results

A total of 163 citations were identified; of those, 89 were duplicates and were excluded. We reviewed titles and abstracts of the remaining 74 studies and excluded 26 studies that were animal model revisions, editorials and others. Forty-eight studies were read in detail, then 38 were excluded for the following reasons: review studies (n = 20), other pathology interventions (n = 9), case series studies (n = 7), controlled clinical trials compared against non-interventional treatments (n = 2). Finally, 10 randomized clinical trials [¹⁷17. Reeves KD, Hassanein K. Randomized prospective double-blind placebo-controlled study of dextrose prolotherapy for knee osteoarthritis with or without ACL laxity. Altern Ther Health Med. 2000;6(2):68-74 7-80.

18. Hashemi SM, Madadi F, Razavi S, Nikooseresht M, Kiyabi FH, Nasiripour S. Intraarticular hyaluronic acid injections vs. dextrose prolotherapy in the treatment of osteoarthritic knee pain. Tehran University Med J. 2012;70(2):119-25.

19. 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.

20. Rabago D, Kijowski R, Woods M, Patterson JJ, Mundt M, Zgierska A, et al. Association between disease-specific quality of life and magnetic resonance imaging outcomes in a clinical trial of prolotherapy for knee osteoarthritis. Arch Phys Med Rehabil. 2013;94(11):2075-82.

21. Rahimzadeh P, Imani F, Faiz SH, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intra-articular 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.

22. Hashemi M, Jalili P, Mennati S, Koosha A, Rohanifar R, Madadi F, et al. The effects of Prolotherapy with hypertonic dextrose versus Prolozone (intraarticular ozone) in patients with knee osteoarthritis. Anesthesiol Pain Med. 2015;5(5):e27585.

23. EROĞLU A, SARI A, DURMUŞ B. Platelet-rich plasma vs Prolotherapy in the management of knee osteoarthritis: randomized placebo-controlled trial. Spor Hekimligi Dergisi/Turkish J Sports Med. 2016;51:2.

24. Farpour HR, Fereydooni F. Comparative effectiveness of intra-articular prolotherapy versus peri-articular prolotherapy on pain reduction and improving function in patients with knee osteoarthritis: a randomized clinical trial. Electron Physician. 2017;9(11):5663-9.

25. Rezasoltani Z, Taheri M, Mofrad MK, Mohajerani SA. Periarticular dextrose prolotherapy instead of intra-articular injection for pain and functional improvement in knee osteoarthritis. J Pain Res. 2017;10:1179-87.-²⁶26. 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.] were eligible for inclusion in this systematic review. The systematized flowchart search is shown in Fig. 2. The 10 studies comprised a total of 328 patients with knee OA treated with HDP and 348 controls treated with other interventional procedures. All studies included patients with knee OA of various degrees according to the Kellgren and Lawrence Classification (KL).

The design characteristics, intervention and results of each study are reported in Table 1.

Hypertonic dextrose vs saline solution - lidocaine mixture

Three studies [¹⁷17. Reeves KD, Hassanein K. Randomized prospective double-blind placebo-controlled study of dextrose prolotherapy for knee osteoarthritis with or without ACL laxity. Altern Ther Health Med. 2000;6(2):68-74 7-80., ¹⁹19. 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., ²⁰20. Rabago D, Kijowski R, Woods M, Patterson JJ, Mundt M, Zgierska A, et al. Association between disease-specific quality of life and magnetic resonance imaging outcomes in a clinical trial of prolotherapy for knee osteoarthritis. Arch Phys Med Rehabil. 2013;94(11):2075-82.] compared the efficacy of HDP vs lidocaine mixture infiltrations used as placebo. The three studies reported that in both groups there was a statistically significant improvement in pain and function, with an effect in favor of the groups treated with HDP.

Hypertonic dextrose vs hyaluronic acid (HA)

Hashemi et al. [¹⁸18. Hashemi SM, Madadi F, Razavi S, Nikooseresht M, Kiyabi FH, Nasiripour S. Intraarticular hyaluronic acid injections vs. dextrose prolotherapy in the treatment of osteoarthritic knee pain. Tehran University Med J. 2012;70(2):119-25.] compared the efficacy of HDP vs HA intra-articular, reporting equal efficacy in reducing pain and improving function at 3 months of follow-up.

Hypertonic dextrose vs ozone infiltration

Hashemi et al. [²²22. Hashemi M, Jalili P, Mennati S, Koosha A, Rohanifar R, Madadi F, et al. The effects of Prolotherapy with hypertonic dextrose versus Prolozone (intraarticular ozone) in patients with knee osteoarthritis. Anesthesiol Pain Med. 2015;5(5):e27585.] compared intra-articular infiltration with hypertonic dextrose vs. intra-articular ozone, reporting equal efficacy in reducing pain and improving function at 3-months follow-up.

Hypertonic dextrose vs platelet rich plasma (PRP)

Rahimzadeh et al. [²⁶26. 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.] compared intra-articular infiltration of Hypertonic Dextrose vs intra-articular PRP and observed statistically significant improvement of pain and function in both groups at 2 and 6 months; nevertheless, at 6 months follow-up, a better effect was observed in the PRP group. Eroglu et al. [²³23. EROĞLU A, SARI A, DURMUŞ B. Platelet-rich plasma vs Prolotherapy in the management of knee osteoarthritis: randomized placebo-controlled trial. Spor Hekimligi Dergisi/Turkish J Sports Med. 2016;51:2.] conducted a similar study, reporting however that the improvement of pain and function did not reach statistical significance in any of the groups.

Hypertonic dextrose vs erythropoietin

Rahimzadeh et al. [²¹21. Rahimzadeh P, Imani F, Faiz SH, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intra-articular 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.] compared intra-articular infiltration with hypertonic dextrose vs intra-articular infiltration with erythropoietin, they reported pain reduction in both groups at 3 months of follow-up with difference in favor of the erythropoietin group.

Hypertonic dextrose vs radiofrequency

Rahimzadeh et al. [²¹21. Rahimzadeh P, Imani F, Faiz SH, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intra-articular 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.] compared the effects of intraarticular infiltration with hypertonic dextrose vs intraarticular radiofrequency application. They observed that in both groups there was a statistically significant improvement in pain and function at 3 months of follow-up, without significant differences between groups.

Finally, two studies [²⁴24. Farpour HR, Fereydooni F. Comparative effectiveness of intra-articular prolotherapy versus peri-articular prolotherapy on pain reduction and improving function in patients with knee osteoarthritis: a randomized clinical trial. Electron Physician. 2017;9(11):5663-9., ²⁵25. Rezasoltani Z, Taheri M, Mofrad MK, Mohajerani SA. Periarticular dextrose prolotherapy instead of intra-articular injection for pain and functional improvement in knee osteoarthritis. J Pain Res. 2017;10:1179-87.] compared intra-articular hypertonic dextrose application vs subcutaneous dextrose application, reporting that in both groups there was a statistically significant improvement in pain and function.

Discussion

Our main objective was to evaluate the efficacy and safety of prolotherapy with hypertonic dextrose in patients with knee osteoarthritis.

Therapeutic efficacy

Clinical studies have reported favorable effects of HDP for knee OA treatment. Case series studies [²⁷27. Eslamian F, Amouzandeh B. Therapeutic effects of prolotherapy with intra-articular dextrose injection in patients with moderate knee osteoarthritis: a single-arm study with 6 months follow up. Therapeut Adv Musculoskel Dis. 2015;7(2):35-44.

28. Rabago D, Zgierska A, Fortney L, Kijowski R, Mundt M, Ryan M, et al. Hypertonic dextrose injections (prolotherapy) for knee osteoarthritis: results of a single-arm uncontrolled study with 1-year follow-up. J Alternative Complement Med. 2012;18(4):408-14.-²⁹29. Rabago D, Mundt M, Zgierska A, Grettie J. Hypertonic dextrose injection (prolotherapy) for knee osteoarthritis: long term outcomes. Complement Ther Med. 2015;23(3):388-95.] show that HDP application in patients with knee OA promotes pain reduction and improves function during approximately 12 months or longer without generating adverse events; nevertheless, the absence control groups limits the strength of these findings.

Randomized clinical trials [³⁰30. Soliman DI, Sherif N, Omar O, El Zohiery A. Healing effects of prolotherapy in treatment of knee osteoarthritis healing effects of prolotherapy in treatment of knee osteoarthritis. Egyptian Rheumatol Rehabi. 2016;43(2):47., ³¹31. Dumais R, Benoit C, Dumais A, Babin L, Bordage R, de Arcos C, et al. Effect of regenerative injection therapy on function and pain in patients with knee osteoarthritis: a randomized crossover study. Pain Med. 2012;13(8):990-9.] have compared HDP vs conservative treatments (physiotherapy, exercise program) in individuals with knee OA and have reported greater efficacy of HDP in terms of reducing pain and improving function. When analyzing the effectiveness of HDP in OA knee treatment vs other interventional treatments, HDP appeared to be more effective than local anesthetics [¹⁷17. Reeves KD, Hassanein K. Randomized prospective double-blind placebo-controlled study of dextrose prolotherapy for knee osteoarthritis with or without ACL laxity. Altern Ther Health Med. 2000;6(2):68-74 7-80., ¹⁹19. 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., ²⁰20. Rabago D, Kijowski R, Woods M, Patterson JJ, Mundt M, Zgierska A, et al. Association between disease-specific quality of life and magnetic resonance imaging outcomes in a clinical trial of prolotherapy for knee osteoarthritis. Arch Phys Med Rehabil. 2013;94(11):2075-82.]. Probably, HDP provides both a short-term analgesic effect based on neurogenic mechanisms [³²32. Burdakov D, Jensen LT, Alexopoulos H, Williams RH, Fearon IM, O’Kelly I, et al. Tandem-pore K+ channels mediate inhibition of orexin neurons by glucose. Neuron. 2006;50(5):711-22., ³³33. Breitinger U, Breitinger HG. Augmentation of glycine receptor alpha3 currents suggests a mechanism for glucose-mediated analgesia. Neurosci Lett. 2016;612:110-5.] and also a long-term analgesic effect via the repairment of soft tissues and cartilage [³⁴34. Topol GA, Podesta LA, Reeves KD, Giraldo MM, Johnson LL, Grasso R, et al. Chondrogenic effect of intra-articular hypertonic-dextrose (Prolotherapy) in severe knee osteoarthritis. PM R. 2016;8(11):1072-82., ³⁵35. Reeves KD, Hassanein KM. Long-term effects of dextrose prolotherapy for anterior cruciate ligament laxity. Altern Ther Health Med. 2003;9(3):58-62.].

HDP appears to have the same short-term clinical efficacy as intra articular infiltration with HA [¹⁸18. Hashemi SM, Madadi F, Razavi S, Nikooseresht M, Kiyabi FH, Nasiripour S. Intraarticular hyaluronic acid injections vs. dextrose prolotherapy in the treatment of osteoarthritic knee pain. Tehran University Med J. 2012;70(2):119-25.]. Although it has been documented that HA produces significant improvement in pain and joint function in individuals with knee OA, [³⁶36. He WW, Kuang MJ, Zhao J, Sun L, Lu B, Wang Y, et al. Efficacy and safety of intraarticular hyaluronic acid and corticosteroid for knee osteoarthritis: a meta-analysis. Int J Surg (London, England). 2017;39:95-103.] international guidelines for its use vary considerable, as it is recommended in some countries [⁶6. Bruyere O, Cooper C, Pelletier JP, Maheu E, Rannou F, Branco J, et al. A consensus statement on the European Society for Clinical and Economic Aspects of osteoporosis and osteoarthritis (ESCEO) algorithm for the management of knee osteoarthritis-from evidence-based medicine to the real-life setting. Semin Arthritis Rheum. 2016;45(4 Suppl):S3-11.] while in others it is considered to cause more frequent adverse effects than steroids [³⁶36. He WW, Kuang MJ, Zhao J, Sun L, Lu B, Wang Y, et al. Efficacy and safety of intraarticular hyaluronic acid and corticosteroid for knee osteoarthritis: a meta-analysis. Int J Surg (London, England). 2017;39:95-103.]. Based on the above, HDP could be a better alternative than HA for treating patients with knee OA, probably with a better cost-benefit ratio and with the possibility that HDP could also reduce pain of extra joint origin.

When comparing intra articular infiltrations with hypertonic dextrose vs intra articular infiltrations with ozone, it was observed that they had a similar effect in the reduction of pain and short-term improvement of function [²⁹29. Rabago D, Mundt M, Zgierska A, Grettie J. Hypertonic dextrose injection (prolotherapy) for knee osteoarthritis: long term outcomes. Complement Ther Med. 2015;23(3):388-95.]. It has been reported that intra articular infiltrations with ozone decrease proinflammatory cytokines such as Interleukin 1β and Alpha Tumor Necrosis Factor [³⁷37. Hashemi M, Khameneh SMH, Dadkhah P, Mohajerani SA. Effect of intraarticular injection of ozone on inflammatory cytokines in knee osteoarthritis. J Cellular Molecul Anesth. 2017;2(2):37-42.] and modify joint oxidative stress by re-establishing the intraarticular redox balance [³⁸38. Calunga JL, Menéndez S, León R, Chang S, Guanche D, Balbín A, et al. Application of ozone therapy in patients with knee osteoarthritis. Ozone Sci Eng. 2012;34(6):469-75.]. Therefore, ozone and HDP could be therapeutically complementary, by decreasing the inflammatory process with ozone at first, followed by a chondrogenic effect of HDP. Studies that combine these interventions are needed to verify this hypothesis.

On the other hand, when comparing intra-articular infiltrations with PRP and HDP, both seemed to have a similar effect reducing pain and improving function short-term, although less efficiency was observed at medium-term [²⁶26. 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.]. A recent meta-analysis [⁷7. Shen L, Yuan T, Chen S, Xie X, Zhang C. The temporal effect of platelet-rich plasma on pain and physical function in the treatment of knee osteoarthritis: systematic review and meta-analysis of randomized controlled trials. J Orthop Surg Res. 2017;12(1):16.] indicated that the effectiveness of PRP for treating knee OA is based on an increased release of growth factors that favor chondrogenic effects. HDP could be an alternative to PRP for treating knee OA, as PRP application implies a greater technique complexity, higher costs and greater variability in forms of preparation [³⁹39. Dhurat R, Sukesh M. Principles and methods of preparation of platelet-rich plasma: a review and Author's perspective. J Cutan Aesthet Surg. 2014;7(4): 189-97.]; additionally, HDP could also induce chondrogenic effects [³⁴34. Topol GA, Podesta LA, Reeves KD, Giraldo MM, Johnson LL, Grasso R, et al. Chondrogenic effect of intra-articular hypertonic-dextrose (Prolotherapy) in severe knee osteoarthritis. PM R. 2016;8(11):1072-82.].

When comparing the efficacy of HDP vs intra articular radiofrequency, equal short-term efficacy was observed [²¹21. Rahimzadeh P, Imani F, Faiz SH, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intra-articular 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.]. A recent review study [⁴⁰40. Gupta A, Huettner DP, Dukewich M. Comparative effectiveness review of cooled versus pulsed radiofrequency ablation for the treatment of knee osteoarthritis: a systematic review. Pain Physician. 2017;20(3):155-71.] mentioned that radiofrequency could be a promising treatment for knee OA given the positive results that have been published, but more prospective studies and long-term monitoring are needed. HDP could be an option of less complexity and a better cost-benefit ratio when compared to radiofrequency for treating knee OA; nevertheless, more studies are needed to evaluate this aspect.

On the other hand, intra articular infiltrations with erythropoietin were more effective than infiltrations with hypertonic dextrose in pain control [²¹21. Rahimzadeh P, Imani F, Faiz SH, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intra-articular 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.], which was an unexpected outcome; nonetheless, we did not find other studies where this intervention was used in patients with knee OA.

We also analyzed the effectiveness of intra articular hypertonic dextrose vs extra articular hypertonic dextrose. Five studies [¹⁷17. Reeves KD, Hassanein K. Randomized prospective double-blind placebo-controlled study of dextrose prolotherapy for knee osteoarthritis with or without ACL laxity. Altern Ther Health Med. 2000;6(2):68-74 7-80., ¹⁸18. Hashemi SM, Madadi F, Razavi S, Nikooseresht M, Kiyabi FH, Nasiripour S. Intraarticular hyaluronic acid injections vs. dextrose prolotherapy in the treatment of osteoarthritic knee pain. Tehran University Med J. 2012;70(2):119-25., ²¹21. Rahimzadeh P, Imani F, Faiz SH, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intra-articular 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., ²²22. Hashemi M, Jalili P, Mennati S, Koosha A, Rohanifar R, Madadi F, et al. The effects of Prolotherapy with hypertonic dextrose versus Prolozone (intraarticular ozone) in patients with knee osteoarthritis. Anesthesiol Pain Med. 2015;5(5):e27585., ²⁶26. 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.] used the intra articular application of hypertonic dextrose as a single intervention, all of them reported a statistically significant reduction of pain and function improvement for up to 6 months. Furthermore, the series of cases of Eslamian et al. [²⁷27. Eslamian F, Amouzandeh B. Therapeutic effects of prolotherapy with intra-articular dextrose injection in patients with moderate knee osteoarthritis: a single-arm study with 6 months follow up. Therapeut Adv Musculoskel Dis. 2015;7(2):35-44.] indicated that therapeutic effects of intra articular hypertonic dextrose could be attributed to the chondrogenic mechanisms reported by Topol et al. [³⁴34. Topol GA, Podesta LA, Reeves KD, Giraldo MM, Johnson LL, Grasso R, et al. Chondrogenic effect of intra-articular hypertonic-dextrose (Prolotherapy) in severe knee osteoarthritis. PM R. 2016;8(11):1072-82.] However, Rabago et al. [²⁰20. Rabago D, Kijowski R, Woods M, Patterson JJ, Mundt M, Zgierska A, et al. Association between disease-specific quality of life and magnetic resonance imaging outcomes in a clinical trial of prolotherapy for knee osteoarthritis. Arch Phys Med Rehabil. 2013;94(11):2075-82.] measured cartilage in individuals with knee OA using magnetic resonance, at one year follow-up they observed symptomatic and functional improvement, but they did not find an increase of the articular cartilage thickness, neither a decrease of speed in cartilage loss.

Other studies have reported similar reduction of pain and function improvement when comparing intra-articular hypertrophic dextrose vs subcutaneous dextrose; [²⁴24. Farpour HR, Fereydooni F. Comparative effectiveness of intra-articular prolotherapy versus peri-articular prolotherapy on pain reduction and improving function in patients with knee osteoarthritis: a randomized clinical trial. Electron Physician. 2017;9(11):5663-9., ²⁵25. Rezasoltani Z, Taheri M, Mofrad MK, Mohajerani SA. Periarticular dextrose prolotherapy instead of intra-articular injection for pain and functional improvement in knee osteoarthritis. J Pain Res. 2017;10:1179-87.] this therapeutic effect cannot be attributed to chondrogenic mechanisms or to ligamentous or tendinous remodeling, but perhaps due to neurogenic effects. Two studies [¹⁹19. 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., ²⁰20. Rabago D, Kijowski R, Woods M, Patterson JJ, Mundt M, Zgierska A, et al. Association between disease-specific quality of life and magnetic resonance imaging outcomes in a clinical trial of prolotherapy for knee osteoarthritis. Arch Phys Med Rehabil. 2013;94(11):2075-82.] combined intra-articular and extra-articular HDP applications on ligaments insertions and tendons and observed a long term effect. This response could be explained by a probable summative effect of the various mechanisms above mentioned.

Previous systematic review and meta-analysis studies [¹¹11. Sit RW, Chung V, Reeves KD, Rabago D, Chan KK, Chan DC, et al. Hypertonic dextrose injections (prolotherapy) in the treatment of symptomatic knee osteoarthritis: a systematic review and meta-analysis. Sci Rep. 2016;6:25247., ⁴¹41. Hung CY, Hsiao MY, Chang KV, Han DS, Wang TG. Comparative effectiveness of dextrose prolotherapy versus control injections and exercise in the management of osteoarthritis pain: a systematic review and meta-analysis. J Pain Res. 2016;9:847-57.] reported a greater effect of HDP in reducing pain and improving function of patients with knee OA; however, these reviews included case series studies in their analysis and / or clinical trials compared HDP with non-interventional treatments or placebo injections.

Although our results indicate that HDP has beneficial effect in individuals with knee OA, the studies included in this systematic review have a low methodological quality in their design and present a high risk of bias, which weakens the evidence provided. International clinical guidelines recommend only the use of corticosteroids [⁵5. McAlindon TE, Bannuru RR, Sullivan MC, Arden NK, Berenbaum F, Bierma-Zeinstra SM, et al. OARSI guidelines for the non-surgical management of knee osteoarthritis. Osteoarthr Cartil. 2014;22(3):363-88., ⁶6. Bruyere O, Cooper C, Pelletier JP, Maheu E, Rannou F, Branco J, et al. A consensus statement on the European Society for Clinical and Economic Aspects of osteoporosis and osteoarthritis (ESCEO) algorithm for the management of knee osteoarthritis-from evidence-based medicine to the real-life setting. Semin Arthritis Rheum. 2016;45(4 Suppl):S3-11.] and / or hyaluronic acid [⁶6. Bruyere O, Cooper C, Pelletier JP, Maheu E, Rannou F, Branco J, et al. A consensus statement on the European Society for Clinical and Economic Aspects of osteoporosis and osteoarthritis (ESCEO) algorithm for the management of knee osteoarthritis-from evidence-based medicine to the real-life setting. Semin Arthritis Rheum. 2016;45(4 Suppl):S3-11.] as intra-articular treatment for OA of the knee. Our results do not indicate that HPD should be considered a first-choice treatment for knee OA; more likely, it should be an alternative when treatments with greater evidence have failed.

Duration of therapeutic effect

In relation to the length of the HDP effects when treating knee OA, we found that nine studies [¹⁸18. Hashemi SM, Madadi F, Razavi S, Nikooseresht M, Kiyabi FH, Nasiripour S. Intraarticular hyaluronic acid injections vs. dextrose prolotherapy in the treatment of osteoarthritic knee pain. Tehran University Med J. 2012;70(2):119-25.

19. 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.

20. Rabago D, Kijowski R, Woods M, Patterson JJ, Mundt M, Zgierska A, et al. Association between disease-specific quality of life and magnetic resonance imaging outcomes in a clinical trial of prolotherapy for knee osteoarthritis. Arch Phys Med Rehabil. 2013;94(11):2075-82.

21. Rahimzadeh P, Imani F, Faiz SH, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intra-articular 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.

22. Hashemi M, Jalili P, Mennati S, Koosha A, Rohanifar R, Madadi F, et al. The effects of Prolotherapy with hypertonic dextrose versus Prolozone (intraarticular ozone) in patients with knee osteoarthritis. Anesthesiol Pain Med. 2015;5(5):e27585.

23. EROĞLU A, SARI A, DURMUŞ B. Platelet-rich plasma vs Prolotherapy in the management of knee osteoarthritis: randomized placebo-controlled trial. Spor Hekimligi Dergisi/Turkish J Sports Med. 2016;51:2.

24. Farpour HR, Fereydooni F. Comparative effectiveness of intra-articular prolotherapy versus peri-articular prolotherapy on pain reduction and improving function in patients with knee osteoarthritis: a randomized clinical trial. Electron Physician. 2017;9(11):5663-9.

25. Rezasoltani Z, Taheri M, Mofrad MK, Mohajerani SA. Periarticular dextrose prolotherapy instead of intra-articular injection for pain and functional improvement in knee osteoarthritis. J Pain Res. 2017;10:1179-87.-²⁶26. 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.] evaluated results with a follow-up of 2-3 months and all of them reported that the beneficial effect did not end. Six studies evaluated the HDP effects at 5-6months [¹⁷17. Reeves KD, Hassanein K. Randomized prospective double-blind placebo-controlled study of dextrose prolotherapy for knee osteoarthritis with or without ACL laxity. Altern Ther Health Med. 2000;6(2):68-74 7-80., ¹⁹19. 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., ²⁰20. Rabago D, Kijowski R, Woods M, Patterson JJ, Mundt M, Zgierska A, et al. Association between disease-specific quality of life and magnetic resonance imaging outcomes in a clinical trial of prolotherapy for knee osteoarthritis. Arch Phys Med Rehabil. 2013;94(11):2075-82., ²³23. EROĞLU A, SARI A, DURMUŞ B. Platelet-rich plasma vs Prolotherapy in the management of knee osteoarthritis: randomized placebo-controlled trial. Spor Hekimligi Dergisi/Turkish J Sports Med. 2016;51:2., ²⁶26. 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 five of them observed that the effect lasted the whole time. Whereas two studies [¹⁹19. 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., ²⁰20. Rabago D, Kijowski R, Woods M, Patterson JJ, Mundt M, Zgierska A, et al. Association between disease-specific quality of life and magnetic resonance imaging outcomes in a clinical trial of prolotherapy for knee osteoarthritis. Arch Phys Med Rehabil. 2013;94(11):2075-82.] evaluated the HDP effects at 12 months and they also observed that the beneficial effect lasted the whole year. Two case series by Rabago et al. [²⁸28. Rabago D, Zgierska A, Fortney L, Kijowski R, Mundt M, Ryan M, et al. Hypertonic dextrose injections (prolotherapy) for knee osteoarthritis: results of a single-arm uncontrolled study with 1-year follow-up. J Alternative Complement Med. 2012;18(4):408-14., ²⁹29. Rabago D, Mundt M, Zgierska A, Grettie J. Hypertonic dextrose injection (prolotherapy) for knee osteoarthritis: long term outcomes. Complement Ther Med. 2015;23(3):388-95.] also described this favorable effect duration; one of them monitored the patients for 2.5 years and reported that the beneficial effect persisted. Clearly, the benefits of using HDP in individuals with knee OA are long term, for one year or even longer. It should be noted that the effects could last for longer time than the effects produced by corticosteroids, hyaluronic acid [³⁶36. He WW, Kuang MJ, Zhao J, Sun L, Lu B, Wang Y, et al. Efficacy and safety of intraarticular hyaluronic acid and corticosteroid for knee osteoarthritis: a meta-analysis. Int J Surg (London, England). 2017;39:95-103.] and ozone, [¹⁰10. Duymus TM, Mutlu S, Dernek B, Komur B, Aydogmus S, Kesiktas FN. Choice of intra-articular injection in treatment of knee osteoarthritis: platelet-rich plasma, hyaluronic acid or ozone options. Knee Surg Sports Traumatol Arthrosc. 2017;25(2):485-92.] and could have a similar lasting effect to platelet-rich plasma treatment [⁷7. Shen L, Yuan T, Chen S, Xie X, Zhang C. The temporal effect of platelet-rich plasma on pain and physical function in the treatment of knee osteoarthritis: systematic review and meta-analysis of randomized controlled trials. J Orthop Surg Res. 2017;12(1):16.]. Studies with long term follow-ups are needed to confirm this observation.

Dosage

The dosages utilized varied considerably, we found that patients received 1 to 5 doses of HDP, with a mode of 3 doses. The frequency of HDP applications was between once every two months to once a week, with one monthly application as the most commonly used. The concentration of dextrose used in intra-articular applications varied from 10 to 25%, the most frequent was 25%, the volume used per application was of 2 to 8 ml, with a mode of 6 ml. For extra-articular applications, 15% the most common concentration, applied in tendon and ligament insertion, pain points and points corresponding to the emerging knee superficial sensory nerves. The recommended dosage was between 2 to 6 sessions of prolotherapy to achieve the maximum therapeutic benefit, at monthly intervals using dextrose concentrations of 25% for intra-articular treatment and 15% for extra-joint applications [¹²12. Rabago D, Nourani B. Prolotherapy for osteoarthritis and tendinopathy: a descriptive review. Curr Rheumatol Rep. 2017;19(6):34.]. In some of the studies, these recommendations were not fully met, which could have affected our results.

Action mechanisms

The action mechanisms of Hypertonic Dextrose Prolotherapy (HDP) are still unclear; it has been proposed that hypertonic dextrose can activate inflammatory processes and induce growth factors release in exposed tissues [⁴²42. McGinn S, Poronnik P, King M, Gallery ED, Pollock CA. High glucose and endothelial cell growth: novel effects independent of autocrine TGF-beta 1 and hyperosmolarity. Am J Physiol Cell Physiol. 2003;284(6):C1374-86., ⁴³43. Pugliese G, Pricci F, Locuratolo N, Romeo G, Romano G, Giannini S, et al. Increased activity of the insulin-like growth factor system in mesangial cells cultured in high glucose conditions. Relation to glucose-enhanced extracellular matrix production. Diabetologia. 1996;39(7):775—84.]. In animal models hypertonic dextrose increases fibroblast proliferation, collagen production and extracellular matrix in treated ligaments and tendons, [⁴⁴44. Jensen KT, Rabago DP, Best TM, Patterson JJ, Vanderby R Jr. Response of knee ligaments to prolotherapy in a rat injury model. Am J Sports Med. 2008;36(7):1347-57., ⁴⁵45. Kim HJ, Jeong TS, Kim WS, Park YS. Comparison of histological changes in accordance with the level of dextrose-concentration in experimental Prolotherapy model. J Kor Acad Rehabil Med. 2003;27(6):935-40.] and it also generates a trophic effect in articular cartilage [⁴⁶46. Kim SA, Kim EH, Kim SY, Lee SY, Yoon JN, Lee YK. The effects of hyperosmolar dextrose and autologous serum injection in the experimental articular defect of rabbit. J Kor Acad Rehabil Med. 2006;30(2):173-8., ⁴⁷47. Park YS, Lim SW, Lee IH, Lee TJ, Kim JS, Han JS. Intra-articular injection of a nutritive mixture solution protects articular cartilage from osteoarthritic progression induced by anterior cruciate ligament transection in mature rabbits: a randomized controlled trial. Arthritis Res Ther. 2007;9(1):R8.]. Additionally, a recent study reported that glucose decreased the expression of metalloproteinase 1 [⁴⁸48. Wu TJ, Lin CY, Tsai CH, Huang YL, Tang CH. Glucose suppresses IL-1 β-induced MMP-1 expression through the FAK, MEK, ERK, and AP-1 signaling pathways. Environ Toxicol. 2018;33(10):1061-8.]. Similar effects have been reported in humans; for instance, Topol et al. [³⁴34. Topol GA, Podesta LA, Reeves KD, Giraldo MM, Johnson LL, Grasso R, et al. Chondrogenic effect of intra-articular hypertonic-dextrose (Prolotherapy) in severe knee osteoarthritis. PM R. 2016;8(11):1072-82.] studied individuals with severe knee OA through a histological evaluation and reported that hypertonic dextrose application had chondrogenic effects and induced the healing process at the expense of hyaline cartilage and fibrocartilage formation; while Reeves et al. [³⁵35. Reeves KD, Hassanein KM. Long-term effects of dextrose prolotherapy for anterior cruciate ligament laxity. Altern Ther Health Med. 2003;9(3):58-62.] reported a decrease in ligamentous laxity in patients with anterior cruciate ligament involvement when treated with hypertonic dextrose. These mechanisms facilitate tissue repair, which could explain the medium and long-term analgesic effects of HDP.

Other mechanisms of action have been proposed to explain the rapid analgesic effect of HDP, involving neurogenic mechanisms such as hyperpolarization of nerve fibers by opening potassium channels [³²32. Burdakov D, Jensen LT, Alexopoulos H, Williams RH, Fearon IM, O’Kelly I, et al. Tandem-pore K+ channels mediate inhibition of orexin neurons by glucose. Neuron. 2006;50(5):711-22.] or stimulation of the glycine inhibitory receptor, [³³33. Breitinger U, Breitinger HG. Augmentation of glycine receptor alpha3 currents suggests a mechanism for glucose-mediated analgesia. Neurosci Lett. 2016;612:110-5.] which reduces the nociceptive transmission.

Adverse reactions and / or side effects

Four studies [²⁰20. Rabago D, Kijowski R, Woods M, Patterson JJ, Mundt M, Zgierska A, et al. Association between disease-specific quality of life and magnetic resonance imaging outcomes in a clinical trial of prolotherapy for knee osteoarthritis. Arch Phys Med Rehabil. 2013;94(11):2075-82., ²¹21. Rahimzadeh P, Imani F, Faiz SH, Entezary SR, Nasiri AA, Ziaeefard M. Investigation the efficacy of intra-articular prolotherapy with erythropoietin and dextrose and intra-articular 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., ²⁴24. Farpour HR, Fereydooni F. Comparative effectiveness of intra-articular prolotherapy versus peri-articular prolotherapy on pain reduction and improving function in patients with knee osteoarthritis: a randomized clinical trial. Electron Physician. 2017;9(11):5663-9., ²⁶26. 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.] reported that there were no side effects or adverse reactions in patients who received HDP. Two studies [¹⁷17. Reeves KD, Hassanein K. Randomized prospective double-blind placebo-controlled study of dextrose prolotherapy for knee osteoarthritis with or without ACL laxity. Altern Ther Health Med. 2000;6(2):68-74 7-80., ¹⁹19. 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.] reported minimal adverse reactions in both HDP treated groups and control groups, including mild to moderate pain, inflammation and selflimiting hematomas. The rest of the studies did not report whether or not there were side effects and / or adverse reactions. No serious complications such as infections or allergic reactions were observed in any of the studies.

Limitations

The number of studies included in this review is small, and each study itself included a low number of treated patients. Most of the studies included in this systematic review have low methodological quality in their design and present a high risk of bias, which weakens the evidence provided. The dosage used varied considerably among studies, as well as the concentrations of dextrose. Although all studies evaluated the same pathology, the application sites and frequency of application also varied significantly, which may have influenced our results. Similarly, the evaluation and analysis of the results were heterogeneous; even though the use of HDP could help decrease the degenerative process in cartilage, only few studies included radiological follow-up.

Conclusions

According to our results, HDP appears to be more effective for pain reduction and function improvement than infiltrations with local anesthetics; HDP seems to be as effective as HA, infiltrations with ozone and radiofrequency, and less effective than erythropoietin and PRP. The beneficial effects of HDP were observed in the short, medium and long term, reporting duration of the effect up to 1-year follow-up. Nevertheless, these results should be interpreted with reservation, given the low methodological quality and high risk of bias of the studies included, which limits the evidence provided and does not allow solid conclusions; so our findings do not indicate that HDP is a therapeutic agent of first choice for the treatment of knee OA, but it can be considered as an alternative or adjuvant treatment. More studies and better methodological quality are needed to establish a better level of evidence on the efficacy and safety of using HDP in patients with knee OA.

Acknowledgments

None.

References

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History