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Table of Contents
Year : 2012  |  Volume : 28  |  Issue : 4  |  Page : 496-500

Comparison of efficacy of intra-articular morphine and steroid in patients with knee osteoarthritis

Department of Anesthesia and Pain Management Center, Sakarya University Medical School, Sakarya, Turkey

Date of Web Publication4-Oct-2012

Correspondence Address:
Serbülent Gökhan Beyaz
Associate Professor, Department of Anesthesiology and Pain Management Center, Sakarya University Medical School, Korucuk Campus, Adapazari, Sakarya
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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/0970-9185.101940

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Introduction: Primary therapeutic aim in treatment of osteoarthritis of the knee is to relieve the pain of osteoarthritis. The aim of this study was to compare the efficacy of intra-articular triamcinolone with intra-articular morphine in pain relief due to osteoarthritis of the knee in the elderly population.
Materials and Methods: Patients between 50 and 80 years of age were randomized into three groups. Group M received morphine plus bupivacaine intra-articularly, Group T received triamcinolone plus bupivacaine intra-articularly, and Group C received saline plus bupivacaine intra-articularly. Patients were evaluated before injection and in 2nd, 4th, 6th, and 12th weeks after injection. First-line supplementary analgesic was oral paracetamol 1500 mg/day. If analgesia was insufficient with paracetamol, oral dexketoprofen trometamol 50 mg/day was recommended to patients.
Results: After the intra-articular injection, there was statistically significant decrease in visual analog scale (VAS) scores in Groups M and T, when compared to Group C. The decrease of VAS scores seen at the first 2 weeks continued steadily up to the end of 12th week. There was a significant decrease in Groups M and T in the WOMAC scores, when compared to Group C. There was no significant difference in the WOMAC scores between morphine and steroid groups. Significantly less supplementary analgesics was used in the morphine and steroid groups.
Conclusion: Intra-articular morphine was as effective as intra-articular triamcinolone for analgesia in patients with osteoarthritis knee. Intra-articular morphine is possibly a better option than intra-articular steroid as it has lesser side effects.

Keywords: Injection, knee, morphine, osteoarthritis, triamcinolone

How to cite this article:
Beyaz SG. Comparison of efficacy of intra-articular morphine and steroid in patients with knee osteoarthritis. J Anaesthesiol Clin Pharmacol 2012;28:496-500

How to cite this URL:
Beyaz SG. Comparison of efficacy of intra-articular morphine and steroid in patients with knee osteoarthritis. J Anaesthesiol Clin Pharmacol [serial online] 2012 [cited 2021 Apr 18];28:496-500. Available from:

  Introduction Top

Osteoarthritis of the knee is one of the most frequent forms of arthritis, especially in the elderly population, and is a major cause of pain and disability. [1],[2] Underlying cause of the disease is degradation of cartilage and its presents clinically is pain, stiffness, limited mobility of the involved joint. Main symptom of osteoarthritis of the knee is pain; therefore, primary aim is to relieve the pain. [3],[4] Intra-articular opioids are used in addition to steroids. [5],[6],[7]

Morphine and endogenous opioids (enkephalins, dynorphins, and β-endorphines) stimulate δ-, κ-, and μ-opioid receptors. or/and βeta-endorphines) stimulate sigma, kappa-, and μ-opioid receptors. Activation of all three main receptors has biological effects, which are mediated primarily via central nervous system. [8],[9] After discovery of opioid receptors in peripheral nerve terminals, opioids were administered locally. Antinociceptive and anti-inflammatory effects of morphine have been demonstrated. [10],[11] In chronic arthritis patients, intra-articular morphine injection provides analgesia, which is equivalent to dexamethasone. It is also possible that intra-articular morphine may have some anti-inflammatory actions. [5]

There is no other study which compares long-term clinical effects of intra-articular morphine with dexamethasone in osteoarthritis of the knee in the literature. We aimed to compare intra-articular triamcinolone with morphine through a 12-week-period.

  Materials and Methods Top

After the approval, of local ethical committee, written informed consent was obtained from each included patient. A double blind, prospective, randomized, and controlled trial was conducted on different modes of intra-articular analgesia in patients suffering from osteoarthritis knee. The inclusion and exclusion criteria were as per [Table 1]. Patients were randomized by the closed-envelope technique into three groups. Namely, Group M (morphine), Group T (steroid), and Group C (control).
Table 1: Inclusion and exclusion criteria

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In the supine position, the knee was flexed and a roll was placed under it. Under strict asepsis, a 1½-inch 25 G needle was placed between the patella and femoral condyle in the middle of the medial edge of patella. Local anesthetic was not used to the injection site. In Group M patients, morphine 5 mg (½ ml) with bupivacaine 20 mg (4 ml) and ½ ml saline (5 ml volume) was given intra-articularly. In Group T patients, triamcinolone acetonide 40 mg (1 ml) with bupivacaine 20 mg (4 ml) was given intra-articularly (5 ml volume). In Group C patients, 1 ml saline plus 20 mg bupivacaine (4 ml) was given intra-articularly (5 ml volume). Since the solutions were in different colors, sticker was used to cover injectors to hide to ensure blinding. Injections were administered by another blinded investigator. Patients were observed for 1 h after the injection. The knee was wrapped with compressive elastic bandage. Cold application was performed. After discharge, if there was persistent pain, patients were advised to take 1 g paracetamol orally three times daily. If there was persistent pain despite paracetamol, dexketoprofen trometamol 50 mg/daily orally was advised and its intake recorded.

Pain severity was evaluated according to visual analog scale (VAS), by the same blinded physician, before injection, and in 2nd, 4th, 6th and 12th weeks after injection. The following parameters were recorded at every visit:

  1. VAS scores at daily activities only for the injected knee (0 = no pain and 10 = worst and most severe pain ever).
  2. According to the Turkish version of WOMAC (Western Ontario and McMaster Universities) scale, [15] which contains 24 questions [Table 2], pain scores were evaluated according to WOMAC-P and WOMAC-S. WOMAC is a new multidimensional, self-administered health status instrument for patients with osteoarthritis of the hip or knee.
  3. Incidence of side effects, if any, such as itching, paresthesia, urinary retention, nausea-vomiting, dizziness-vertigo, and rash were recorded.
Table 2: WOMAC scale questionnaire

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The SPSS 17.0 software program was used for statistical analysis. Efficacy of treatment was evaluated for each group using VAS, WOMAC-P, WOMAC-S, and WOMAC-F scores. Initial values and values in 2nd, 4th, 6th, and 12th weeks were analyzed with ANOVA one-way variance analysis. One-way ANOVA analysis was performed by post-hoc tests, Bonferroni correction. P < 0.016 was considered as significant. Then, efficacy of three groups was compared with each other using variance analysis of repeated measures. Supplementary analgesic consumption was evaluated with chi-square test. P < 0.05 was accepted as statistically significant.

  Results Top

A total 82 patients were recruited, but 9 out of them were excluded later as they did not come for follow-up. There was no significant difference of demographic data between groups [Table 3].
Table 3: Demographic features of the three groups

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The VAS baseline values in the three groups were not significantly different (P > 0.05). VAS scores of the control group had no significant change over 12 weeks of time. The morphine and steroid groups had significantly decreased VAS scores at every visit over 12 weeks. The morphine and steroid groups were compared with each other, and their scores were similar (P > 0.05). Variance analysis of repeated measurements revealed decreased VAS scores of both morphine and steroid groups than the control group and this decrease continued until the end of 12th week [P < 0.001, [Figure 1]].
Figure 1: VAS scores versus time in the groups.*Significance of Group M versus Group T, P > 0.05. †Significance of Group M and Group T versus Group C, P < 0.000

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WOMAC pain, stiffness and, function scores were compared using one-way ANOVA. VAS scores of morphine and steroid groups were significantly decreased in 2nd, 4th, 6th, and 12th weeks [P < 0.001, [Figure 2]]. In three groups, there was a significant different compared in terms of the WOMAC baseline values (P > 0.05). Morphine and steroid groups were compared with each other using variance analysis of repeated measurements, and their WOMAC scores were also similar in 2nd, 4th, 6th, and 12th weeks [P > 0.05, [Figure 2]].
Figure 2: WOMAC scores versus time in the groups. (a) WOMAC - pain (0-20 point), (b) WOMAC - stiffness (0-8 point), and (c) WOMAC - function (0-68 point). *Significance of Group M and Group T versus Group C, P < 0.000

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Patients in the morphine and steroid groups needed significantly lesser NSAID supplementation than patients in the control group. However, all patients of the control group needed NSAID supplementation and paracetamol. The morphine group had significantly lower NSAID consumption than steroid group (P = 0.036). No side effect was recorded for any patient during the conduct of this study.

  Discussion Top

This study presents 12-week follow-up of 82 patients with osteoarthritis of the knee. We found that intra-articular morphine and triamcinolone had high analgesic efficacy. Intra-articular morphine had no side effects as observed in previous studies. [5],[6] No patient in this study had any adverse effects during 12 weeks. We used two different measurement methods (VAS and WOMAC) to assess pain relief and functional improvement of the knee joint in this study.

The exact mechanism of analgesic and anti-inflammatory effect of intra-articular morphine is not known yet. Probably, opioid receptors of peripheral nerve terminals are activated. [9],[10],[11] Opioid receptors are synthesized at dorsal root ganglions and transferred to nerve terminals via axonal route. When these receptors are stimulated, both endogenous and exogenous opioid peptides are activated simultaneously inside inflammatory cells. [10] Local opioid-dependent analgesic actions are more pronounced in inflamed tissues than noninflamed tissues. This may be because of increased coupling with G-proteins, and/or may be associated with the increased number of exposed opioid receptors (which are exposed after degradation of perineural barriers and passage of agonists). [8],[16]

Intra-articular steroid and morphine were compared in chronic arthritis patients for relief of pain severity and both were found to provide pain relief for 2-6 days. [5] We too found that intra-articular morphine provided long-term pain relief in patients with osteoarthritis. [6],[7] Morphine may inhibit the nociceptive sensitization or excitation of peripheral sensory neurons and development of long-term excitatory effects in spinal cord (wind-up) proinflammatory reflex mechanisms. [11]

Low blood flow of the knee joint together with low clearance of synovial fluid may contribute to long-lasting analgesic effect. The long-term analgesic effect may also be due to low lipid solubility of morphine with low absorption rate. Morphine metabolites too have an analgesic effect. Furthermore, morphine has cellular pro-proliferative effects, which may be associated with cartilage regeneration and regulation of chondrocyte growth. [8]

Instead of systemic absorption, morphine was shown to stay inside the knee joint after intra-articular injection. In a study, comparing same doses of intra-articular with intravenous morphine, significantly different plasma levels were found. Intra-articular morphine has significantly lower systemic side effects, such as nausea-vomiting, dizziness-vertigo, constipation, dependency-abuse, compared to systemic administration. [5]

Studies have shown that demographic features have a role in effectiveness of morphine, in treatment of both acute and chronic pain. Clinical presentation and side effects of opioids are affected by demographic features as well. [17],[18],[19] Patients in our study were of low socioeconomically and educational status. However, the compliance of patients was good and increased because their pain stopped a few minutes after intra-articular injections. All injections are performed by the same experienced doctor at the first attempt. Nine patients were excluded from as they did not come for follow-up examinations.

There is a minimal risk of injury to joint with single-shot corticosteroid injection. On the other hand, long-term triamcinolone injection may lead to harmful consequences to joint cartilage. [20] Long-term and repeated intra-articular steroid injections may lead to serious side effects of systemic steroids. [21],[22],[23] The most feared consequence is steroid-induced arthropathy and joint sepsis. [2],[24],[25] Every injection causes some degree of anxiety to the physicians performing it. [26] However, one study suggests that there are no adverse effects, to anatomical structures of the knee joint, of steroid injections at 3 month intervals within 2 years. [3] Lipid necrosis, dermal atrophy, depigmentation, and subcutaneous tissue atrophy are minor local complications seen near the injection site. Malposition of the needle may cause these minor local complications. [21] Easy-one-shot injection is performed with 1½-inch 25 G needle directly without any risk of malposition.

Intra-articular analgesic drug administration helps reduce consumption of oral analgesic/anti-inflammatory drugs. Our control group had insufficient level of analgesia with paracetamol, and their VAS/WOMAC scores were high; therefore, we had to give dexketoprofen trometamol to these patients in addition to paracetamol. The morphine and steroid groups had significantly lower consumption of other analgesics and their pain scores were low. [5] All of the included patients refused arthroscopic debridement and/or knee prosthesis operations. They had to use NSAID for longer terms and were prone to their gastrointestinal side effects. NSAID complication costs are at least three times higher than the cost of intra-articular steroid injections. [24]

In conclusion, intra-articular morphine has comparable efficacy with intra-articular triamcinolone injection in pain relief. Nevertheless, further studies are needed for evaluation of dosage and effectiveness in different and /or larger patient populations in order to confirm these results.

  Acknowledgments Top

Authors would like to thank Dr. Aydın ECE for him valuable contribution related to the data collection, the statistical analysis and for editing the manuscript. Funding for this study was provided by Boztepe State Hospital, Ordu, Republic of Turkey.

  References Top

1.Ravaud P, Moulinier L, Giraudeau B, Ayral X, Guerin C, Noel E. Effects of joint lavage and steroid injection in patients with osteoarthritis of the knee: Results of a multicenter, randomized, controlled trial. Arthritis Rheum 1999;42:475-82.  Back to cited text no. 1
2.Neustadt DH. Intra-articular injections for osteoarthritis of the knee. Cleve Clin J Med 2006;73:897-8, 901-4, 906-11.  Back to cited text no. 2
3.Raynauld JP, Buckland-Wright C, Ward R, Choquette D, Haraoui B, Martel-Pelletier J, et al. Safety and efficacy of long-term intraarticular steroid injections in osteoarthritis of the knee: A randomized, double-blind, placebo-controlled trial. Arthritis Rheum 2003;48:370-7. Erratum in: Arthritis Rheum. 2003;48:3300.  Back to cited text no. 3
4.Uthman I, Raynauld JP, Haraoui B. Intra-articular therapy in osteoarthritis. Postgrad Med J 2003;79:449-53.  Back to cited text no. 4
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8.Elvenes J, Andjelkov N, Figenschau Y, Seternes T, Bjørkøy G, Johansen O. Expression of functional mu-opioid receptors in human osteoarthritic cartilage and chondrocytes. Biochem Biophys Res Commun 2003;311:202-7.  Back to cited text no. 8
9.Mousa SA, Straub RH, Schäfer M, Stein C. Beta-endorphin, met-enkephalin and corresponding opioid receptors within synovium of patients with joint trauma, osteoarthritis and rheumatoid arthritis. Ann Rheum Dis 2007;66:871-9.  Back to cited text no. 9
10.Stein C. The control of pain in peripheral tissue by opioids. N Engl J Med 1995;332:1685-90.  Back to cited text no. 10
11.Stein C, Clark JD, Oh U, Vasko MR, Wilcox GL, Overland AC, et al. Peripheral mechanisms of pain and analgesia. Brain Res Rev 2009;60:90-113.  Back to cited text no. 11
12.Altman R, Asch E, Bloch D, Bole G, Borenstein D, Brandt K, et al. Development of criteria for the classification and reporting of osteoarthritis. Classification of osteoarthritis of the knee. Diagnostic and Therapeutic Criteria Committee of the American Rheumatism Association. Arthritis Rheum 1986;29:1039-49.  Back to cited text no. 12
13.Kellgren JH, Lawrence JS. Radiological assessment of osteo-arthrosis. Ann Rheum Dis 1957;6:494-501.  Back to cited text no. 13
14.Altman R, Brandt T, Hochberg M, Moskovitz R. Design and conduct of clinical trials of patients with osteoarthritis. Recommendations from a task force of the osteoarthritis research society. Osteoarthritis Cartilage 1996;4:217-43.  Back to cited text no. 14
15.Tüzün EH, Eker L, Aytar A, Daþkapan A, Bayramoðlu M. Acceptability, reliability, validity and responsiveness of the Turkish version of WOMAC osteoarthritis index. Osteoarthritis Cartilage 2005;13:28-33.  Back to cited text no. 15
16.Tegeder I, Meier S, Burian M, Schmidt H, Geisslinger G, Lötsch J. Peripheral opioid analgesia in experimental human pain models. Brain 2003;126:1092-102.  Back to cited text no. 16
17.Kolesnikov Y, Gabovits B, Levin A, Voiko E, Veske A. Combined catechol-o-methyltransferase and {micro}-opioid receptor gene polymorphisms affect morphine postoperative analgesia and central side effects. Anesth Analg 2011;112:448-53.  Back to cited text no. 17
18.Nishizawa D, Hayashida M, Nagashima M, Koga H, Ikeda K. Genetic polymorphisms and human sensitivity to opioid analgesics. Methods Mol Biol 2010;617:395-420.  Back to cited text no. 18
19.Tremblay J, Hamet P. Genetics of pain, opioids, and opioid responsiveness. Metabolism 2010;59 Suppl 1:S5-8.  Back to cited text no. 19
20.Céleste C, Ionescu M, Robin Poole A, Laverty S. Repeated intraarticular injections of triamcinolone acetonide alter cartilage matrix metabolism measured by biomarkers in synovial fluid. J Orthop Res 2005;23:602-10.  Back to cited text no. 20
21.Wang JJ, Ho ST, Lee SC, Tang JJ, Liaw WJ. Intraarticular triamcinolone acetonide for pain control after arthroscopic knee surgery. Anesth Analg 1998;87:1113-6.  Back to cited text no. 21
22.Grillet B, Dequeker J. Intra-articular steroid injection. A risk-benefit assessment. Drug Saf 1990;5:205-11.  Back to cited text no. 22
23.Gosal HS, Jackson AM, Bickerstaff DR. Intra-articular steroids after arthroscopy for osteoarthritis of the knee. J Bone Joint Surg Br 1999;81:952-4.  Back to cited text no. 23
24.Saunders S, Longworth S. Ýnjection techniques in orthopaedics and sports medicine. In: Saunders S, Longworth S, editors. Section 1: Guidelines and procedures. Third ed. Philadelphia: Elservier Churchill Livingstone; 2006. p. 3-15.  Back to cited text no. 24
25.Seror P, Pluvinage P, d'Andre FL, Benamou P, Attuil G. Frequency of sepsis after local corticosteroid injection (an inquiry on 1160000 injections in rheumatological private practice in France). Rheumatology (Oxford) 1999;38:1272-4.  Back to cited text no. 25
26.Cameron, G. Steroid arthropathy: Myth or reality? J Orth Med 1995;17:51-5.  Back to cited text no. 26


  [Figure 1], [Figure 2]

  [Table 1], [Table 2], [Table 3]

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