Evidence for Drug Treatments for Pain Related to Temporomandibular Joint Disorders S. M. Gordon DDS, MPH, PhD 1 A. Viswanath, BDS, MSD 1 R. A. Dionne DDS, PhD 1 University of Maryland, School of Dentistry, Baltimore, MD; Correspondence to: Dr. Sharon M. Gordon University of Maryland School of Dentistry, Baltimore, MD 650 West Baltimore Street, Room 6255 Baltimore, MD 21201 Telephone: 410 706 1656 Fax: 410 706 0864 Email: SGordon@umaryland.edu WHAT MEDICATIONS HAVE BEEN PROVEN EFFECTIVE FOR MANAGING CHRONIC OROFACIAL PAIN? In spite of its prevalence and impact, there is no standard of care for treatment of temporomandibular joint disorders (TMD) and no drugs have ever been approved by the FDA for this indication. Most drug-based (called “pharmacologic”) treatments used are based on results from studies of other types of chronic pain. The NIH proceedings of the Technology Assessment Conference on Management of Temporomandibular Disorders (1997) reported that the absence of clear guidelines for diagnosis and treatment has resulted in experimental use of new and inadequately tested approaches which may neither help patients nor have serious health consequences. This article provides a synthesis of the clinical evidence for non-invasive pharmacologic management for TMD since the time of that NIH conference. It should be noted that a variety of diagnostic approaches, classification schemes, and nomenclature are found in the literature; so we used the specific diagnostic terms as used in each reference that specified a diagnosis consistent with chronic facial pain or TMD. Papers were classified based on the Agency for Health Research and Quality (AHRQ) system for classifying strength of evidence 1 . All the evidence located is shown in Table 1 for further reading, and summarized next. RESULTS Aspirin-like or Non-steroidal anti-inflammatory drugs (NSAIDs), have traditionally been the most commonly prescribed for pain in the orofacial region 2 . As shown in Table 1, there is the highest level of evidence for effectiveness of diclofenac (like “Dolobid” or “Voltaren®”) and naproxen (a long-lasting drug marketed as Naprosyn® or Aleve®. Ibuprofen, one of the most often-used NSAIDs, has only been shown to be effective for chronic facial pain when combined 2 with other modalities, but not when used alone. Concerns of toxic effects on other body systems (digestive, kidney, and cardiac) modifies the long-term use of NSAIDs 3 4 5 6 .This makes them of limited utility for managing chronic pain and has lead to development of longer-lasting formulations, such as naproxen. Studies of piroxicam—another long-lasting NSAID—have shown mixed effectiveness for chronic facial pain. The selective cyclooxygenase (COX-2) inhibitor celecoxib (“Celebrex”) was not better than placebo, and naproxen was better for TMD pain 7 . Considering this evidence, NSAIDs may be most useful for short-term treatment of facial pain episodes (such as following TMJ injury or surgery) or for pain flares. Opioids (“narcotics”) are widely prescribed, but there are no published studies of their use for TMD pain, except as injection into the joints, which did not decrease pain. Use of opioids has been discouraged due to the limitations of long-term use for this drug class in that they may lead to an increase in pain or “hypersensitivity” over time, and they can lead to dependence (meaning increasingly higher doses are needed to produce the same effect), or even addiction. To overcome these problems, a related drug called “tramadol”, is sometimes used for chronic pain treatment, but there are no published studies of its use for TMD pain. Evidence for the effectiveness of muscle relaxants and benzodiazepines (“Valium-like” drugs) is overall favorable for reduction of TMD pain when compared to placebo; although benzodiazepines have not been shown effective when used alone. Similar to the benzodiazepines, other drugs used to reduce anxiety (“anxiolytics”) are also not effective in reducing TMD pain unless combined with other treatment approaches, or when treating a co-existing anxiety disorder. 3 Neuropathic pain drugs, such as gabapentin 8 have been shown to be effective for chronic facial myalgia, but there is only one published study to date. The most studied and promising drugs for TMD are of the antidepressant type, specifically tricyclic antidepressants. Even though there are now newer types of antidepressants available, there are no publications in the literature for TMD pain. The name of the drug class may be misleading, because they work for pain whether or not depression is present. Because these drugs need to build up in the system before they work for pain, many times side effects (mainly dry mouth and eyes, nausea, etc) cause patients to stop using them before they achieve optimal pain relief 9 . Disease modifying agents used for arthritis, such as infliximab (Remicade®), glucosamine hydrochloride, collagen hydrolysat, and chondroitin sulfate have been shown to be effective in reducing TMJ pain, when specifically due to joint disease. In a study comparing glucosamine to ibuprofen for TMD pain in patients specifically with TMJ disease, glucosamine improved pain and function better than ibuprofen and the effects were longer lasting 10 . Topically-applied agents, such as “Theraflex-TMJ” may also be effective in reducing TMD pain when compared to placebo. Topical diclofenac (an NSAID) is also effective, and was shown to be equally effective to diclofenac taken as a pill. Capsaicin cream (often used for diabetic neuropathic pain) was not effective in reducing TMD pain when compared to placebo and topical diclofenac. 4 SUMMARY As can be seen in the Table, some drugs have been studied specifically for TMD pain. Taken together, there is evidence available to support some drugs for treatment of TMD. The use of these should be applied judiciously and usually in combination with other approaches. The pharmacologic management of TMD should be based on the same principles that apply to other conditions: demonstrated effort, an acceptable side effect liability, and safety when given for prolonged periods 2. In addition, a broad range of other conditions can co-exist with TMD and these conditions need to be taken into account when considering treatment, as they may modify the safety or effectiveness. 5 References 1 Levels of Evidence Description: (AHRQ, Agency for Healthcare Research and Quality, http://www.ahrq.gov/clinic/epcsums/strengthsum.htm) 2 Dionne RA. Pharmacologic treatments for temporomandibular disorders. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 1997 Jan;83(1):134-42. 3 Singh G, Triadafilopoulos G. Epidemiology of NSAID induced gastrointestinal complications. J Rheumatol Suppl 1999 56:18-24. 4 Laura Plantinga, ScM1,2, Vanessa Grubbs, MD1, Urmimala Sarkar, MD1,2, Chi-yuan Hsu, MD1, Elizabeth Hedgeman, MS3, Bruce Robinson, MD4, Rajiv Saran, MD3, Linda Geiss, MS5, Nilka Ríos Burrows, MPH5, Mark Eberhardt, PhD6, Neil Powe, MD1,2 For the CDC CKD Surveillance Team. Nonsteroidal Anti-Inflammatory Drug Use Among Persons With Chronic Kidney Disease in the United States. Ann Fam Med. 2011;9:423-430.doi: 10.1370/afm.1302. 5 Warde, N. Pain: The cardiovascular risks of NSAID use: which NSAID is the safest of them all? Nat Rev Rheumatol 7, 129 (March 2011) | doi:10.1038/nrrheum.2011.9. 6 Johnson AG, Nguyen TV, Day RO. Do nonsteroidal anti-inflammatory drugs affect blood pressure? Ann Intern Med 1994; 121:289-300. 7 Ta, LE and Dionne RA.Treatment of painful temporomandibular joints with a cyclooxygenase-2 inhibitor: a randomized placebo-controlled comparison of celecoxib to naproxen. Pain 2004; 111:13-21. 8 Kimos P, Biggs C, Mah J, Heo G, Rashiq S, Thie NM, Major PW. Analgesic action of gabapentin on chronic pain in the masticatory muscles: a randomized controlled trial. Pain 2007; 127(1-2):151-60. 9 Zitman FG, Linssen AC, Edelbroek PM, Stijnen T. Low dose amitryptiline in chronic pain: the gain is modest. Pain 1990; 42:35-42. 10 Thie N, Prasad NG, Major PW. Evaluation of glucosamine sulfate compared to ibuprofen for the treatment of temporomandibular joint osteoarthritis: a randomized double blind controlled 3 month clinical trial. J Rheumatology 2001; 28(6):1347-1355. 6 Table Summarizing the Evidence for Pharmacologic, Non-invasive Treatments for TMD Drug Class NSAIDs Piroxicam and occlusal appliance vs appliance and placebo Piroxicam vs placebo Piroxicam vs acetaminophen vs placebo Diclofenac vs placebo Ibubrofen alone vs diazaepam alone vs combination of diazepam and ibuprofen vs placebo Glucosamine vs ibuprofen Celecoxib vs naproxen vs placebo Reference Findings Evidence Level +/Van den Berghe LI, de Boever JA, Schautteet H: Double-blind clinical study of piroxicam as adjuvant in the treatment of the pain and dysfunction of the temporomandibular joints. The J Craniomandib Practice, 1986; 4(4):352356 Gordon SM, Montgomery MT, Jones DL: Comparative Efficacy of Piroxicam vs Placebo for Temporomandibular Pain. J Dent Res 1990; 69:218 Gordon SM, Montgomery MT, Jones DL: Comparative Efficacy of Piroxicam, Acetaminophen and Placebo for Temporomandibular Pain. J Dent Res 1991; 70:329 Ekberg EC, Kopp S, Akerman S. Diclofenac sodium as an alternative treatment of temporomandibular joint pain. Acta Odontol Scand 1996; 54:154-159 Singer E, Dionne R. A controlled evaluation of ibuprofen and diazepam for chronic Orofacial muscle pain. J Orofacial Pain 1997; 11(2):139-146 Piroxicam was not effective as an adjuvant in the treatment for pain and dysfunction. All patients had equal improvement with no worsening of pain. Pain was significantly decreased in the diazepam and diazepam plus ibuprofen groups but not for the ibuprofen alone or placebo groups I Thie N, Prasad NG, Major PW. Evaluation of glucosamine sulfate compared to ibuprofen for the treatment of temporomandibular joint osteoarthritis: a randomized double blind controlled 3 month clinical trial. J Rheumatology 2001; 28(6):1347-1355 Ta, LE and Dionne RA.Treatment of painful temporomandibular joints with a cyclooxygenase-2 inhibitor: a randomized placebo-controlled comparison of celecoxib to naproxen. Pain 2004; 111:13-21 Glucosamine and ibuprofen both reduce pain in patients with TMJ degenerative joint disease, with more effect for glucosamine than ibuprofen. I II-1a Piroxicam decreased pain compared to placebo I Piroxicam decreased pain compared to acetaminophen. Pain reduced significantly in the diclofenac group compared to the placebo group. Naproxen was more effective than celecoxib and placebo in pain reduction. 7 I I I Diclofenac vs occlusal appliance Mejersjö C, Wenneberg B. Dichloro sodium and occlusion splint therapy in TMJ osteoarthritis: a randomized controlled trial. J Oral Rehab 2008; 35:729-738 Diclofenac gave more rapid improvement than occlusal appliance, but both treatments gave a significant reduction of symptoms within 3 months which remained at the one-year follow-up. Muscle relaxants and benzodiazepines Clonazepam vs placebo Diazepam vs placebo Carisoprodol vs placebo Orphenadrine citrate vs placebo Meprobamate vs placebo Alprazolam vs occlusal splint vs the two combined Triazalam vs placebo I +/Harkins S, Linford J, Cohen J, Kramer T, Cueva L. Administration of clonazepam in the treatment of TMD and associated myofascial pain; a double blind pilot study. J Craniomandib Disorders 1991; 5(3):179-86. Jagger RG. Diazepam in the treatment of temporomandibular dysfunction syndrome. A double blind study. J Dent 1974; 2: 37-40 Gallardo F, Molgo J, Miyazaki C, Rossi E. Carisprodol in the treatment of myofacial pain dysfunction syndrome. J Oral Surg 1975; 33: 655-660 Franks AS. Mandibular spasm: a double blind study of a muscle relaxant drug. Br J Clin Pract 1965; 19: 281-284 Greene CS, Laskin DM. Meprobomate therepy for the myofacial paindysfunction (MPD) symdrome: a double blind evaluation. JADA 1971; 82: 587-590 Nemcovsky CE, Gazit E, Serfati V, Gross M. A comparative study of three therapeutic modalities in a temporomandibular disorder (TMD) population. J Craniomandib Practice 1992; 10(2):148-155 DeNucci DJ, Sobriski C, Dionne RA. Triazolam inproves sleep but fails to alter pain in TMD patients. J Orofacial Pain 1998;12(2):116-123 Clonazepam decreases pain compared to placebo. I Diazepam was significantly better than placebo for pain and dysfunction. I Carisoprodol failed to show a significantly greater effect than the placebo. I Orphenadrine citrate reduces muscle spasm compared to placebo. Meprobamate effectively relieved painful symptoms compared to placebo. I No significant difference between the treatments for pain. Alprazolam improved jaw movement but not joint noises. The combined treatments were not better than either alone. Improvement in sleep, but not pain or muscle hyperactivity with triazolam compared to placebo. 8 I II-1a I Clonazepam vs cyclobenzaprine vs placebo all with self-care instruction Ibubrofen alone vs diazaepam alone vs combination of diazepam and ibuprofen vs placebo Occlusal splint therapy and NSAIDS with orphenadrine citrate and benzodiazepines Herman CR, Schiffman EL, Look JO. The effectiveness of adding pharmacological treatment with clonazepam or cyclobenzaprine to patient education and self care for the treatment of jaw pain upon awakening: a randomized clinical trial. J Orofacial Pain 2002; 16:64-79 Singer E, Dionne R. A controlled evaluation of ibuprofen and diazepam for chronic Orofacial muscle pain. J Orofacial Pain 1997; 11(2):139-146 Cyclobenzaprine decreased jaw pain upon awakening compared to clonazepam or placebo, when added to self-care instructions. Sleep quality was unchanged. Rizzatti-Barbosa CM, Noguiera MT, de Andrade ED, Ambrosano GM, de Barbosa JR. Thereputic response of benzodiazepine orphenadrine citrate and occlusal splint association in TMD pain. Cranio 2003; 21(2):116-120 All the groups experienced pain relief. No significant difference was observed among groups. Pain was significantly decreased in the diazepam and diazepam plus ibuprofen groups but not for the ibuprofen alone or placebo groups. Neuropathic pain agents, including antidepressants Sharav Y, Singer E, Schmidt E, Dionne RA, Dubner R. The analgesic effect of amitryptiline on chronic facial pain. Pain 1987; 31:199-209 Amitriptyline vs. placebo appliance Rizzatti-Barbosa CM, Noguiera MT, de Andrade ED, Ambrosano GM, de Barbosa JR. Clinical evaluation of amitryptiline for the control of chronic pain caused by temporomandibular joint disorders. Cranio 2003; 21(3):221225 McQuay HJ, Carroll D, Glynn CJ. Low dose amitryptiline in the treatment of chronic pain. Anesthesia 1992; 47:646652 Low dose amitriptyline I II-1a + Low or high dose amitriptyline vs placebo Amitriptyline vs placebo I Plesh O, Curtis D, Levine J, McCall WD Jr. Amitriptyline treatment of chronic pain in patients with temporomandibular disorders. J Oral Rehab 2000; 27(10):834-841 Low and high dose amitriptyline effective in treatment of chronic orofacial pain compared to placebo, independent of its effects on depression. Aminitriptyline significantly reduced pain compared to placebo. Low dose amitriptyline was effective in the treatment of chronic pain compared to placebo. Significant reduction for low dose amitriptyline for all pain scores for myofascial and joint pain after 6 weeks and 1 year post-treatment. 9 I I I II-1a gabapentin vs placebo Kimos P, Biggs C, Mah J, Heo G, Rashiq S, Thie NM, Major PW. Analgesic action of gabapentin on chronic pain in the masticatory muscles: a randomized controlled trial. Pain 2007; 127(1-2):151-60. Gabapentin reduced pain compared to placebo I Immune Modifying Drugs infliximab (Remicade) +/methotrexate glucosamine hydrochloride and chondroitin sulfate vs placebo Glucosamine vs ibuprofen Collagen hydrolysat +/Koop S, Alstergren P, Ernestam S, Nordahl S, Morin P, Bratt J. Reduction of temporomandibular joint pain after treatment with a combination of methotrexate and infliximab is associated with changes in synovial fluid and plasma cytokines in rheumatoid arthritis. Cells Tissues Organs 2005;180(1):22-30 Nguyen P, Mohamed SE, Gardiner D, Salinas T. A randomized double blind clinical trial of the effect of chondriotin sulfate and glucosamine hydrochloride on temporomandibular joint disorder: a pilot study. J Craniomandi Practice 2001; 19(2):130-139 Systemic treatment with a combination of infliximab and methotrexate reduces TMJ pain in rheumatoid arthritis in association with an increase in anti-inflammatory cytokines and receptors in synovial fluid and plasma. Thie N, Prasad NG, Major PW. Evaluation of glucosamine sulfate compared to ibuprofen for the treatment of temporomandibular joint osteoarthritis: a randomized double blind controlled 3 month clinical trial. J Rheumatology 2001; 28(6):1347-1355 Olson GB, Savage S, Olson J. The effect of collagen hydrolysat on symptoms of chronic fibromyalgia and temporomandibular joint pain. J Craniomandib Practice 2000; 18(2):135-141 Glucosamine and ibuprofen both reduced pain in patients with TMJ degenerative joint disease, with more effect for glucosamine than ibuprofen. Glucosamine hydrochloride and chondroitin sulfate demonstrated improvements in pain measures. Pain decreased significantly in the overall group in patients with fibromyalgia and concurrent TMD. Topically-applied agents Capsaicin cream vs placebo cream II-1b I I II-1b +/Winocur E, Gavish A, Halachmi M, Eli I, Gazit E. Topical application of capsaicin for the treatment of localized pain in the temporomandibular joint area. J Orofacial Pain 2000; 14:31-36 Capsaicin cream for localized pain in TMJ area did not significantly relieve pain compared to placebo. 10 I Theraflex-TMJ vs. Placebo Oral diclofenac sodium vs. topical diclofenac 1 Lobo SL, Mehta N, Forgione AG, Melis M, Al-Badawi E, Ceneviz C, Zawawi KH. Use of theraflex-TMJ topical cream for the treatment of temporomandibular joint and muscle pain. J Craniomandib Practice 2004; 22(2): 137-144 Di Rienzo Businco L, Di Rienzo Businco A, D'Emilia M, Lauriello M, Coen Tirelli G. Topical versus systemic diclofenac in the treatment of temporomandibular joint dysfunction symptoms. Acta Otorhinolaryngol Ital 2004; 24:279-283 Significant reduction in pain from baseline in Theraflex group compared to placebo. I Topically applied diclofenac and oral diclofenac equally effective in the treatment of TMD symptoms. I Levels of Evidence Description: (AHRQ, Agency for Healthcare Research and Quality, http://www.ahrq.gov/clinic/epcsums/strengthsum.htm) Level I = Randomized controlled trials Level II-1a = Psuedo-randomized controlled trials Level II-1b = RCT without randomization Level II-2a = Prospective cohort study with concurrent controls Level II-2b = Prospective cohort study with historic controls Level II-3 = Retrospective case-control studies Level III = Observational natural history studies Level IV = Opinion based on clinical experience; descriptive studies, case reports, reports of expert committees *Drug class omitted in the table where no published papers were available for review. 11
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