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Treatments for TMD Clicking with Symptoms: An Evidence-Based Study of the Literature
Tarun Bablani BSc, Jeanie Luong HBSc, Christine Magalhaes HBSc,
Indervir Mann HBSc, Audrey McNamara BSc, and Victoria Ngo BSc
Department of Community Dentistry Faculty of Dentistry University of Toronto 124 Edward Street Toronto, ON M5G 1G6 Correspondence to: Audrey McNamara 124 Edward Street, Toronto, ON M5G 1G6 [email protected], 416.979.4750 ext. 3534 Word Count: 2,112
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Abstract
This evidence-based study of the literature investigated the most efficacious treatment
options for TMJ clicking presenting with at least one other TMD symptom in adult
populations over 21 years of age. The review was based on evidence from randomized-
controlled trials found through 1) a search of several electronic bibliographic databases,
a review of the reference lists from relevant articles, and hand-searches of relevant
periodicals. A total of 20 unique articles were reviewed, and of these, 6 were critically
appraised and scored according to the checklist to assess evidence of efficacy of
therapy comprising 18 items. Four categories for TMD therapies were identified:
occlusal splints, surgery, pharmacotherapy, and physical therapy/acupuncture. None
of the studies achieved a score below 12 out of 18; however, the strength of the
conclusions drawn from these reports was limited due to minor methodological flaws,
small sample sizes and short-term results of less than 1 year. Therefore, long-term
results and larger sample sizes are needed to demonstrate whether clicking is
completely eliminated and if the findings can be generalized to the general adult
population. Overall, the evidence suggests a fair recommendation for the use of intra-
articular sodium hyaluronate injections for the treatment of anterior disc-displacement
as well as use of therapeutic exercises of the jaw may be successful at reducing TMJ
clicking in TMD patients.
MeSH key words: temporomandibular joint, clicking, temporomandibular joint disorder
therapy/treatment
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Introduction:
Temporomandibular joint (TMJ) disorder is a broad term that encompasses several
distinct pathological states of the TMJ. The origin of the TMJ disorder may be 1)
extracapsular, involving primarily the muscles of mastication around the TMJ1, 2) intra-
capsular, as a result of abnormalities of the articular surfaces or the mechanical
relationship of the joint2, or 3) a combination of extra- and intra-articular elements.
Currently, our understanding of TMJ disorder etiology is limited3, and diagnostic
classification is based on less objective signs and symptoms4. The most common
symptoms are pain, dysfunction and joint sounds. In Canada, TMJ sounds are
prevalent in 25.4% of the population5 and specifically TMJ clicking, which is the most
common joint sound, is present in 21-40% of Swedish, American and Turkish TMD
patient population and 4-28% of the general population6,7,8. It is also predominant in
females6 and older individuals9. Clicking most commonly results from displacement of
the articular disc and irregularities in the articular surface10,11. It is not known whether
TMJ clicking alone represents a harmless condition or an indication of a joint that is
predisposed to progressive pathology. The notion that untreated clicking in
adolescence may lead to painful locked jaw in adulthood was investigated in a
longidutinal study by Knnen12, and their findings did not substantiate this concern.
Patients diagnosed with the condition disc-displacement with reduction that present
with clicking have a better quality of life compared to patients with more severe forms
of TMD (e.g. myofascial pain). However, despite having a better quality of life, some
patients still find the clicking bothersome and may seek treatment to correct it13. In rare
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cases, TMJ clicking is loud enough to be socially disturbing14,15. Most patients with TMJ
clicking do not seek treatment until other TMJ symptoms, most commonly pain,
develop16. Treatment modalities are generally classified into conservative measures,
such as occlusal splints and masticatory exercise, non-conservative surgical
interventions, such as condylectomy. Whether or not to exhaust all conservative
treatments before proceeding to non-conservative even irreversible options at the risk of
allowing the condition to worsen by not providing the most appropriate therapy in a
timely manner, is fiercely debated in the literature17,18.
The aim of this study was to evaluate the literature, and present the strongest
evidence currently available to address the question: what are the most efficacious
treatment options for TMJ clicking presenting with at least one other TMD symptom in
adult populations over 21 years of age? Based on our findings, we offer our evidence-
based recommendations for the management of patients seeking treatment for TMJ
clicking and our suggestions for further research.
Methods
A systematic method was used to identify, select and critically appraise relevant
studies.
Search Strategy
Three types of searches were conducted to locate potentially relevant published articles.
First, electronic bibliographic databases were searched: PubMed (1996-present),
MEDLINE (1966- present), Cochrane reviews, IADR Abstracts, Scopus, and Embase.
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The following key words were used in the preliminary search: TMJ clicking, TMJ
sounds, TMD, TMJ treatment, and TMJ therapy. The categories for TMD therapies were
identified as 1) Occlusal splints, 2) Surgery, 3) Pharmacotherapy, and 4) Physical
Therapy/Acupuncture. Using these treatment categories, the electronic databases were
searched again using TMD clicking plus the following key words: splint, occlusal
splint, splint therapy, oral appliance, surgery, arthroscopy, arthrocentesis,
condylectomy, discectomy, anesthetic, botulinum toxin, hyaluronic acid, dental
acupuncture, physical therapy, manual therapy and therapeutic exercise. Second, the
reference lists from articles deemed relevant to the review (see explanation below) were
examined. Thirdly, relevant periodicals (Evidence-Based Dentistry and Journal of Oral
Maxillofacial Surgery) were hand-searched. These searches were limited to studies of
human subjects published in peer-reviewed journals in English.
Determination of Relevance All articles of interest to this study were available in the Dental Library at the
University of Toronto, and no articles were excluded because of unavailability from the
University library holdings. Articles were rejected systematically at the title, abstract,
full-length article, and lastly, the critical appraisal stage. An article was considered
relevant if it met the following criteria. 1) The study evaluated TMJ clicking, not
crepitation, at baseline and after treatment intervention. 2) The article reported original
research. Review articles, systematic reviews, meta-analyses, commentaries and expert
opinion reports were excluded. 3) The study was a randomized controlled clinical trial
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or randomized clinical outcome study. Prospective and retrospective studies as well as
case series and case reports were excluded. A list of the excluded articles and the
reasons for exclusion appears in Appendix 1. 4) The population studied was adults,
defined as 21 years or older. This process yielded 22 potentially relevant articles to be
evaluated at the critical appraisal stage.
Validity Instrument After elimination of 2 duplicate articles, resulting from overlap between surgical and
drug therapies, A total of 20 unique articles were retrieved and scored by two
evaluators, independently, according to a checklist to assess evidence of efficacy of
therapy or prevention developed by Leake19 (Table 1). The highest possible score was
18.
Results
The literature search produced six relevant articles20,21,22,23,24,25 addressing three
treatment options for TMD clicking and symptoms which satisfied our search criteria,
including surgical injections with sodium hyaluronate, occlusal splints and alternative
therapies of acupuncture and therapeutic exercise (Table 2). Other possible treatments
that were discovered in the initial search such as arthroscopic surgery, muscle relaxants
(e.g. botox), or anti-inflammatory agents (e.g. corticosteroids) did not meet our search
criteria in terms of study design and were excluded from this evidence-based report.
As seen in the evidence table (Table 2), each treatment category has two articles:
surgical injections (Bertolami et al. & Hepguler et al.), occlusal splints (Conti et al. &
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Truelove et al.) and alternative treatments of acupuncture and therapeutic exercise
(Smith et al. & Yoda et al. respectively). The studies originated from the United States,
Turkey, Brazil, the UK and Japan. All studies were small in sample size and short in
duration. Each paper presented more females than males in the sample size, however
this was expected according to data on TMD prevalence, and both genders were evenly
distributed amongst the groups. No study scored less than 12/18, which therefore met
our checklist criteria.
For surgical injections, the papers both focused on injecting sodium hyaluronate
in the treatment group, and saline as a placebo in the control. Data from Bertolami et al.
was only included from the DDR (displaced disc with reduction) group, because these
subjects presented with joint clicking upon diagnosis. TMD clicking as an outcome was
measured by visual analog scale (VAS) and electronic devices (e.g. accelerometer), and
was noticeably reduced in the treatment group compared to the placebo in both studies
during the 6 month follow-up. Bertolami et al. reports these findings first, and Hepguler
et al. confirms the outcome nearly 10 years later in a similarly designed study.
Occlusal splint therapy examined by Conti et al. compared bilaterally balanced
splints and canine guided splints in the treatment group to non-occluding splints in the
control. Joint clicking measured by VAS and palpation was significantly reduced in all
groups during the 6 month duration; however, the results were not significant between
the groups. Truelove et al. compared treatment groups using hard and soft splints with
a control group that used the usual treatment (i.e. dentist-prescribed, reversible self-care
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strategies such as NSAIDs and thermal packs). For all three groups, joint clicking did
not change from baseline during the 12 month follow-up.
Acupuncture therapy assessed by Smith et al. compared real acupuncture with a
placebo group using a park sham device (a blunt needle that looks like a real needle),
however, the study presented no improvements in joint clicking for either group
measured by VAS. Physical therapy exercises by Yoda et al. compared the therapeutic
exercises with a no treatment group. It was observed that there was a 61.9% success rate
in decreased clicking in the treatment compared to the control group.
Discussion
There are few studies that report on the therapeutic outcome for TMJ clicking alone, but
rather, studies tend to look at all TMD symptom outcomes, which may or may not
include joint clicking16. Some individuals postulate that clicking may not even be
pathologic26, and consequently, treatments target TMD symptoms as a whole or its
more pathological symptoms (e.g. pain or minimal jaw opening). Because of the lack of
studies that focused solely on TMJ clicking as an outcome, papers were selected that
evaluated TMD patients with clicking at baseline, and following treatment.
Sodium hyaluronate is a high-molecular-weight polysaccharide that is a natural
component of synovial fluid, playing an important role in lubricating and maintaining
the joint environment27. TMD clicking is reduced in subjects injected with short-term
therapy of sodium hyaluronate compared to the saline placebo, however, long-term
effects are not known. It also is not known whether there is a dose-dependent
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relationship between sodium hyaluronate and the reduction of clicking and symptoms
since neither investigator measured this. Nevertheless, the results are reliable since
Hepguler et al. was able to reproduce the results by Bertolami et al. nearly a decade
later. Sodium hyaluronate is reported as safe20, and treatment subjects presented with
mild adverse symptoms that were short in duration which were no different from the
placebos adverse effects.
Occlusal splint therapy is the most common form of TMD treatment used22. The
mechanism of action is unclear, however, some suggest that splints may increase the
vertical dimension of occlusion, achieve the ideal occlusion, relax the muscles or have
a cognitive effect23. The use of occlusal splints as a major treatment option for TMD
pain has been shown to be effective; however, the same cannot be said for TMD
clicking. In the study by Conti et al., the control groups (non-occluding splints) were
just as effective as the intervention groups (occluding splints) in mildly decreasing
clicking prevalence. The findings by Truelove et al., were similar suggesting that the
treatment intervention was not effective. The mild decrease in clicking in these groups
could be explained in part by the placebo effect. Also, the positive relationship
between the dental practitioner and the patients feeling of being treated may also
influence the final results23.
Acupuncture involves the insertion of fine needles at specific acupuncture
points on the body surface, which are thought to be near the area where pain is
experienced28, however it is not known how acupuncture may influence TMJ clicking.
In the study by Smith et al., acupuncture did not significantly reduce joint clicking in the
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treatment group. However, the results may not be validly measured, as all subjects
were reassessed for outcome measurements only one week after treatment, therefore,
later effects are not known. The authors note that the park sham credibility is high
because none of the patients believed that they were treated with the sham needle.
Therapeutic exercises performed by subjects in the study by Yoda et al., involves
the movement of the jaw in protrusive, opening and closing positions. Movement of the
jaw is thought to decrease joint noises because the exercises increase the joint space,
which allows for smoother condylar translation without clicking24. Yoda et al. reports a
moderate success rate in reducing clicking in the therapeutic exercise group in the
short-term. In addition to the positive results, therapeutic exercises may be considered
the most cost-effective treatment option for TMD clicking.
Conclusion
The evidence from the literature is weak to suggest the most effective treatment
for TMJ clicking. All six papers in this literature review had small sample sizes, thus, it
is difficult to apply these results to the general population because of the weak external
validity. Another major weakness of all the papers was the short-term duration of the
studies, hence, the long-term effects of the therapeutic interventions examined on TMD
clicking are not known. Nevertheless, the promising short-term results from sodium
hyaluronate injections suggests that the therapy may have long-term value if the
injections are given serially, every 3 to 6 months as required. Therefore, to further
determine which therapy is most effective at reducing TMD clicking, studies of larger
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sample size and longer in duration (>2 years) are recommended. As well, future studies
should also strive to compare different treatment options in the same population by
utilizing strongly designed RCTs in order to accurately propose the best therapy to
reduce TMD clicking. The evidence suggests that therapeutic exercises of the jaw
would be successful at reducing clicking in TMD symptom patients, and that intra-
articular sodium hyaluronate injections may be successful for treatment of TMJ clicking
in anterior disc-displacement. Sodium hyaluronate and therapeutic exercises are also
considered safe therapies, and the therapeutic exercises are presumably the most cost-
effective therapy for TMD clicking. Therefore, we recommend sodium hyaluronate
injections and therapeutic exercises for short-term use in reducing clicking in patients
that are considered problematic or bothersome.
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Acknowledgment The authors wish to thank Dr. D. Ito for his guidance and feedback throughout the
course of this study and preparation of this manuscript.
Conflict of Interest The authors declare no financial interests.
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References 1. Clark GT, Merrill RT. Diagnosis and non-surgical treatment of masticatory muscle pain and dysfunction. In: The Temporomandibular joint: a biological basis for clinical practice 1996 (eds BG Sarnat and DM Laskin)pp. 346-356. PA saunders, Philedelphia. 2. Guralnick W, Kaban LB, Merrill RG. Temporomandibular-joint afflictions. New Eng J Med 1978; 299(3):123-9. 3. Greene CS. The etiology of temporomandibular disorders: Implications for Treatment. J Orofacial Pain 2001; 15(2):93-105. 4. Reston JT, Turkleson CM. Meta-analysis of surgical treatments for temporomandibular articular disorders. J Oral Maxillo Surg 2003; 61:3-10. 5. Locker D, Slade G. Association of symptoms and signs of TM disorders in an adult population. Comm Dent Oral Epidemiol 1989;17(3):150-3. 6. Elfving L, Helkimo M, Magnusson T. Prevalence of different temporomandibular joint sounds, with emphasis on disc-displacement, in patients with temporomandibular disorders and controls. Swed Dent 2002; 26(1):9-19. 7. LeResche L. Epidemiology of temporomandibular disorders: Implications for the investigation of etiologic factors. Crit Rev Oral Biol Med 1997; 8(3): 291-305. 8. Nekora-Azak A, Evlioglu G, Ordulu M, Isever H. Prevalence of symptoms associated with temporomandibular disorders in a Turkish population. J Oral Rehab 2006;33(2):81-4. 9. Schmitter M, Rammelsberg P, Hassel A.The prevalence of signs and symptoms of TMD in very old subjects. J Rehab 2005; 32(7): 46-73. 10. Miller TL, Katzberg RW, Tallents RH, Bessette RW, Hayakawa K. Temporomandibular joint clicking with nonreducing anterior displacement of the meniscus. Radiology 1985; 154(1):121-4. 11. Widmalm SE, Westesson PL, Brooks SL, Hatala MP, Paesani D. Temporomandibular joint sounds: correlation to joint structure in fresh autopsy specimens. Am J Orthod Dentofacial Orthop 1992;101(1):60-9. 12. Knnen M, Waltimo A, Nystrm M. Does clicking in adolescence lead to painful temporomandibular joint locking? Lancet 1996; 347:1080-1081.
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13. Reissmann DR, John MT, Schierz O, Wassell RW. Functional and psychosocial impact related to specific temporomandibular diagnoses. J Dent 2007; 35: 643-50. 14. Homlund A. Disc derangements of the temporomandibular joint: A tissue-based characterization and implications for surgical treatment. Int J Oral Maxillofac Surg 2007; 36:571-576. 15. Yoda T, Imai H, Shinjyo Y, Sakamoto I, Abe M, Enomoto S. Effect of arthrocentesis on TMJ disturbance of mouth closure with loud clicking: A preliminary study. Cranio 2002; 20(1):18-22. 16. Spruijt RJ, Wabeke KB. Psychological factors related to the prevalence of temporomandibular joint sounds. J Oral Rehab 1995; 22:803-808. 17. Dimitroulis G. The role of surgery in the management of disorders of the Temporomandibular Joint: a critical review of the literature. Part 1. Int J Oral Maxillofac Surg 2005; 34(2):107-13. 18. Dimitroulis G. The role of surgery in the management of disorders of the temporomandibular joint: a critical review of the literature. Part 2. Int J Oral Maxillofac Surg 2005; 34(3):231-7. 19. Leake JL, Department of Biological and Diagnostic Sciences, Faculty of Dentistry, University of Toronto. Unpublished document. Course notes DENT 300Y 2007. The checklist was adapted from Fletcher RH, Fletcher SW, Wagner EH. Clinical epidemiology. The essentials. 3rd ed. Baltimore: Williams and Wilkins, 1996; and Sackett DL, Richardson WS, Rosenberg W, Haynes RB. Evidence-based medicine: how to practice and teach. EBM. 2nd ed. New York: Churchill Livingstone, 1997. 20. Bertolami CN, Gay T, Clark GT, Rendell J, Shetty V, Liu C, Swann DA. Use of sodium hyaluronate in treating temporomandibular joint disorders. J Oral Maxillofac Surg 1993; 51: 232-242. 21. Hepguler S, Akkoc YS, Pehlivan M, Ozturk C, Celebi G, Saracoglu A, Ozpinar B. The efficacy of intra-articular sodium hyaluronate in patients with reducing displaced disc of the temporomandibular joint. J Oral Rehab 2002;29: 80-86. 22. Truelove E, Huggins KH, Mancl L, Dworkin SF. The efficacy of traditional, low-cost nonsplint therapies for temporomandibular disorder. J Amer Dent Assoc 2006; 137: 1099-1107.
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23. Conti PC, dos Santos CN, Kogawa EM, de Castro Ferreira Conti AC, de Araujo Cdos R. Treatment of painful temporomandibular joint clicking with oral splints. J Amer Dent Assoc 2006; 137: 1108-1114. 24. Yoda T, Sakamoto I, Imai H, Honma Y, Shinjo Y, Takano A, Tsukahara H, Morita S, Miyamura J, Yoda Y, Sasaki Y, Tomizuka K, Takato T. A randomized controlled trial of therapeutic exercise for clicking due to anterior disk displacement with reduction in the temporomandibular joint. Cranio 2003; 21(1): 10-16. 25. Smith P, Mosscrop D, Davies S, Sloan P, Al-Ani Z. The efficacy of acupuncture in the treatment of temporomandibular joint myofascial pain: a randomized control trial. J Dent 2007; 35(3): 259-267. 26. Kurita H, Kurashina K, Kotani A. Clinical effect of full coverage occlusal splint therapy for specific temporomandibular disorder conditions and symptoms. J Prosth Dent 1997;78(5):506-10. 27. Shi Z, Guo C, Awad M. Hyaluronate for temperomandibular joint disorders (review). The Cochrane Library. 2007, Issue 4. 28. Wong J. A manual of neuro-anatomical acupuncture. 1st ed. Toronto, Ontario: The Toronto Pain and Stress Clinic Inc.; 1999.
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Table 1 Checklist for assessing evidence of efficacy of therapy or prevention19. General questions 1. Was the study ethical? 2. Was a strong design used to assess efficacy? 3. Were outcomes (benefits and harms) validly and reliably measured? 4. Were the interventions validly and reliably measured? Questions about the results of the study 5. Was the treatment effect large enough to be clinically important? 6. Was the estimate for the treatment effect beyond chance and relatively precise? 7. If the findings were no difference, was the power of the study 80% or better? Questions about the validity of the results 8. Was the assignment o patients to treatments randomized? 9. Were all patients who entered the trial properly accounted for and attributed at its conclusion? 10. Was loss to follow-up less than 20% and balanced between test and controls? 11. Were patients analyzed in the groups to which they were randomized? 12. Was the study of sufficient duration? 13. Were patients, health care workers and study personnel blind to treatment? 14. Were the groups similar at the start of the trial? 15. Aside from the experimental intervention, were the groups treated equally? 16. Was care received outside the study identifies and controlled for? Clinical relevance of the results 17. Were all clinically important outcomes considered? 18. Are the likely benefits of treatment worth the potential harms and costs?
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Appendix 1 List of articles excluded and reasons for exclusion Articles Reason for exclusion Homlund and others 2001; Politi and others 2007;
Patients did not have TMJ click at baseline
Alpaslan and Alpaslan 2001 Major flaws in methodology. Joints assessed not always in different patients (i.e. some patients had bilaterally affected TMJ). Accuracy of the diagnosis at baseline is questionable as closed lock should not present with clicking. Lack of detailed description of how outcome measurements were made.
Yoda and others 2002 Non-randomized controlled trial Fridrich and others 1996 Major flaws in methodology. Study
personnel conducting follow-up evaluation were not blinded, joints assessed were not all in different patients (i.e. some patients had bilaterally affected TMJs) and objective data regarding joint noises pre- and post-operatively was collected from patients but not reported in the study.
Wassell and others 2004; Wassell and others 2006
Loss to follow-up greater than 20%, and the study was a unilateral rather than bilateral cross-over design.
Alvarez-Arenal and others 2002; Jagger 1991
No control group
Bjornland and others 2007; Schiffman and others 2007; Alpaslan and others 2000
Did not examine TMJ clicking
Raustia and others 1985; Johansson and others 1991
no placebo for acupuncture; drop-out rate not specified.
Alpaslan GH, Alpaslan C. Efficacy of temporomandibular joint arthrocentesis with and without injection of sodium hyaluronate in treatment of internal derangements. J Oral Maxillofac Surg 2001;59(6):613-8. Alvarez-Arenal A, Junquera LM, Fernandez JP, Gonzalez I, Olay S. Effect of occlusal splint and transcutaneous electric nerve stimulation on the signs and symptoms of temporomandibular disorders in patients with bruxism. J Oral Rehab 2002; 29(9):858-863.
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Bjornland T, Gjaerum AA, Moysta A. Osteoarthritis of the temporomandibular joint: an evaluation of the effects and complications of corticosteroid injection compared with injection with sodium hyaluronate. J Oral Rehab 2007;34:583-589.
Fridrich KL, Wise JM, Zeitler DL. Prospective comparison of arthroscopy and arthrocentesis for temporomandibular joint disorders. J Oral Maxillofac Surg 1996; 54(7):816-820 Holmlund A, Axelsson S, Gynther GW. A comparison of discectomy and arthroscopic lysis and lavage for the treatment of chronic closed lock of the temporomandibular joint: A randomized outcome study. J Oral Maxillofac Surg 2001;59(9):972-977. Jagger RG. Mandibular manipulation of anterior disc displacement without reduction. J Oral Rehab 1991; 18:373-382. Johnasson A, Wenneberg B, Wagerstern C, Haraldson T. Acupuncture in treatment of facial muscular pain. Acta Odontol Scand 1991; 49:153-158. Politi M, Sembronio S, Robiony M, Costa F, Toro C, Undt G. High condylectomy and disc repositioning compared to arthroscopic lysis, lavage, and capsular stretch for the treatment of chronic closed lock of the temporomandibular joint. OOOOE 2007;103(1): 27-33. Raustia AM, Pohjola RT, Virtanen KK. Acupuncture compared with stomatognathic Treatment for TMJ dysfunction. Part I: A randomized study. J Prosthet Dent 1985; 54:581-585.
Schiffman EL, Look JO, Hodges JS, Swift JQ, Decker KL, Hathaway KM, Templeton RB, Fricton JR. Randomized Effectiveness Study of Four Therapeutic Strategies for TMJ Closed Lock. J Dent Res 2007; 86(1):58-63. Wassell RW, Adams N, Kelly PJ. Treatment of temporomandibular disorders by stabilising splints in general dental practice: results after initial treatment. Brit Dent Jour 2004; 197:3541.
Wassell RW, Adams N, Kelly PJ. The treatment of temporomandibular disorders with stabilizing splints in general dental practice: One-year follow-up. J Am Dent Assoc 2006; 137(8): 1089-1098. Yoda T, Imai H, Shinjyo Y, Sakamoto I, Abe M, Enomoto S. Effect of arthrocentesis on TMJ disturbance of mouth closure with loud clicking: a preliminary study. Cranio 2002; 20(1):18-22.