Low-level lasertherapy associated to occlusal splint to treat temporomandibular disorder: controlled clinical trial

Melchior, Melissa de Oliveira; Brochini, Ana Paula Zanetti; Silva, Marco Antonio Moreira Rodrigues da

doi:10.5935/1806-0013.20170004

ABSTRACT

BACKROUND AND OBJECTIVES:

Most widely used treatment modality for temporomandibular disorders is the occlusal splint. Low-level lasertherapy has been used as therapeutic agent, however as isolated treatment. So, this study aimed at evaluating the effect of the association of low-level lasertherapy and occlusal splint to treat temporomandibular disorders.

METHODS:

Participated in the study 25 selected patients according to the Research Diagnostic Criteria for Temporomandibular Disorders protocol. Control group (CG) was made up of 12 asymptomatic volunteers. Two groups were randomly formed: "splint-laser" (SLG), being treated with occlusal splint and associated low-level lasertherapy; "splint" (SG), treated with occlusal splint only. Jaw movements, pain at palpation and selfperception of signs and symptoms were investigated before and after treatment.

RESULTS:

There has been significant decrease in pain at palpation and reported pain according to self-perception of signs and symptoms for both groups, however more significant for SLG. There has been increased amplitude of jaw movements with significant difference after treatment for both groups.

CONCLUSION:

The association of low-level lasertherapy and occlusal splint to treat temporomandibular disorders has promoted more marked pain decrease as compared to occlusal splint alone. Placebo effect should not be discarded and should be tested in future studies.

Keywords:
Low-level lasertherapy; Occlusal splints; Temporomandibular joint disorders

RESUMO

JUSTIFICATIVA E OBJETIVOS:

A modalidade de tratamento mais empregada para disfunção temporomandibular é a placa oclusal. A laserterapia de baixa intensidade tem sido empregada como agente terapêutico, porém como tratamento isolado. Assim, o objetivo deste estudo foi analisar o efeito da associação da laserterapia de baixa intensidade ao uso da placa oclusal como tratamento para disfunção temporomandibular.

MÉTODOS:

Participaram do estudo 25 pacientes selecionados de acordo com o protocolo Research Diagnostic Criteria for Temporomandibular Disorders. O grupo controle (GC) foi formado por 12 voluntários assintomáticos. Dois grupos foram formados por sorteio: "placa-laser" (GPL), que recebeu tratamento com placa oclusal e laserterapia de baixa intensidade associada; "placa" (GP), que recebeu tratamento apenas com placa oclusal. Os movimentos mandibulares, a dor à palpação e autopercepção dos sinais e sintomas, foram investigados antes e após os tratamentos.

RESULTADOS:

Houve diminuição significativa da dor à palpação e da dor relatada de acordo com a autopercepção dos sinais e sintomas para ambos os grupos tratados, porém de forma mais acentuada para o GPL. Houve aumento da amplitude dos movimentos mandibulares com diferença significativa após os tratamentos para ambos os grupos.

CONCLUSÃO:

A associação da laserterapia de baixa intensidade ao tratamento da disfunção temporomandibular com placa oclusal promoveu diminuição mais acentuada do sintoma doloroso dolorosa quando comparado ao tratamento apenas com placa oclusal. O efeito placebo não deve ser descartado e deverá ser testado em estudos futuros

Descritores:
Placas oclusais; Terapia a laser de baixa intensidade; Transtornos da articulação temporomandibular

INTRODUCTION

Both acute and chronic pain are still a major reason for looking for medical and dental treatment and are a major challenge for professionals dealing with orofacial pain (OFP)¹1 Zakrzewska JM. Multi-dimensionality of chronic pain of the oral cavity and face. J Headache Pain. 201325;14(1):37.^,²2 Awamleh L, Pun H, Lee JC, Avivi-Arber L. Decreased face primary motor cortex (face-M1) excitability induced by noxious stimulation of the rat molar tooth pulp is dependent on the functional integrity of face-M1 astrocytes. Exp Brain Res. 2015;233(4):1261-72.. Temporomandibular disorders (TMD) are among most common OFP. TMD may be understood as a set of clinical changes involving the stomatognathic system, where pain is the primary reason for looking for treatment. It is classified as musculoskeletal pain, OFP subtype especially characterized by spontaneous pain in orofacial muscles and/or temporomandibular joints (TMJ) which worsens during stomatognathic functions³3 Dworkin SF, LeResche L. Research diagnostic criteria for temporomandibular disorders: review, criteria, examinations and specifications, critique. J Craniomandib Disord. 1992;6(4):301-55.

4 Progiante PS, Pattussi MP, Lawrence HP, Goya S, Grossi PK, Grossi ML. Prevalence of temporomandibular disorders in an adult Brazilian Community Population using the Research Diagnostic Criteria (Axes I and II) for temporomandibular disorders (The Maringá Study). Int J Prosthodont. 2015;28(6):600-9.^-⁵5 Maixner W, Diatchenko L, Dubner R, Fillingim RB, Greenspan JD, Knott C, et al. Orofacial pain prospective evaluation and risk assessment study-the OPPERA study. J Pain. 2011;12(11 Suppl):T4-11.e1-2.. Currently, its etiology involves predisposing, perpetuating and worsening factors which should be taken into consideration in the diagnosis to establish a treatment approach which is in general multidisciplinary, according to the needs of each case¹1 Zakrzewska JM. Multi-dimensionality of chronic pain of the oral cavity and face. J Headache Pain. 201325;14(1):37.^,⁵5 Maixner W, Diatchenko L, Dubner R, Fillingim RB, Greenspan JD, Knott C, et al. Orofacial pain prospective evaluation and risk assessment study-the OPPERA study. J Pain. 2011;12(11 Suppl):T4-11.e1-2.^,⁶6 Herpich CM, Amaral AP, Leal-Junior EC, Tosato J de P, Gomes CA, Arruda E, et al. Analysis of laser therapy and assessment methods in the rehabilitation of temporomandibular disorder: a systematic review of the literature. J Phys Ther Sci. 2015;27(1):295-301..

Occlusal splint is the most common modality to treat TMD, with positive results widely shown in the literature, both for aspects related to painful sensitivity and those related to biomechanics and neuromuscular system⁷7 Ferrario VF, Sforza C. Biomechanical model of the human mandible in unilateral clench: distribution of temporomandibular joint reaction forces between working and balancing sides. J Prosthet Dent. 1994;72(2):169-76.^,⁸8 Vieira e Silva CA, da Silva MA, Melchior M de O, de Felício CM, Sforza C, Tartaglia GM. Treatment for TMD with occlusal splint and electromyographic control: application of the FARC protocol in a Brazilian population. Cranio. 2012;30(3):218-26..

Low-level laser (LLL) has been used as alternative therapy for pain relief in muscle and joint TMD presentations for inducing analgesic, anti-inflammatory and biomodulator effect of physiologic cell functions⁶6 Herpich CM, Amaral AP, Leal-Junior EC, Tosato J de P, Gomes CA, Arruda E, et al. Analysis of laser therapy and assessment methods in the rehabilitation of temporomandibular disorder: a systematic review of the literature. J Phys Ther Sci. 2015;27(1):295-301.^,⁹9 Melchior MO, Venezian GC, Machado BC, Borges RF, Mazzetto MO. Does low intensity laser therapy reduce pain and change orofacial myofunctional conditions? Cranio. 2013;31(2):133-9.

10 Moraes Maia ML, Ribeiro MA, Maia LG, Stuginski-Barbosa J, Costa YM, Porporatti AL, et al. Evaluation of low-level laser therapy effectiveness on the pain and masticatory performance of patients with myofascial pain. Lasers Med Sci. 2014;29(1):29-35.^-¹¹11 Chen J, Huang Z, Ge M, Gao M. Efficacy of low-level laser therapy in the treatment of TMDs: a meta-analysis of 14 randomised controlled trials. J Oral Rehabil. 2015;42(4):291-9..

Studies have shown that LLL is efficient as therapeutic agent for decreasing pain and increasing jaw movement amplitude⁶6 Herpich CM, Amaral AP, Leal-Junior EC, Tosato J de P, Gomes CA, Arruda E, et al. Analysis of laser therapy and assessment methods in the rehabilitation of temporomandibular disorder: a systematic review of the literature. J Phys Ther Sci. 2015;27(1):295-301.^,⁹9 Melchior MO, Venezian GC, Machado BC, Borges RF, Mazzetto MO. Does low intensity laser therapy reduce pain and change orofacial myofunctional conditions? Cranio. 2013;31(2):133-9.

10 Moraes Maia ML, Ribeiro MA, Maia LG, Stuginski-Barbosa J, Costa YM, Porporatti AL, et al. Evaluation of low-level laser therapy effectiveness on the pain and masticatory performance of patients with myofascial pain. Lasers Med Sci. 2014;29(1):29-35.

11 Chen J, Huang Z, Ge M, Gao M. Efficacy of low-level laser therapy in the treatment of TMDs: a meta-analysis of 14 randomised controlled trials. J Oral Rehabil. 2015;42(4):291-9.^-¹²12 da Silva MA, Botelho AL, Turim CV, da Silva AM. Low level laser therapy as an adjunctive technique in the management of temporomandibular disorders. Cranio. 2012;30(4):264-71.. In light of the above, this study aimed at evaluating the effect of the association of low-level lasertherapy with the use of Functional Anatomic Research Center (FARC) occlusal splint, on pain perceived by TMD patients, as compared to the use of occlusal splint alone.

METHODS

This study was developed in the Faculdade de Odontologia de Ribeirão Preto, Universidade de São Paulo, and volunteers have signed the Free and Informed Consent Term (FICT).

Thirty subjects were selected in a tertiary clinic for TMD patients, of whom 25 have participated in the study till the end, in a total convenience sample of 20 females and 5 males, for having been carried out in compliance with the demand of assistance of the above-mentioned service.

Inclusion criteria were TMD diagnosis according to the Research Diagnostic Criteria for Temporomandibular Disorders (RDC/TMD)³3 Dworkin SF, LeResche L. Research diagnostic criteria for temporomandibular disorders: review, criteria, examinations and specifications, critique. J Craniomandib Disord. 1992;6(4):301-55.. Subjects lacking teeth preventing the installation of the occlusal splint, those with central or peripheral neurologic disorders, history of head and neck tumors or trauma, presence of systemic inflammatory diseases and use of analgesics in the last month, and submitted to TMD treatment or others related to the stomatognathic system up to one year before were excluded. Systemic inflammatory diseases and use of analgesics for less than one month were controlled.

Control group (CG) was made up of 12 asymptomatic volunteers paired by age and gender to TMD subjects.

To every subject diagnosed with TMD, one of the following treatments was consecutively directed, forming two groups:

1) Splint group (SG): 15 subjects (12 females and 3males) being treated with occlusal splint alone manufactured and adjusted by a dentist;

2) Splint-laser group (LSG): 10 subjects (8 females and 2 males) being treated with low level lasertherapy together with occlusal splint manufactured and adjusted by a dentist. This group has lost patients before treatment completion who were not included in results analyses: 2 by withdrawal and 3 for being unable to come twice a week to comply with the laser application protocol.

Subjects were evaluated sitting on dental chair, in a room with adequate lighting, by a dentist (different from the professional in charge of the treatments), before (A1) and after (A2) treatments. Major complaint and the presence of oral parafunctional habits were investigated. Evaluation was based on RDC/TMD Axis I³3 Dworkin SF, LeResche L. Research diagnostic criteria for temporomandibular disorders: review, criteria, examinations and specifications, critique. J Craniomandib Disord. 1992;6(4):301-55.. Jaw movement amplitude was measured with digital caliper rule (Mitutoyo, Co., Ltd., Suzhou, China). Pain at palpation was investigated based on the same protocol, adding trapezius (upper portion) and sternocleidomastoid (medial portion) muscles, routinely investigated in this service, and pain intensity was indicated by subjects in a numerical scale from zero to 10, where zero is no pain and 10 the worst imaginable pain. The choice of pain at palpation rather than pain at pressure threshold (PPT) was done due to its relation with pain intensity perception which we tried to investigate⁸8 Vieira e Silva CA, da Silva MA, Melchior M de O, de Felício CM, Sforza C, Tartaglia GM. Treatment for TMD with occlusal splint and electromyographic control: application of the FARC protocol in a Brazilian population. Cranio. 2012;30(3):218-26.^,⁹9 Melchior MO, Venezian GC, Machado BC, Borges RF, Mazzetto MO. Does low intensity laser therapy reduce pain and change orofacial myofunctional conditions? Cranio. 2013;31(2):133-9.^,¹³13 de Felicio CM, Melchior Mde O, Da Silva MA. Clinical validity of the protocol for multi-professional centers for the determination of signs and symptoms of temporomandibular disorders. Part II. Cranio. 2009;27(1):62-7..

To investigate subjects' perception of their signs and symptoms, they have answered the "Protocol to determine TMD signs and symptoms for Multiprofessional centers (ProTMDMulti)¹³13 de Felicio CM, Melchior Mde O, Da Silva MA. Clinical validity of the protocol for multi-professional centers for the determination of signs and symptoms of temporomandibular disorders. Part II. Cranio. 2009;27(1):62-7.. The first part is made up of questions admitting just positive and negative answers. The second part indicates how much each sign or symptom is severe in different daily situations, such as at emergence, chewing, speaking and at rest, using a numeric scale from zero to 10 where zero is total lack of sign or symptom and 10 most possible severity. Sum of scores attributed to each sign/symptom in the four investigated situations may vary from zero to 40, indicating higher severity as sum increases.

Occlusal splint: groups SG and SLG received occlusion splint model FARC, developed by the University of Milan, following the biomechanical model proposed by Ferrario & Sforza⁷7 Ferrario VF, Sforza C. Biomechanical model of the human mandible in unilateral clench: distribution of temporomandibular joint reaction forces between working and balancing sides. J Prosthet Dent. 1994;72(2):169-76. (acrylic resin splint with 2 mm thickness and contacts of second premolar to second permanent molar, without anterior static or dynamic contacts). Usage orientation has followed the protocol of the University of Milan: daily and nightly in the first two weeks and then nightly for three more weeks, with previously proven positive results⁸8 Vieira e Silva CA, da Silva MA, Melchior M de O, de Felício CM, Sforza C, Tartaglia GM. Treatment for TMD with occlusal splint and electromyographic control: application of the FARC protocol in a Brazilian population. Cranio. 2012;30(3):218-26..

Low-level lasertherapy (LLL): SLG patients were treated with LLL three times a week during the five weeks of treatment with the occlusal splint (total of 10 sessions). Equipment was THERA LASER (DMC, LTDA - São Carlos, São Paulo - Brazil), which emits radiation obtained as from stimulation of a semiconductor diode formed by Gallium-Aluminum Arsenide (AsGaAI) with wavelength of 830nm, in continuous emission. Protocol was the same as previously tested¹²12 da Silva MA, Botelho AL, Turim CV, da Silva AM. Low level laser therapy as an adjunctive technique in the management of temporomandibular disorders. Cranio. 2012;30(4):264-71.: infrared laser, with wavelength of 780 nm, fixed power of 70 mW and doses of 105J/cm². Exposure time was 60 seconds per painful point.

Each session involved laser application in five predetermined TMJ points and on the point of more severe pain of predetermined sites of masseter and anterior temporal muscles, as described: upper point of lateral pole of the jaw head; posterior point of lateral pole of the jaw head; point at the level of outer ear (external acoustic meatus), region crossed by the auriculotemporal nerve; masseter muscle (3 most painful points identified by digital palpation being one at the origin, one at the body and one at muscle insertion); anterior temporal muscle (one most painful point, identified by digital palpation). Application modality on muscles and joint region was punctual and with direct contact of radiation emission tip with skin to prevent reflection phenomenon⁹9 Melchior MO, Venezian GC, Machado BC, Borges RF, Mazzetto MO. Does low intensity laser therapy reduce pain and change orofacial myofunctional conditions? Cranio. 2013;31(2):133-9.

10 Moraes Maia ML, Ribeiro MA, Maia LG, Stuginski-Barbosa J, Costa YM, Porporatti AL, et al. Evaluation of low-level laser therapy effectiveness on the pain and masticatory performance of patients with myofascial pain. Lasers Med Sci. 2014;29(1):29-35.

11 Chen J, Huang Z, Ge M, Gao M. Efficacy of low-level laser therapy in the treatment of TMDs: a meta-analysis of 14 randomised controlled trials. J Oral Rehabil. 2015;42(4):291-9.^-¹²12 da Silva MA, Botelho AL, Turim CV, da Silva AM. Low level laser therapy as an adjunctive technique in the management of temporomandibular disorders. Cranio. 2012;30(4):264-71.^,¹⁴14 Sancakli E, Gökçen-Röhlig B, Balik A, Öngül D, Kipirdi S, Keskin H. Early results of low-level laser application for masticatory muscle pain: a double-blind randomized clinical study. BMC Oral Health. 2015;15(1):131-6..

Biosafety: used laser belongs to Class 3b according to ANSI classification, needing preventive care during its application, with the use of goggles for dentists and patients, and the compliance with official safety standards of the International Standard CEI IEC 825-1. Application sites were cleaned with 70º GL alcohol.

This study was approved by the Ethics Committee for Research with human beings (CAAE 0080.0.138.000-10).

Statistical analysis

Initial evaluation data (A1) and evaluation after five weeks of treatment with occlusal splint (A2) were considered for data analysis, both for SG and SLG. Control group was evaluated only once. For measurement interval data, of reason or ordinals presenting normal distribution, such as jaw movement data, ProTMDMulti and pain at palpation parametric tests were used. ANOVA test was used to compare among groups (CG x SG x SLG). T test for independent samples was used to compare differences between evaluations (A1-A2) of experimental groups (SG x SLG). This analysis was carried out to know the real gain of each group. For intragroup data analysis (A1 x A2), t test for paired samples was used.

RESULTS

Only one subject had isolated muscle TMD. Others had association with joint dysfunctions. When asked about major complaints leading them to look for treatment, the following reports were given: headaches (60%), facial pain (52%), TMJ pain (20%) and noises (16%), dental wear (12%), earache (8%) and neck ache (4%). Noxious oral habits were reported by all subjects, with more frequency by TMD subjects. Among reported habits, there were teeth clenching (vigil bruxism) (76%), sleep bruxism (64%), use of chewing gum (64%) and nail biting (56%). The same habits were reported by asymptomatic subjects in the following ratio: 0%, 25%, 33.3% and 16.6%, respectively.

With regard to jaw movements, the comparison among groups (ANOVA) has shown that experimental groups were different initially (A1) for mouth opening, laterality and protrusion evaluations (p<0.05). After treatment (A2) there has been no statistical difference between SLG and SG in all movements (p>0.05); comparison of experimental groups with CG has shown difference for opening (CG x SG, p<0.05; CG x SLG, p<0.01) and right laterality (CG x SLG, p<0.05) in A1; in A2 there has been mouth opening difference only between SG and CG (p<0.05).

In comparing A1 and A2 (intragroups) (Student t test for paired data) there has been significant difference between both experimental groups (p<0.01). To better visualize jaw movement amplitude evolution between both proposed treatments, comparative analyses of "A1 - A2" subtraction between experimental groups (Student t - independent data) were carried out. Results have shown no difference (p>0.05) between groups with regard to jaw movement amplitude evolution, that is, both proposed treatments provided positive and satisfactory results for this item. Mean and standard deviation of jaw movements are shown in table 1.

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Table 1
Mean and standard deviation of jaw opening, right laterality, left laterality and protrusion movements for control group and splint and splint-laser groups, both with temporomandibular disorders, before and after proposed treatments

For pain at palpation, comparison between groups (ANOVA) has shown significant difference in A1 between CG and SLG for TMJ and masseter, anterior temporal, sternocleidomastoid (medial portion) to the right (p<0.01), supra-hyoid to the left and trapezius (upper portion) to the right muscles (<0.05); between CG and SG for TMJ and masseter, anterior temporal, sternocleidomastoid (medial portion) (p<0.01), supra-hyoid and trapezius (upper portion) to the left (p<0.05). There has been no difference between SLG and SG in this phase.

However, scores attributed to pain at palpation after treatment (A2) by SLG was not different from that attributed by CG (p>0.05), even in muscles not submitted to lasertherapy; but were different in some sites as compared to SG (left masseter, right anterior temporal, TMJ - p<0.05). This latter has also shown differences in pain at palpation scores in specific sites, similarly to SLG, as compared to CG (left masseter, right anterior temporal - p<0.05, TMJ - p<0.01).

When comparing A1 and A2 (Student t - paired data) there has been pain at palpation improvement according to scores attributed by subjects, with significant difference in SLG for masseter, anterior temporal, supra-hyoid, sternocleidomastoid (medial portion), trapezius (upper portion) and TMJ (p<0.01); and for SG there has been difference for masseter, anterior temporal, TMJ and right (p<0.01) and left (p<0.05) sternocleidomastoid muscles (medial portion).

Comparative analyses of "A1-A2" subtraction (Student t - independent data) between experimental groups have shown difference only in right masseter palpation, with lower scores attributed by SLG. Table 2 shows mean values and standard deviation of scores attributed by subjects to pain at palpation. According to ProTMDMulti part I questionnaire data, absolute frequency of TMD signs and symptoms for each group in initial and final evaluation were obtained, and decreased number of reports were observed in the final phase for both groups. These data are shown in table 3.

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Table 2
Mean, standard deviation and comparison (Student t for paired data) of scores attributed by subjects to pain at palpation, for control group, splint-laser group and splint group, before and after proposed treatments

According to ProTMDMulti part II questionnaire data, severity of each sign or symptom was determined by the sum of scores attributed to the four questioned situations (emergence, chewing, speaking, at rest). Scores varied from zero to 40, being that the higher the value the more severe the TMD. Table 4 shows mean scores attributed to signs and symptoms evaluated by ProTMDMulti in each group, in the two evaluation moments (A1 and A2).

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Table 3
Absolute frequency of signs and symptoms in the three studied groups, according to answers to ProTMDMulti part I protocol, before and after proposed treatments

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Table 4
Mean and standard deviation of scores attributed by subjects to signs and symptoms investigated with ProTMDMulti protocol, for control group, splint-laser and splint groups before (A1) and after (A2) proposed treatments. ANOVA for analysis between groups; Student t for paired data for intragroup analysis

Comparison between groups (ANOVA) has shown that in the initial evaluation there has been significant difference only between experimental groups and control group for muscle pain, TMJ pain and noise, dental sensitivity (p<0.01) and neck pain (p<0.05). SG was different from CG also in aural plenitude (p<0.05). SLG and SG were not different at experiment onset (p>0.05), however at final evaluation SLG was not different from CG (p>0.05), but was different from SG for muscle pain, TMJ pain (p<0.01), neck pain and dental sensitivity (p<0.05) and this group was different from CG with regard to the same initial symptom (p<0.05).

In comparing A1 and A2 (Student t - paired data), SLG had significant difference for seven evaluated symptoms with Pro-TMDMulti: muscle pain, TMJ pain and noises, neck pain, dental sensitivity (p<0.01), tinnitus and aural plenitude (p<0.05). For SG there has been significant improvement in four reported symptoms: TMJ pain and noise (p<0.01), dental sensitivity and aural plenitude (p<0.05).

Comparative analyses of "A1 - A2" subtraction (Student t - independent data) have shown difference between experimental groups (p<0.05) for muscle pain, TMJ pain, neck pain, dental sensitivity and difficulty to swallow, that is, positive evolution of these symptoms was better evaluated by SLG subjects being that remaining symptoms had positive evolution according to perception of both groups, without significant difference (p>0.05).

DISCUSSION

TMD is a term used for musculoskeletal facial pain conditions involving several signs and symptoms, being pain the primary motivator for looking for treatment³3 Dworkin SF, LeResche L. Research diagnostic criteria for temporomandibular disorders: review, criteria, examinations and specifications, critique. J Craniomandib Disord. 1992;6(4):301-55.

4 Progiante PS, Pattussi MP, Lawrence HP, Goya S, Grossi PK, Grossi ML. Prevalence of temporomandibular disorders in an adult Brazilian Community Population using the Research Diagnostic Criteria (Axes I and II) for temporomandibular disorders (The Maringá Study). Int J Prosthodont. 2015;28(6):600-9.^-⁵5 Maixner W, Diatchenko L, Dubner R, Fillingim RB, Greenspan JD, Knott C, et al. Orofacial pain prospective evaluation and risk assessment study-the OPPERA study. J Pain. 2011;12(11 Suppl):T4-11.e1-2.^,¹⁵15 Speciali JG, Dach F. Temporomandibular dysfunction and headache disorder. Headache. 2015; 55(Suppl 1):72-83.. This way, this study has based its analyses on painful perception of daily situations and on intensity of pain at palpation⁸8 Vieira e Silva CA, da Silva MA, Melchior M de O, de Felício CM, Sforza C, Tartaglia GM. Treatment for TMD with occlusal splint and electromyographic control: application of the FARC protocol in a Brazilian population. Cranio. 2012;30(3):218-26.^,⁹9 Melchior MO, Venezian GC, Machado BC, Borges RF, Mazzetto MO. Does low intensity laser therapy reduce pain and change orofacial myofunctional conditions? Cranio. 2013;31(2):133-9.^,¹³13 de Felicio CM, Melchior Mde O, Da Silva MA. Clinical validity of the protocol for multi-professional centers for the determination of signs and symptoms of temporomandibular disorders. Part II. Cranio. 2009;27(1):62-7.. Methodology for sample structuring (by convenience) and its size (n) was similar to previous studies which have evaluated the effects of TMD therapies⁸8 Vieira e Silva CA, da Silva MA, Melchior M de O, de Felício CM, Sforza C, Tartaglia GM. Treatment for TMD with occlusal splint and electromyographic control: application of the FARC protocol in a Brazilian population. Cranio. 2012;30(3):218-26.^,⁹9 Melchior MO, Venezian GC, Machado BC, Borges RF, Mazzetto MO. Does low intensity laser therapy reduce pain and change orofacial myofunctional conditions? Cranio. 2013;31(2):133-9.^,¹³13 de Felicio CM, Melchior Mde O, Da Silva MA. Clinical validity of the protocol for multi-professional centers for the determination of signs and symptoms of temporomandibular disorders. Part II. Cranio. 2009;27(1):62-7., being the first study on the association of LLL to concomitant use of occlusal splint, performed during the clinical routine of a tertiary service to TMD patients.

Major complaints reported by investigated subjects were similar to previous studies³3 Dworkin SF, LeResche L. Research diagnostic criteria for temporomandibular disorders: review, criteria, examinations and specifications, critique. J Craniomandib Disord. 1992;6(4):301-55.^,¹³13 de Felicio CM, Melchior Mde O, Da Silva MA. Clinical validity of the protocol for multi-professional centers for the determination of signs and symptoms of temporomandibular disorders. Part II. Cranio. 2009;27(1):62-7., being that head and face pain were more frequent (60 and 52%, respectively), suggesting comorbidity between them. The presence of TMD seems to cause excitatory impact in some types of headaches, and vice-versa, especially in patients more susceptible to central sensitization phenomenon, as it is the case with chronic orofacial pain¹⁵15 Speciali JG, Dach F. Temporomandibular dysfunction and headache disorder. Headache. 2015; 55(Suppl 1):72-83..

Parafunctional habits are risk factors for TMD and OFP, because they may overload teeth and masticatory system during maintained contractions¹⁶16 Fernandes G, Franco-Micheloni AL, Siqueira JT, Gonçalves DA, Camparis CM. Parafunctional habits are associated cumulatively to painful temporomandibular disorders in adolescents. Braz Oral Res. 2016;30(1): e15.. Grinding teeth at sleep (sleep bruxism) was reported by 64% of studied sample and teeth tightening (vigil bruxism) was reported by 76% of cases. Relevance of parafunctional oral habits on TMD pathophysiology is variable according to individuals, but they have been associated to painful TMD in a previous study¹⁶16 Fernandes G, Franco-Micheloni AL, Siqueira JT, Gonçalves DA, Camparis CM. Parafunctional habits are associated cumulatively to painful temporomandibular disorders in adolescents. Braz Oral Res. 2016;30(1): e15.. In this study, proposed method has not considered a correlation analysis allowing predicting the influence of such habits on TMD symptoms of the studied sample, which may represent a limitation of the study. Clinically, it is up to the professional to analyze this relationship in each case to consider it during diagnosis, treatment plan and prognosis, as factor contributing to the presentation¹⁶16 Fernandes G, Franco-Micheloni AL, Siqueira JT, Gonçalves DA, Camparis CM. Parafunctional habits are associated cumulatively to painful temporomandibular disorders in adolescents. Braz Oral Res. 2016;30(1): e15.^,¹⁷17 Takeuchi T, Arima T, Ernberg M, Yamaguchi T, Ohata N, Svensson P. Symptoms and physiological responses to prolonged, repeated, low-level tooth clenching in humans. Headache. 2015;55(3):381-94..

Jaw mobility restriction is considered a major clinical TMD sign³3 Dworkin SF, LeResche L. Research diagnostic criteria for temporomandibular disorders: review, criteria, examinations and specifications, critique. J Craniomandib Disord. 1992;6(4):301-55.^,⁵5 Maixner W, Diatchenko L, Dubner R, Fillingim RB, Greenspan JD, Knott C, et al. Orofacial pain prospective evaluation and risk assessment study-the OPPERA study. J Pain. 2011;12(11 Suppl):T4-11.e1-2.. Although subjects before treatment had no limitations according to normality patterns, at the end there has been significant increase in movement amplitude for both treated groups, which has also been observed in previous study⁸8 Vieira e Silva CA, da Silva MA, Melchior M de O, de Felício CM, Sforza C, Tartaglia GM. Treatment for TMD with occlusal splint and electromyographic control: application of the FARC protocol in a Brazilian population. Cranio. 2012;30(3):218-26., being SLG values higher that SG values. This has allowed the reflection that individual amplitude may be larger than the normality pattern and mask an individual movement restriction. And although a significant difference in mouth opening movement between CG and SG after treatment, there has been approximation between values found for treated groups and control group. This indicates the efficiency of both proposed treatments, where further painless jaw movements freedom is needed to recover stomatognathic system functionality⁸8 Vieira e Silva CA, da Silva MA, Melchior M de O, de Felício CM, Sforza C, Tartaglia GM. Treatment for TMD with occlusal splint and electromyographic control: application of the FARC protocol in a Brazilian population. Cranio. 2012;30(3):218-26.^,⁹9 Melchior MO, Venezian GC, Machado BC, Borges RF, Mazzetto MO. Does low intensity laser therapy reduce pain and change orofacial myofunctional conditions? Cranio. 2013;31(2):133-9.^,¹³13 de Felicio CM, Melchior Mde O, Da Silva MA. Clinical validity of the protocol for multi-professional centers for the determination of signs and symptoms of temporomandibular disorders. Part II. Cranio. 2009;27(1):62-7..

Biomodulator LLL effect might have favored muscle flexibility and pain remission, when offering effects which occlusal splint alone is unable to produce, complementing conventional treatment. Results suggest that the association of LLL to conventional treatment may more efficiently contribute to the handling of cases with jaw mobility difficulties, because its light promotes analgesia and has anti-inflammatory effect on muscles and joints⁶6 Herpich CM, Amaral AP, Leal-Junior EC, Tosato J de P, Gomes CA, Arruda E, et al. Analysis of laser therapy and assessment methods in the rehabilitation of temporomandibular disorder: a systematic review of the literature. J Phys Ther Sci. 2015;27(1):295-301.^,¹⁴14 Sancakli E, Gökçen-Röhlig B, Balik A, Öngül D, Kipirdi S, Keskin H. Early results of low-level laser application for masticatory muscle pain: a double-blind randomized clinical study. BMC Oral Health. 2015;15(1):131-6., that is, its action mechanisms are different from those of the occlusal splint, however complementing them. This hypothesis however would have been better tested with the presence of an additional group treated with occlusal splint and laser-placebo (just guide-light) which was not possible due to characteristics of the equipment used. It is known that expectation added to treatment experience induces placebo effect¹⁸18 Reicherts P, Gerdes AB, Pauli P, Wieser MJ. Psychological placebo and nocebo effects on pain rely on expectation and previous experience. J Pain. 2016;17(2):203-14., which could have been the case with this study, because such effect was shown with LLL in previous studies¹⁰10 Moraes Maia ML, Ribeiro MA, Maia LG, Stuginski-Barbosa J, Costa YM, Porporatti AL, et al. Evaluation of low-level laser therapy effectiveness on the pain and masticatory performance of patients with myofascial pain. Lasers Med Sci. 2014;29(1):29-35.^,¹¹11 Chen J, Huang Z, Ge M, Gao M. Efficacy of low-level laser therapy in the treatment of TMDs: a meta-analysis of 14 randomised controlled trials. J Oral Rehabil. 2015;42(4):291-9..

Due to the subjectivity of pain, its diagnosis, mostly done by its description, is in general not accurate with regard to different variables, such as individual threshold, perception, emotional aspects and individual discomfort, that is, each individual learns to attribute the term "pain" to their sensations by means of their personal experiences⁴4 Progiante PS, Pattussi MP, Lawrence HP, Goya S, Grossi PK, Grossi ML. Prevalence of temporomandibular disorders in an adult Brazilian Community Population using the Research Diagnostic Criteria (Axes I and II) for temporomandibular disorders (The Maringá Study). Int J Prosthodont. 2015;28(6):600-9.^,¹⁵15 Speciali JG, Dach F. Temporomandibular dysfunction and headache disorder. Headache. 2015; 55(Suppl 1):72-83.. "ProTMDMulti" protocol was developed, tested and validated to investigate people's perception of the presentation of their primary complaint¹³13 de Felicio CM, Melchior Mde O, Da Silva MA. Clinical validity of the protocol for multi-professional centers for the determination of signs and symptoms of temporomandibular disorders. Part II. Cranio. 2009;27(1):62-7..

According to this protocol, it was possible to observe that subjects treated with LLL associated to splint had relief in 7 out of 10 investigated signs and symptoms, versus four in subjects conventionally treated with splint alone. In addition, comparison of subtraction of values found in the two evaluation moments of this study (A1-A2) has shown significant difference (p<0.05) between groups (SG x SLG) for muscle pain, TMJ pain, neck pain, dental sensitivity and difficulty to swallow, being these better evaluated by SLG subjects after treatment. It has also to be considered that subjects' perception could have been influenced by the placebo effect, not tested in this study, induced by more marked pain decrease expectation in face of a more complete treatment with more frequent professional-patient contact, stimulating brain areas of pain modulating neurotransmitters release¹⁸18 Reicherts P, Gerdes AB, Pauli P, Wieser MJ. Psychological placebo and nocebo effects on pain rely on expectation and previous experience. J Pain. 2016;17(2):203-14..

Palpation of orofacial and cervical muscles was used as diagnostic method for muscle sensitivity changes, as well as to evaluate the effects of proposed treatments. Cervical region evaluation was suggested for often presenting TMD-related disorders¹⁹19 Silveira A, Gadotti IC, Armijo-Olivo S, Biasotto-Gonzalez DA, Magee D. Jaw dysfunction is associated with neck disability and muscle tenderness in subjects with and without chronic temporomandibular disorders. Biomed Res Int. 2015;2015:512792.^,²⁰20 von Piekartz H, Pudelko A, Danzeisen M, Hall T, Ballenberger N. Do subjects with acute/subacute temporomandibular disorder have associated cervical impairments: a cross-sectional study. Man Ther. 2016;26:208-15.. As with the evaluation of signs and symptoms perception, pain at palpation after treatments has also improved for both TMD groups, but more markedly for SLG, especially in sites submitted to LLL. This might be the result of LLL analgesic and anti-inflammatory effects⁶6 Herpich CM, Amaral AP, Leal-Junior EC, Tosato J de P, Gomes CA, Arruda E, et al. Analysis of laser therapy and assessment methods in the rehabilitation of temporomandibular disorder: a systematic review of the literature. J Phys Ther Sci. 2015;27(1):295-301.^,¹⁰10 Moraes Maia ML, Ribeiro MA, Maia LG, Stuginski-Barbosa J, Costa YM, Porporatti AL, et al. Evaluation of low-level laser therapy effectiveness on the pain and masticatory performance of patients with myofascial pain. Lasers Med Sci. 2014;29(1):29-35.^,¹⁴14 Sancakli E, Gökçen-Röhlig B, Balik A, Öngül D, Kipirdi S, Keskin H. Early results of low-level laser application for masticatory muscle pain: a double-blind randomized clinical study. BMC Oral Health. 2015;15(1):131-6., in addition to its placebo effect, thus potentiating the effect of the occlusal splint treatment. Not directly treated cervical muscles (sternocleidomastoid - medial portion - and trapezius - upper portion) had also significant decrease in sensitivity to palpation (Table 2), possibly due to the influence of the orofacial region with which they have relation, or due to the placebo effect⁶6 Herpich CM, Amaral AP, Leal-Junior EC, Tosato J de P, Gomes CA, Arruda E, et al. Analysis of laser therapy and assessment methods in the rehabilitation of temporomandibular disorder: a systematic review of the literature. J Phys Ther Sci. 2015;27(1):295-301.^,¹⁰10 Moraes Maia ML, Ribeiro MA, Maia LG, Stuginski-Barbosa J, Costa YM, Porporatti AL, et al. Evaluation of low-level laser therapy effectiveness on the pain and masticatory performance of patients with myofascial pain. Lasers Med Sci. 2014;29(1):29-35.^,¹¹11 Chen J, Huang Z, Ge M, Gao M. Efficacy of low-level laser therapy in the treatment of TMDs: a meta-analysis of 14 randomised controlled trials. J Oral Rehabil. 2015;42(4):291-9.^,¹⁴14 Sancakli E, Gökçen-Röhlig B, Balik A, Öngül D, Kipirdi S, Keskin H. Early results of low-level laser application for masticatory muscle pain: a double-blind randomized clinical study. BMC Oral Health. 2015;15(1):131-6.^,¹⁸18 Reicherts P, Gerdes AB, Pauli P, Wieser MJ. Psychological placebo and nocebo effects on pain rely on expectation and previous experience. J Pain. 2016;17(2):203-14.

19 Silveira A, Gadotti IC, Armijo-Olivo S, Biasotto-Gonzalez DA, Magee D. Jaw dysfunction is associated with neck disability and muscle tenderness in subjects with and without chronic temporomandibular disorders. Biomed Res Int. 2015;2015:512792.^-²⁰20 von Piekartz H, Pudelko A, Danzeisen M, Hall T, Ballenberger N. Do subjects with acute/subacute temporomandibular disorder have associated cervical impairments: a cross-sectional study. Man Ther. 2016;26:208-15.

Finally, the association of therapies for TMD, involving occlusal splint and LLL, has shown better effect in decreasing pain and increasing jaw movement amplitude as compared to occlusal splint alone, confirming that it is an easy to apply method, accessible to the clinician and of low cost to patients. However, the necessary availability of time twice a week was one limitation of this study, considering the number of subjects not concluding the treatment. Future studies involving the association of these therapies with larger samples will be necessary to confirm statistical results, which should be considered with care in this study. In addition, controlling aspects which could have influenced results, such as parafunctional habits, LLL placebo effect, specific joint and muscle TMD diagnosis, as well as their randomized distribution in different groups shall help the reliable understanding of the tested association of treatments.

CONCLUSION

The protocol of therapies association proposed in this study has shown more positive results as compared to isolated conventional treatment, suggesting that complementary therapy with low-level laser potentiates its effects when simultaneously applied.

Sponsoring sources: Coordenação de Aperfeiçoamento de Pessoal de Nível Superior.

¹
Zakrzewska JM. Multi-dimensionality of chronic pain of the oral cavity and face. J Headache Pain. 201325;14(1):37.
²
Awamleh L, Pun H, Lee JC, Avivi-Arber L. Decreased face primary motor cortex (face-M1) excitability induced by noxious stimulation of the rat molar tooth pulp is dependent on the functional integrity of face-M1 astrocytes. Exp Brain Res. 2015;233(4):1261-72.
³
Dworkin SF, LeResche L. Research diagnostic criteria for temporomandibular disorders: review, criteria, examinations and specifications, critique. J Craniomandib Disord. 1992;6(4):301-55.
⁴
Progiante PS, Pattussi MP, Lawrence HP, Goya S, Grossi PK, Grossi ML. Prevalence of temporomandibular disorders in an adult Brazilian Community Population using the Research Diagnostic Criteria (Axes I and II) for temporomandibular disorders (The Maringá Study). Int J Prosthodont. 2015;28(6):600-9.
⁵
Maixner W, Diatchenko L, Dubner R, Fillingim RB, Greenspan JD, Knott C, et al. Orofacial pain prospective evaluation and risk assessment study-the OPPERA study. J Pain. 2011;12(11 Suppl):T4-11.e1-2.
⁶
Herpich CM, Amaral AP, Leal-Junior EC, Tosato J de P, Gomes CA, Arruda E, et al. Analysis of laser therapy and assessment methods in the rehabilitation of temporomandibular disorder: a systematic review of the literature. J Phys Ther Sci. 2015;27(1):295-301.
⁷
Ferrario VF, Sforza C. Biomechanical model of the human mandible in unilateral clench: distribution of temporomandibular joint reaction forces between working and balancing sides. J Prosthet Dent. 1994;72(2):169-76.
⁸
Vieira e Silva CA, da Silva MA, Melchior M de O, de Felício CM, Sforza C, Tartaglia GM. Treatment for TMD with occlusal splint and electromyographic control: application of the FARC protocol in a Brazilian population. Cranio. 2012;30(3):218-26.
⁹
Melchior MO, Venezian GC, Machado BC, Borges RF, Mazzetto MO. Does low intensity laser therapy reduce pain and change orofacial myofunctional conditions? Cranio. 2013;31(2):133-9.
¹⁰
Moraes Maia ML, Ribeiro MA, Maia LG, Stuginski-Barbosa J, Costa YM, Porporatti AL, et al. Evaluation of low-level laser therapy effectiveness on the pain and masticatory performance of patients with myofascial pain. Lasers Med Sci. 2014;29(1):29-35.
¹¹
Chen J, Huang Z, Ge M, Gao M. Efficacy of low-level laser therapy in the treatment of TMDs: a meta-analysis of 14 randomised controlled trials. J Oral Rehabil. 2015;42(4):291-9.
¹²
da Silva MA, Botelho AL, Turim CV, da Silva AM. Low level laser therapy as an adjunctive technique in the management of temporomandibular disorders. Cranio. 2012;30(4):264-71.
¹³
de Felicio CM, Melchior Mde O, Da Silva MA. Clinical validity of the protocol for multi-professional centers for the determination of signs and symptoms of temporomandibular disorders. Part II. Cranio. 2009;27(1):62-7.
¹⁴
Sancakli E, Gökçen-Röhlig B, Balik A, Öngül D, Kipirdi S, Keskin H. Early results of low-level laser application for masticatory muscle pain: a double-blind randomized clinical study. BMC Oral Health. 2015;15(1):131-6.
¹⁵
Speciali JG, Dach F. Temporomandibular dysfunction and headache disorder. Headache. 2015; 55(Suppl 1):72-83.
¹⁶
Fernandes G, Franco-Micheloni AL, Siqueira JT, Gonçalves DA, Camparis CM. Parafunctional habits are associated cumulatively to painful temporomandibular disorders in adolescents. Braz Oral Res. 2016;30(1): e15.
¹⁷
Takeuchi T, Arima T, Ernberg M, Yamaguchi T, Ohata N, Svensson P. Symptoms and physiological responses to prolonged, repeated, low-level tooth clenching in humans. Headache. 2015;55(3):381-94.
¹⁸
Reicherts P, Gerdes AB, Pauli P, Wieser MJ. Psychological placebo and nocebo effects on pain rely on expectation and previous experience. J Pain. 2016;17(2):203-14.
¹⁹
Silveira A, Gadotti IC, Armijo-Olivo S, Biasotto-Gonzalez DA, Magee D. Jaw dysfunction is associated with neck disability and muscle tenderness in subjects with and without chronic temporomandibular disorders. Biomed Res Int. 2015;2015:512792.
²⁰
von Piekartz H, Pudelko A, Danzeisen M, Hall T, Ballenberger N. Do subjects with acute/subacute temporomandibular disorder have associated cervical impairments: a cross-sectional study. Man Ther. 2016;26:208-15.

Publication Dates

Publication in this collection
Jan-Mar 2017

History

Received
05 Sept 2016
Accepted
01 Feb 2017

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Sponsoring sources: Coordenação de Aperfeiçoamento de Pessoal de Nível Superior.

	CG		SLG				SG
			A1		A2		A1		A2
	Mean	SD	Mean	SD	Mean	SD	Mean	SD	Mean	SD
Opening	56.38	5.65	43.59	6.43	53.17	6.17	47.13	6.16	50.13	6.16
Right laterality	8.35	1.75	6.03	2.22	9.84	1.67	7.76	1.91	8.35	1.75
Left laterality	8.55	1.17	6.62	2.52	10.85	1.55	8.13	2.76	9.34	2.76
Protrusion (mm)	7.76	1.63	7.29	1.16	9.98	1.68	6.17	2.49	8.1	2.49

	CG		SLG				SG
			A1		A2		A1		A2
Palpation	Mean	SD	Mean	SD	Mean	SD	Mean	SD	Mean	SD
RM	1.84	1.86	6.9	6.9	1.5^ significant difference (p<0.01).	1.5	6.06	2.31	3.26^ significant difference (p<0.01).	2.46
LM	1.46	1.80	6.8	2.69	1.6^ significant difference (p<0.01).	2.11	6.2	2.83	2.86^ significant difference (p<0.01).	2.26
RAT	0.84	0.98	7	2.82	1.6^ significant difference (p<0.01).	2.36	6	2.72	2.8^ significant difference (p<0.01).	2.17
LAT	0.30	0.48	4.2	3.79	1.93^ significant difference (p<0.01).	2.34	3.4	2.22	1.4^ significant difference (p<0.01).	1.77
SHR	0.46	1.19	3.2	3.48	0.1^ significant difference (p<0.01).	0.31	3.53	3.52	1.46	2.50
SHL	0.3	0.85	4.5	3.71	0.2^ significant difference (p<0.01).	0.42	3.13	2.69	2.06	2.96
ECM-R	2.46	2.29	6	2.78	2.1^ significant difference (p<0.01).	1.52	5.6	2.35	3.13^ significant difference (p<0.01).	2.5
ECM-L	2.30	2.09	5.06	2.90	1.7^ significant difference (p<0.01).	1.49	4.3	3.17	3.66^* * significant difference (p<0.05);	2.94
Tr. R	2.15	2.11	5.4	3.27	2.6^ significant difference (p<0.01).	2.54	4.53	3.40	3.33	2.63
Tr. L	2.23	2.20	4.6	3.30	2.6^ significant difference (p<0.01).	2.36	5.88	3.39	4.13	3.11
ATM-R	1.46	1.26	7.1	2.59	1.8^ significant difference (p<0.01).	1.54	7.33	2.38	4.06^ significant difference (p<0.01).	2.34
ATM-L	1.15	1.46	7.4	2.63	1.9^ significant difference (p<0.01).	1.28	6.93	2.49	4^ significant difference (p<0.01).	2.77

	CG		SLG				SG
			A1		A2		A1		A2
ProTMDMulti	Mean	SD	Mean	SD	Mean	SD	Mean	SD	Mean	SD
Pain (mm)	0.8	1.7	17.7a	6.8	4.3c^ significant difference between A1 and A2 (p<0.01).	5.5	17.6a	10.4	10e	7.9
Pain TMJ	0	0	18a	7.3	3.1c^ significant difference between A1 and A2 (p<0.01).	4.5	22.3a	9.5	14.7e^* * significant difference between A1 and A2 (p<0.05);	12.1
Neck pain	0.6	1.3	12.9b	9.2	3.2^ significant difference between A1 and A2 (p<0.01).	3.9	13.1b	12.7	13.6e	13.4
Earache	0	0	3.5	7.8	0.3	0.6	12.8	10.1	4.7	9.4
Tinnitus	2	6.3	9.8	11.5	0.7^* * significant difference between A1 and A2 (p<0.05);	1	13.5	12.4	5.6	9.8
Plenitude	0.3	0.9	10.8	11.9	0.7^* * significant difference between A1 and A2 (p<0.05);	1.1	13.5a	12.4	7.7e^* * significant difference between A1 and A2 (p<0.05);	10.9
SDent	0.5	1.3	15.3a	8.7	1d^ significant difference between A1 and A2 (p<0.01).	1.7	15.3a	12.4	9.5e^* * significant difference between A1 and A2 (p<0.05);	10.6
TMJ noise	0.6	0.9	16.4a	8.06	3.3	3.1	16.2a	7.3	7.7e^* * significant difference between A1 and A2 (p<0.05);	7.3
Swallowing	0	0	3.5	7.08	0.1	0.3	8.2	13.4	6.1	11.5
Speaking	0	0	8.7	13.5	0.1	0.3	7	10.8	6.3	9.5

Brasil

Brasil

Low-level lasertherapy associated to occlusal splint to treat temporomandibular disorder: controlled clinical trial

ABSTRACT

BACKROUND AND OBJECTIVES:

METHODS:

RESULTS:

CONCLUSION:

RESUMO

JUSTIFICATIVA E OBJETIVOS:

MÉTODOS:

RESULTADOS:

CONCLUSÃO:

INTRODUCTION

METHODS

Statistical analysis

RESULTS

DISCUSSION

CONCLUSION

Publication Dates

History

Signs and symptoms		A1		A2
	CG	SG	SLG	SG	SLG
Muscle pain	0	15	10	8	2
Muscle fatigue	0	12	9	7	2
TMJ pain	0	15	7	9	2
TMJ noises	0	15	8	8	4
headache	3	15	9	7	2
Earache	0	9	5	4	0
Tinnitus	1	9	6	6	2
Aural plenitude	1	12	8	6	1
Difficulty
Mouth opening	0	10	8	5	1
Mouth closing	0	5	4	2	0
Chewing	0	11	7	5	3
Yawning	0	9	9	5	6
Swallowing	0	6	3	2	0
Speaking	0	7	3	4	0