Bioelectric activity of mastication muscles and the functional impairment risk groups concerning the masticatory muscles

• Autorzy: Zieliński G. , Suwała M. , Ginszt M. , Szkutnik J. , Majcher P.

Identyfikatory

DOI

10.5277/ABB-01229-2018-04

• Języki publikacji: EN

Abstrakty

EN

Temporomandibular disorders affect from 5 to 12 percent of the population, occurring almost twice as often in women than in men. The painful form of temporomandibular disorders is one of the most common musculoskeletal disorders causing pain. The chronic form is associated with changes in activity of the masticatory muscles and can lead to sleep problems, reduction of emotional state and worsening of quality of life. Methods: 66 women were included in the study group. The study was composed of a clinical evaluation of temporomandibular disorders and assessment of the masticatory muscle activities using surface electromyography. The anterior part of the temporalis muscle and the superficial part of the masseter muscle were evaluated during teeth clenching on cotton rolls. The symmetric activity index was calculated from the results of electromyographic activity. Based on the activity and symmetric activity index values, subjects were qualified to the risk group of temporomandibular disorders. Results: Twenty people (30.3 percent) qualified for the temporomandibular disorders risk group. In the temporomandibular disorders risk group, the mean symmetric activity index value of the anterior part of the temporal muscle was 72.6 percent and the mean electromyographic activity was 143.94 microvolts. In the masseter muscle, the mean symmetric activity index value was 67.7 percent and the mean electromyographic activity was 155.33 microvolts. Conclusions: Temporomandibular disorders may develop in 30.3 percent of examined women. The research should be continued to determine the temporomandibular disorders risk group, which may enable for the appropriate prevention of the development of dysfunctions in the stomatognathic system.

Słowa kluczowe

EN

temporalis anterior; masseter muscle; TMD; sEMG; risk factors

PL

TMD; sEMG; czynniki ryzyka

• Wydawca: Oficyna Wydawnicza Politechniki Wrocławskiej
• Czasopismo: Acta of Bioengineering and Biomechanics
• Rocznik: 2018
• Tom: Vol. 20, no. 4
• Strony: 161--166
• Opis fizyczny: Bibliogr. 30 poz., tab.

Twórcy

autor

Zieliński G.

• Chair and Department of Rehabilitation, Physiotherapy and Balneotherapy, Medical University of Lublin, Poland

autor

Suwała M.

• Chair and Department of Rehabilitation, Physiotherapy and Balneotherapy, Medical University of Lublin, Poland

autor

Ginszt M.

• Chair and Department of Rehabilitation, Physiotherapy and Balneotherapy, Medical University of Lublin, Poland

autor

Szkutnik J.

• Department of Functional Masticatory Disorders, Medical University of Lublin, Poland

autor

Majcher P.

• Chair and Department of Rehabilitation, Physiotherapy and Balneotherapy, Medical University of Lublin, Poland

Bibliografia

• [1] AL-KHOTANI A., NAIMI-AKBAR A., GJELSET M., ALBADAWI E., BELLO L., HEDENBERG-MAGNUSSON B. et al., The associations between psychosocial aspects and TMD-pain related aspects in children and adolescents, J. Headache Pain. 2016, 17, 30.
• [2] AL-SALEH M.A.Q., ARMIJO-OLIVO S., FLORES-MIR C., THIE N.M.R., Electromyography in diagnosing temporomandibular disorders, J. Am. Dent. Assoc., 2012, 143, 351–362.
• [3] ANDERSON G.C., JOHN M.T., OHRBACH R., NIXDORF D.R., SCHIFFMAN E.L., TRUELOVE E.S. et al., Influence of headache frequency on clinical signs and symptoms of TMD in subjects with temple headache and TMD pain, Pain, 2011, 152, 765–771.
• [4] BECKER O.E., AVELAR R.L., RIVERO E.R.C., DE OLIVEIRA R.B., MEURER M.I., SANTOS A.M.B. et al., Myositis Ossificans of the Temporalis Muscle, Head Neck Pathol., 2016, 10, 340–344.
• [5] CASPERSEN N., HIRSVANG J.R., KROELL L., JADIDI F., BAAD--HANSEN L., SVENSSON P. et al., Is There a Relation between Tension-Type Headache. Temporomandibular Disorders and Sleep?, Pain Res. Treat., 2013, 845–684.
• [6] CHOI K.-H., KWON O.S., JERNG U.M., LEE S.M., KIM L.-H., JUNG J., Development of electromyographic indicators for the diagnosis of temporomandibular disorders: a protocol for an assessor-blinded cross-sectional study, Integr. Med. Res., 2017, 6, 97–104.
• [7] DE FELÍCIO C.M., FERREIRA C.L.P., MEDEIROS A.P.M., RODRIGUES DA SILVA M.A.M., TARTAGLIA G.M., SFORZA C., Electromyographic indices. orofacial myofunctional status and temporomandibular disorders severity: A correlation study, J. Electromyogr. Kinesiol., 2012, 22, 266–272.
• [8] FERRARIO V.F., SFORZA C., COLOMBO A., CIUSA V., An electromyographic investigation of masticatory muscles symmetry in normo-occlusion subjects, J. Oral Rehabil., 2000, 27, 33–40.
• [9] FERRARIO V.F., TARTAGLIA G.M., GALLETTA A., GRASSI G.P., SFORZA C., The influence of occlusion on jaw and neck muscle activity: a surface EMG study in healthy young adults, J. Oral Rehabil., 2006, 33, 341–348.
• [10] HERMENS H.J., FRERIKS B., DISSELHORST-KLUG C., RAU G., Development of recommendations for SEMG sensors and sensor placement procedures, J. Electromyogr. Kinesiol., 2000, 10, 361–374.
• [11] HOTTA G.H., DE OLIVEIRA A.I.S., DE OLIVEIRA A.S., PEDRONI C.R., HOTTA G.H., DE OLIVEIRA A.I.S. et al., Electromyography and asymmetry index of masticatory muscles in undergraduate students with temporomandibular disorders, Braz. J. Oral Sci., 2015, 14, 176–181.
• [12] KARTHIK R., HAFILA M.I.F., SARAVANAN C., VIVEK N., PRIYADARSINI P., ASHWATH B., Assessing Prevalence of Temporomandibular Disorders among University Students: A Questionnaire Study, J. Int. Soc. Prev. Community Dent., 2017, 7, S24–S29.
• [13] KUNISZYK-JÓŹKOWIAK W., JASZCZUK J., CZAPLICKI A., Changes in electromyographic signals and skin temperature during standardised effort in volleyball players, Acta Bioeng. Biomech., 2018, 20, 115–122.
• [14] MANFREDINI D., GUARDA-NARDINI L., WINOCUR E., PICCOTTI F., AHLBERG J., LOBBEZOO F., Research diagnostic criteria for temporomandibular disorders: a systematic review of axis I epidemiologic findings, Oral Surg. Oral Med. Oral Pathol. Oral Radiol. Endod., 2011, 112, 453–462.
• [15] NAEIJE M., MCCARROLL R.S., WEIJS W.A., Electromyographic activity of the human masticatory muscles during submaximal clenching in the inter-cuspal position, J. Oral Rehabil., 1989, 16, 63–70.
• [16] National Institute of Dental and Craniofacial Research, Facial Pain., 2018. http://www.nidcr.nih.gov/research/data-statistics/facial-pain.
• [17] OLIVEIRA L.K., DE ALMEIDA G.A., LELIS É.R., TAVARES M., FERNANDES NETO A.J., Temporomandibular disorder and anxiety. quality of sleep. and quality of life in nursing professionals, Braz. Oral. Res., 2015, 29, pii: S1806-83242015000100265. DOI: 10.1590/1807-3107BOR-2015.vol29.0070.
• [18] OSIEWICZ M.A., LOBBEZOO F., LOSTER B.W., LOSTER J.E., MANFREDINI D., Frequency of temporomandibular disorders diagnoses based on RDC/TMD in a Polish patient population, Cranio. J. Craniomandib. Pract., 2018, 36, 304–310.
• [19] OSIEWICZ M.A., LOBBEZOO F., LOSTER B.W., WILKOSZ M., NAEIJE M., OHRBACH R., Research Diagnostic Criteria for Temporomandibular Disorders (RDC/TMD): The Polish version of a dual-axis system for the diagnosis of TMD.* RDC/TMD form, Open J. Stomatol., 2013, 66, 576–649.
• [20] REISSMANN D.R., BEHN A., SCHIERZ O., LIST T., HEYDECKE G., Impact of dentists’ years since graduation on management of temporomandibular disorders, Clin. Oral Investig., 2015, 19, 2327–2336.
• [21] RODRIGUES-BIGATON D., BERNI K.C.S., ALMEIDA A.F.N., SILVA M.T., Activity and asymmetry index of masticatory muscles in women with and without dysfunction temporomandibular, Electromyogr. Clin. Neurophysiol., 2010, 50, 333–338.
• [22] SANTANA-MORA U., CUDEIRO J., MORA-BERMÚDEZ M.J., RILO-POUSA B., FERREIRA-PINHO J.C., OTERO-CEPEDA J.L. et al., Changes in EMG activity during clenching in chronic pain patients with unilateral temporomandibular disorders, J. Electromyogr. Kinesiol., 2009, 19, e543–549.
• [23] SANTANA-MORA U., LÓPEZ-RATÓN M., MORA M.J., CADARSO-SUÁREZ C., LÓPEZ-CEDRÚN J., SANTANA-PENÍN U., Surface raw electromyography has a moderate discriminatory capacity for differentiating between healthy individuals and those with TMD: a diagnostic study, J. Electromyogr. Kinesiol., 2014, 24, 332–340.
• [24] SCHMITTER M., KARES-VRINCIANU A., KARES H., BERMEJO J.L., SCHINDLER H.-J., Sleep-associated aspects of myofascial pain in the orofacial area among Temporomandibular Disorder patients and controls, Sleep Med., 2015, 16, 1056–1061.
• [25] SHARMA S., GUPTA D.S., PAL U.S., JUREL S.K., Etiological factors of temporomandibular joint disorders, Natl. J. Maxillofac. Surg., 2011, 2, 116–119.
• [26] STRÓŻYK P., BAŁCHANOWSKI J.K., Effect of foodstuff on muscle forces during biting off, Acta Bioeng. Biomech., 2016, 18(2), 81–91.
• [27] SUVINEN T.I., KEMPPAINEN P., LE BELL Y., VALJAKKA A., VAHLBERG T., FORSSELL H., Research Diagnostic Criteria Axis II in screening and as a part of biopsychosocial subtyping of Finnish patients with temporomandibular disorder pain, J. Orofac. Pain., 2013, 27, 314–324.
• [28] TARTAGLIA G.M., LODETTI G., PAIVA G., DE FELICIO C.M., SFORZA C., Surface electromyographic assessment of patients with long lasting temporomandibular joint disorder pain, J. Electromyogr. Kinesiol., 2011, 21, 659–664.
• [29] WIECZOREK A., LOSTER J., LOSTER B.W., Relationship between Occlusal Force Distribution and the Activity of Masseter and Anterior Temporalis Muscles in Asymptomatic Young Adults, BioMed. Res. Int., 2012, e354017.
• [30] WIECZOREK A., LOSTER J., LOSTER B.W., SIERPIŃSKA T., GOŁĘBIEWSKA M., Correlation between activity and asymmetry indices and skeletal classes in symptomatic-free young adults, Czas. Stomatol., 2013, 66, 750–760.