Temporomandibular Joint Conditions in Patients with Craniofacial Microsomia (Literature Review)

Syndromes of I and II gill arches called maxillofacial dysostoses are accompanied by damage of temporomandibular joint (TMJ). Craniofacial microsomia is one of the of maxillofacial dysostoses. This syndrome has a number of features associated with clinical manifestations which should be taken into account at steps of the diagnosis and treatment of such patients. The degree of mandibular hypoplasia in this pathology can vary from 0 to 3, and it is inversely proportional to the integrity of the articular disc on the side of the lesion. An increased mechanical load on a healthy joint leads to its dysfunction and dislocation of the articular disc at the healthy side. In addition to hypoplasia of bone structures, craniofacial microsomia is accompanied by subatrophy of masticatory muscles and that in couple leads to malocclusion and myodynamic imbalance. Before drawing up a treatment plan it is necessary to study the state of the TMJ on both sides using multislice computed tomography (MSCT) and magnetic resonance imaging (MRI). The approach to treatment should be individual, combined, staged, based on the severity of the symptom complex.

1. Bel’chenko V. A., Prityko A. G., Klimchuk O. V., Fillipov V. V. Craniofacial surgery in 3D format: atlas. M.: GEOTAR­Media, 2010. P. 202–214.

2. Gilyeva K. S., Bucan S. B., Verbo E. V., Hohlachev S. B., Chernen’kij M. M., Smal’ A. A. Optimization of functional and aesthetic results of microsurgical autotransplantation of the fibula while eliminating defects of the mandible. Annals of plastic, reconstructive and aesthetic surgery. 2018. No. 1. P. 69–70.

3. Ivanov A. L., Chikurov G. Yu., Nadtochij A. G., Starikova N. V. Using the method of computer three­dimensional modeling for distraction of the lower jaw in children. Russian dentistry. 2016. V. 9. No. 3. P. 17–33.

4. Mitroshenkov P. N., Mitroshenkov P. P., Pelishenko T. G. Elimination of congenital anomalies of the facial skeleton using computer navigation systems. / Kremlin Medicine. Clinical Bulletin. 2020. No. 2. P. 55–62.

5. Topol’nickij O. Z., Komelyagin D. Yu., Dubin S. A., Vladimirov F. I. A new method of treatment of children with underdevelopment of the lower jaw branch. / Russian Dentistry. 2018. V. 11, No. 1. P. 47–49. 6. Topol’nickij O. 3., Dmitrieva I. V., Arapov H. C., Krasnov A. P. Treatment of children and adolescents with defects and de­ formities of the jaws using reinforced composite endoprostheses. Russian Den­ tistry. 2018. V. 11, No. 1. P. 39–40.

6. Shajhaliev A. I., Ivanov S. Yu., Davydova T. R., Korshakov E. V., Pankratov A. S., Petruk P. S., Soloshenkov P. P., Arzashvili L. D., Gasbanov G. A., Korgoloev R. S., Usatov D. A., Cherkesov I. V. Endoprosthesis of the articular fossa and con­ dyle process of the temporomandibular joint providing synchronous excursion of the lower jaw. Utility model patent 202290U1, 10.02.2021. Application No. 2020109883 dated 06.03.20.

7. Birgfeld C., Heike C. Craniofacial Microsomia. Clin. Plast. Surg. 2019 (Apr). 46 (2). P. 207–221.

8. Caron C. J. J. M., Pluijmers B. I., Wolvius E. B., Looman C. W. N., Bulstrode N., Evans R. D. et al. Craniofacial and extracraniofacial anomalies in craniofacial microsomia: a multicenter study of 755 patients. J. Craniomaxillofac. Surg. 2017;45(8):1302–1310.

9. Galea C. J., Dashow J. E., Woerner J. E. Congenital Abnormalities of the Temporomandibular Joint. Oral. Maxillofacial. Surg. Clin. N. Am. 30. 2018. Р. 71–82.

10. Kim B. S., Chen X., Chen C., Chong C. H., Yan Y. J., Han W., Sun M., Yang X., Xu H. S., Zhang Y., Chai G. OMENS+ Classification Correlations Analysis of Craniofacial Microsomia in China: The Relationship Between Macrostomia and Mandibular Hypoplasia. J. Craniofac. Surg. 2022. Jan. 18.

11. Kitai N., Murakami S., Takashima M., Furukawa S., Kreiborg S., Takada K. Evaluation of temporomandibular joint in patients with hemifacial microsomia. Cleft Palate Craniofac. J. 2004 Mar; 41(2):157–162