Masticatory Muscles Activation and TMJ Space During Asymmetrically Loaded Jaw Closing

Lea Angst; Jan Harm Koolstra; Daniel Wiedemeier; Rachel M Van Sluijs; Anina M Pulfer; Luigi M Gallo; Vera Colombo

doi:10.1007/s10439-023-03424-6

Masticatory Muscles Activation and TMJ Space During Asymmetrically Loaded Jaw Closing

Ann Biomed Eng. 2024 Apr;52(4):877-887. doi: 10.1007/s10439-023-03424-6. Epub 2024 Jan 12.

Authors

Lea Angst¹, Jan Harm Koolstra², Daniel Wiedemeier³, Rachel M Van Sluijs², Anina M Pulfer⁴, Luigi M Gallo⁴, Vera Colombo⁴

Affiliations

¹ Clinic of Masticatory Disorders, Centre of Dental Medicine, University of Zurich, Plattenstrasse 11, 8032, Zurich, Switzerland. lea.angst@zzm.uzh.ch.
² Department of Functional Anatomy, Academic Centre for Dentistry Amsterdam (ACTA), Research Institute MOVE, University of Amsterdam and VU University, Amsterdam, The Netherlands.
³ Statistical Services, Center of Dental Medicine, University of Zurich, Zurich, Switzerland.
⁴ Clinic of Masticatory Disorders, Centre of Dental Medicine, University of Zurich, Plattenstrasse 11, 8032, Zurich, Switzerland.

Abstract

Masticatory muscle activation and temporomandibular joint (TMJ) load generated during asymmetrically loaded jaw closing are largely unknown. Two different strategies were developed to explain how the central nervous system (CNS) generates muscle activation patterns during motion: minimization of joint load (MJL) vs. minimization of muscle effort (MME). The aim of the present study was to investigate, experimentally, the neuromuscular strategy selected by the CNS to coordinate jaw closing in reaction to the application of an external asymmetric load. Masticatory muscle activation was measured with electromyography (EMG) and the minimum intra-articular distance (MID) was assessed by dynamic stereometry to infer joint loading. Ten healthy subjects performed jaw-closing movements against an asymmetric mandibular load set from 0.0 to 2.0 kg in 0.5-kg steps. Recordings were analyzed by exploratory and graphical statistical tools. Moreover, the observed differences in MID and EMG among the various mandibular loads were tested using non-parametric tests for repeated measures data. The ipsilateral-contralateral differences in MID and EMG of the anterior temporalis showed a significant increase (p < 0.001, p = 0.01) with increasing asymmetrical load with both joints being most heavily loaded at 1 kg. EMG signals of the masseter did not change significantly with increasing load. This study is the first to have analyzed the changes in the TMJ intra-articular space during asymmetrically loaded jaw-closing movements, not only three dimensionally and dynamically, but also combined with EMG. Asymmetrical load affected the TMJ space and masticatory muscle activation patterns, primarily resulting in an increased activation of the anterior temporalis muscle. This might suggest the involvement of a control mechanism to protect the joints from overloading. However, the results do not fully support the hypothesis of MJL nor the MME strategy.

Keywords: Biomechanics; Masseter muscle; Minimization of joint load; Minimization of muscle effort; Temporalis muscle; Temporomandibular joint.

MeSH terms

Central Nervous System
Electromyography
Endrin / analogs & derivatives*
Humans
Mandible
Masticatory Muscles*
Temporomandibular Joint*

Substances

MME
Endrin