The challenge of ecological validity in temporomandibular disorders research

Abstract

AbstractObjectiveTo review the ecological validity of outcomes from current research involving temporomandibular disorders (TMDs), with an emphasis on chronic myofascial pain and the precocious development of degenerative disease of the temporomandibular joint (TMJ).Materials and MethodsCurrent approaches used to study TMDs in terms of neuromechanics, masticatory muscle behaviours, and the dynamics of the autonomic nervous system (ANS) were assessed for ecological validity in this review. In particular, the available literature was scrutinized regarding the effects of sampling, environmental and psychophysiological constraints and averaging data across biological rhythms.ResultsValidated computer‐assisted numerical modelling of the neuromechanics used biological objective functions to accurately predict muscle activation patterns for jaw‐loading tasks that were individual‐specific. With respect to masticatory muscle behaviour, current findings refute the premise that sustained bruxing and clenching at high jaw‐loading magnitudes were associated with painful TMDs such as myofascial pain. Concerning the role of the ANS in TMDs, there remains the need for personalized assessments based on biorhythms, and where the detection of dysregulated physiologic oscillators may inform interventions to relieve pain and restore normal function.ConclusionsFuture human research which focuses on TMD myofascial pain or the precocious development and progression of TMJ degenerative joint disease requires experimental designs with ecological validity that capture objectively measured data which meaningfully reflect circadian and ultradian states.