Abstract
Orofacial pain or tenderness is a primary symptom associated with temporomandibular joint (TMJ) disorders (TMDs). To understand the pathological mechanisms underlying TMDs, several mouse models have been developed, including mechanical stimulus-induced TMD and genetic mouse models. However, a lack of feasible approaches for assessing TMD-related nociceptive behaviours in the orofacial region of mice has hindered the in-depth study of TMD-associated mechanisms. This study aimed to explore modifications of three existing methods to analyse nociceptive behaviours using two TMD mouse models: (1) mechanical allodynia was tested using von Frey filaments in the mouse TMJ region by placing mice in specially designed chambers; (2) bite force was measured using the Economical Load and Force (ELF) system; and (3) spontaneous feeding behaviour tests, including eating duration and frequency, were analysed using the Laboratory Animal Behaviour Observation Registration and Analysis System (LABORAS). We successfully assessed changes in nociceptive behaviours in two TMD mouse models, a unilateral anterior crossbite (UAC)-induced TMD mouse model and a β-catenin conditional activation mouse model. We found that the UAC model and β-catenin conditional activation mouse model were significantly associated with signs of increased mechanical allodynia, lower bite force, and decreased spontaneous feeding behaviour, indicating manifestations of TMD. These behavioural changes were consistent with the cartilage degradation phenotype observed in these mouse models. Our studies have shown reliable methods to analyse nociceptive behaviours in mice and may indicate that these methods are valid to assess signs of TMD in mice.
Highlights
The temporomandibular joint (TMJ) is one of the most frequently used joints in the human body,[1] and TMJ disorders (TMDs) are commonly encountered in dental clinical practice, with a prevalence of 4%–10% worldwide.[2,3] TMD patients present with at least one of the following symptoms: pain, mandibular mobility limitations, TMJ noise, and clicking
We assessed changes in nociceptive behaviours by behavioural tests to determine whether mechanical allodynia in performing a mechanical allodynia test, a bite force test, and a the TMJ region increased in the mice after the unilateral anterior crossbite (UAC) operation
Results from the von Frey test in the 7, 8, and 9-week-old mice (1–3 weeks after the UAC operation, respectively) showed that the sensitivity of mechanical allodynia in the TMJ region significantly increased in the mice that underwent the UAC operation compared with in the mice that underwent the sham operation a
Summary
The temporomandibular joint (TMJ) is one of the most frequently used joints in the human body,[1] and TMJ disorders (TMDs) are commonly encountered in dental clinical practice, with a prevalence of 4%–10% worldwide.[2,3] TMD patients present with at least one of the following symptoms: pain, mandibular mobility limitations, TMJ noise, and clicking. Despite the challenges faced when assessing behavioural responses in the orofacial region, due to the location and complex anatomy of the TMJ, several attempts have been made to develop direct behavioural tests.[6,7] Ren reported, for the first time in 1999, a method for assessing mechanical allodynia in the rat TMJ using a monofilament.[7] Subsequently, this method has been improved in several other studies and is currently performed by placing a rat into an individual plastic cage and measuring the response threshold using a digital device consisting of a rigid filament linked to an electronic device.[8,9,10,11,12] the more disobedient and aggressive temperament of mice compared with rats has complicated the development of a similar mechanical allodynia measurement method for the mouse orofacial region. Improving nociceptive testing methods for TMD mouse models remains an essential goal
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