Department of Odontology, Clinical Oral Physiology, Umeå University, Sweden.
Eur J Pain. 2013 Aug;17(7):995-1004. doi: 10.1002/j.1532-2149.2012.00263.x. Epub 2012 Dec 14.
A functional integration between the jaw and neck regions has been demonstrated during normal jaw function. The effect of masseter muscle pain on this integrated motor behaviour in man is unknown. The aim of this study was to investigate the effect of induced masseter muscle pain on jaw-neck movements during a continuous jaw opening-closing task.
Sixteen healthy men performed continuous jaw opening-closing movements to a target position, defined as 75% of the maximum jaw opening. Each subject performed two trials without pain (controls) and two trials with masseter muscle pain, induced with hypertonic saline as a single injection. Simultaneous movements of the mandible and the head were registered with a wireless optoelectronic three-dimensional recording system. Differences in movement amplitudes between trials were analysed with Friedman's test and corrected Wilcoxon matched pairs test.
The head movement amplitudes were significantly larger during masseter muscle pain trials compared with control. Jaw movement amplitudes did not differ significantly between any of the trials after corrected Wilcoxon tests. The ratio between head and jaw movement amplitudes was significantly larger during the first pain trial compared with control.
Experimental masseter muscle pain in humans affected integrated jaw-neck movements by increasing the neck component during continuous jaw opening-closing tasks. The findings indicate that pain can alter the strategy for jaw-neck motor control, which further underlines the functional integration between the jaw and neck regions. This altered strategy may have consequences for development of musculoskeletal pain in the jaw and neck regions.
在正常的下颌功能中,下颌和颈部区域之间已经表现出功能整合。目前尚不清楚咀嚼肌疼痛对人类这种综合运动行为的影响。本研究旨在探讨在持续的下颌开口-闭口任务中,诱导的咀嚼肌疼痛对下颌-颈部运动的影响。
16 名健康男性进行了连续的下颌开口-闭口运动,达到 75%的最大开口位置。每位受试者在没有疼痛的情况下进行两次试验(对照组)和两次咀嚼肌疼痛试验,通过单次注射高渗盐水来诱导疼痛。下颌和头部的同步运动使用无线光电三维记录系统进行记录。采用 Friedman 检验和校正 Wilcoxon 配对检验分析试验之间的运动幅度差异。
与对照组相比,在咀嚼肌疼痛试验中头部运动幅度显著增大。校正 Wilcoxon 检验后,任何试验中下颌运动幅度均无显著差异。与对照组相比,第一次疼痛试验中头和下颌运动幅度的比值显著增大。
人类实验性咀嚼肌疼痛通过在连续的下颌开口-闭口任务中增加颈部分量来影响下颌-颈部的综合运动。这些发现表明,疼痛可以改变下颌-颈部运动控制的策略,进一步强调了下颌和颈部区域之间的功能整合。这种改变的策略可能会对颌颈区域肌肉骨骼疼痛的发展产生影响。
