Ertekin C, Yüceyar N, Aydogdu I
Department of Clinical Neurophysiology, Ege University Medical School Hospital, Bornova, Izmir, Turkey.
J Neurol Neurosurg Psychiatry. 1998 Dec;65(6):848-56. doi: 10.1136/jnnp.65.6.848.
To evaluate dysphagia at the oropharyngeal stage of swallowing and to determine the pathophysiological mechanisms of dysphagia in patients with myasthenia gravis.
Fifteen patients with myasthenia gravis with dysphagia and 10 patients without dysphagia were investigated by a combined electrophysiological and mechanical method described previously. Laryngeal movements were detected by a piezoelectric transducer and the related submental EMG (SM-EMG) and sometimes the EMG of cricopharyngeal muscle of the upper esophageal sphincter (CP-EMG) were recorded during dry or wet swallowing. The results of these electrophysiological variables were compared with those of normal age matched control subjects.
In patients with myasthenia gravis with dysphagia, it was found that the time necessary for the larynx to remain in its superior position during swallowing and swallowing variability in successive swallows increased significantly compared with normal subjects and with patients with myasthenia gravis without dysphagia. The total duration of SM-EMG activity was also prolonged in both groups but more severely in the dysphagic patients. Electromyographic activity of the CP sphincter was found to be normal in the dysphagic patients investigated. All the patients with myasthenia gravis with dysphagia had pathological dysphagia limits (<20 ml water) whereas other patients except two, were within normal limits.
Because the electrophysiological variables related to oropharyngeal swallowing were prolonged even in patients with myasthenia gravis without dysphagia, it is concluded that the submental and laryngeal elevators are involved subclinically in myasthenia gravis and, because of compensating mechanisms, the patient may not be dysphagic. As the CP-EMG behaviour was found to be normal, a coordination disorder between normal CP sphincter muscle and the affected striated muscles of the laryngeal elevators may be one of the reasons for dysphagia in myasthenia gravis. This method also made it possible to investigate the myasthenic involvement in the laryngeal elevators that cannot be evaluated by other electrophysiological methods in myasthenia gravis.
评估吞咽口咽期的吞咽困难情况,并确定重症肌无力患者吞咽困难的病理生理机制。
采用先前描述的电生理与机械联合方法,对15例有吞咽困难的重症肌无力患者和10例无吞咽困难的患者进行研究。通过压电换能器检测喉部运动,并在干吞或湿吞过程中记录相关的颏下肌肌电图(SM-EMG),有时还记录食管上括约肌环咽肌的肌电图(CP-EMG)。将这些电生理变量的结果与年龄匹配的正常对照受试者的结果进行比较。
在有吞咽困难的重症肌无力患者中,发现吞咽期间喉部保持在高位所需的时间以及连续吞咽时吞咽的变异性与正常受试者和无吞咽困难的重症肌无力患者相比显著增加。两组患者SM-EMG活动的总持续时间也延长,但吞咽困难患者更为严重。在所研究的吞咽困难患者中,发现CP括约肌的肌电图活动正常。所有有吞咽困难的重症肌无力患者都有病理吞咽限度(<20毫升水),而其他患者除2例外在正常范围内。
由于即使在无吞咽困难的重症肌无力患者中,与口咽吞咽相关的电生理变量也延长,因此得出结论,颏下肌和喉部提升肌在重症肌无力中存在亚临床受累,并且由于代偿机制,患者可能没有吞咽困难。由于发现CP-EMG行为正常,正常CP括约肌肌肉与受影响的喉部提升横纹肌之间的协调障碍可能是重症肌无力患者吞咽困难的原因之一。该方法还使得能够研究重症肌无力中喉部提升肌的肌无力受累情况,而这是其他电生理方法无法评估的。