K Yoshida1. 1. Department of Oral and Maxillofacial Surgery, Faculty of Medicine, Kyoto University, Japan.
Abstract
STATEMENT OF PROBLEM: The efficiency of an appliance for treatment of sleep apnea shows inordinate interindividual difference. The mechanism of its therapeutic effects remains unresolved. PURPOSE: This study examined the effect of the device on sleep apnea, and masticatory and tongue muscles. MATERIAL AND METHODS: Fifteen patients with sleep apnea syndrome were evaluated polysomnographically, with and without the appliance. Electromyograms (EMG) of genioglossal, masseter, and lateral pterygoid muscles were recorded and EMG amplitudes measured before, during, and after the apneas. Apneas were classified into three types: obstructive, central, and mixed. RESULTS: During obstructive apneas, muscles showed significantly lower EMG amplitudes; whereas during central apneas, no decrease in the mean EMG amplitude was observed. EMG amplitudes increased after insertion of the device. EMG amplitudes during obstructive apneas were significantly increased in the genioglossal (p < 0.03, t test) and lateral pterygoid muscles (p < 0.03) by the device. Obstructive and mixed apneas per hour were significantly reduced by the appliance; however, in contrast, central apneas showed slightly increased. The apnea index decreased significantly (p < 0.002) by the device owing to the paucity of central apneas. CONCLUSIONS: The apnea appliance activated masticatory and tongue muscles during sleep and prevented the upper airway from collapsing. The prosthetic appliance was useful in the treatment of sleep apnea syndrome.
STATEMENT OF PROBLEM: The efficiency of an appliance for treatment of sleep apnea shows inordinate interindividual difference. The mechanism of its therapeutic effects remains unresolved. PURPOSE: This study examined the effect of the device on sleep apnea, and masticatory and tongue muscles. MATERIAL AND METHODS: Fifteen patients with sleep apnea syndrome were evaluated polysomnographically, with and without the appliance. Electromyograms (EMG) of genioglossal, masseter, and lateral pterygoid muscles were recorded and EMG amplitudes measured before, during, and after the apneas. Apneas were classified into three types: obstructive, central, and mixed. RESULTS: During obstructive apneas, muscles showed significantly lower EMG amplitudes; whereas during central apneas, no decrease in the mean EMG amplitude was observed. EMG amplitudes increased after insertion of the device. EMG amplitudes during obstructive apneas were significantly increased in the genioglossal (p < 0.03, t test) and lateral pterygoid muscles (p < 0.03) by the device. Obstructive and mixed apneas per hour were significantly reduced by the appliance; however, in contrast, central apneas showed slightly increased. The apnea index decreased significantly (p < 0.002) by the device owing to the paucity of central apneas. CONCLUSIONS: The apnea appliance activated masticatory and tongue muscles during sleep and prevented the upper airway from collapsing. The prosthetic appliance was useful in the treatment of sleep apnea syndrome.
Authors: Elizabeth C Brown; Shaokoon Cheng; David K McKenzie; Jane E Butler; Simon C Gandevia; Lynne E Bilston Journal: Sleep Date: 2013-03-01 Impact factor: 5.849
Authors: Hideo Shinagawa; Emi Z Murano; Jiachen Zhuo; Bennett Landman; Rao P Gullapalli; Jerry L Prince; Maureen Stone Journal: Oral Surg Oral Med Oral Pathol Oral Radiol Endod Date: 2009-03