Functional electrical stimulation and respiration during sleep.

During obstructive sleep apnea (OSA), respiratory activation of upper airway muscles, particularly genioglossus, is ineffective during sleep. Functional electrical stimulation (FES) of muscles reportedly reduces the number and length of OSAs. Our goals were to examine the effect of FES on sensation during wakefulness and on OSA events. Studies were performed in 11 subjects: 4 healthy asymptomatic subjects and 7 patients with OSA. Surface electrodes placed on the submental region produced discomfort; however, during sleep, the stimulus intensity producing arousal was significantly greater than that producing barely tolerable discomfort during wakefulness. Additionally, we developed a protocol for placement of fine-wire electrodes into the neurovascular bundle of the hypoglossal nerve, using recognizable radiographic features and computerized axial tomography as guides. In these patients, while awake, optimal wire placement was associated with visible tongue protrusion without discomfort. With both surface stimulation and fine-wire FES, during sleep the stimulus intensity required to produce obvious electroencephalographic arousal was significantly greater than that producing a barely tolerable sensation while awake. During apneic events, the application of surface stimulation had an inconsistent effect, terminating 22% of the apneas, and fine-wire FES also had a limited impact, terminating 23% of the apneic events. We conclude from our studies that subjects tolerate surface and fine-wire FES to higher stimulus parameters during sleep than during wakefulness but that both approaches have an inconsistent effect on apneas during sleep.