Airway effects of direct left-sided cervical vagal stimulation in patients with complex partial seizures

Abstract

Airway nerves have been implied in obstructive lung diseases for many years. In experimental animals, vagal stimulation produces several features of asthma, including airflow obstruction and airway plasma exudation. Vagal stimulation is a novel and effective therapy in patients with refractory epilepsy. We evaluated the airway response to left-sided cervical electrical stimulation using 1 Hz (low stimulation: 30 s, once every 90 min) and 30 Hz (high stimulation: 30 s, every 5 min) in a randomized double-blinded fashion for 3 months in epileptic patients participating in a phase two efficacy study. In eight patients with high stimulation and six with low stimulation, no effect on FEV1 (forced expiratory volume in 1 s) was seen over 3 months chronic stimulation. In a follow-up, up to 9 months, no further deterioration of lung function was observed. Of five patients without concomitant lung disease who consented to more extended experiments, one patient produced a reduction of FEV1 with variable frequency and current stimulation (10–87 Hz and 0.5–2.5 mA respectively). In one patient with obstructive lung disease, however, increased frequency and current stimulation led to a stimulation-dependent decrease in FEV1. After the addition of inhaled ipratropium bromide (160 μg, dry powder) to this patient, there was a clear improvement of baseline FEV1, but only a slight improvement of the stimulation-induced deterioration of FEV1. We conclude that long-term vagal stimulation in patients without concomitant lung disease does not induce any significant changes in FEV1. However, in patients with obstructive lung disease, intense vagal stimulation can cause a deterioration of lung function. To our knowledge, this may be the first observation of the involvement of bronchoconstrictive vagal nerves in man.