Vagus Nerve Stimulation Amplifies Task-Induced Cerebral Blood Flow Increase

• Main Authors: Kawai, K. (Author), Koizumi, T. (Author), Kunii, N. (Author), Saito, N. (Author), Shimada, S. (Author)
• Format: Article
• Language: English
• Published: Frontiers Media S.A. 2021
• Subjects: adult; analysis; Article; brain blood flow; cerebral blood flow; clinical article; clinical trial; cognition; drug resistant epilepsy; epilepsy; female; frontal cortex; hemoglobin signal analysis; human; male; near infrared spectroscopy; near-infrared spectroscopy; rehabilitation; resting state network; task performance; vagus nerve stimulation; verbal fluency task
• Online Access: View Fulltext in Publisher

 Background: Vagus nerve stimulation (VNS) is an established palliative surgical treatment for refractory epilepsy. Recently, pairing VNS with rehabilitation received growing attention for their joint effect on neural plasticity. However, objective biological measurements proving the interaction between VNS effects and cortical recruitment are lacking. Studies reported that VNS induced little blood flow increase in the cerebral cortex. Objective: This study tested the hypothesis that pairing VNS with a cognitive task amplifies task-induced cerebral blood flow (CBF). Methods: This study included 21 patients implanted with vagus nerve stimulator to treat refractory epilepsy. Near-infrared spectroscopy (NIRS) with sensors on the forehead measured CBF changes in the frontal cortices in response to VNS. Cerebral blood flow was measured when VNS was delivered during a resting state or a verbal fluency task. We analyzed the VNS effect on CBF in relation to stimulation intensity and clinical responsiveness. Results: We observed no CBF change when VNS was delivered during rest, irrespective of stimulation intensity or responsiveness. Cerebral blood flow changed significantly when a verbal fluency task was paired with VNS in a stimulation intensity-dependent manner. Cerebral blood flow changes in the non-responders showed no intensity-dependency. Conclusion: Our results could be an important biological proof of the interaction between VNS effects and cortical recruitment, supporting the validity of pairing VNS with rehabilitation. © Copyright © 2021 Kunii, Koizumi, Kawai, Shimada and Saito.