J B Frøkjaer1,2, S Bergmann1,2, C Brock3,4, A Madzak1, A D Farmer3,5,6, J Ellrich7, A M Drewes2,3. 1. Mech-Sense, Department of Radiology, Aalborg University Hospital, Aalborg, Denmark. 2. Department of Clinical Medicine, Aalborg University, Aalborg, Denmark. 3. Mech-Sense, Department of Gastroenterology & Hepatology, Aalborg University Hospital, Aalborg, Denmark. 4. Department of Drug Design and Pharmacology, University of Copenhagen, Copenhagen, Denmark. 5. Department of Gastroenterology, University Hospitals of North Midlands, Stoke on Trent, UK. 6. Centre for Digestive Diseases, Blizard Institute, Wingate Institute of Neurogastroenterology, Barts and the London School of Medicine & Dentistry, Queen Mary University of London, London, UK. 7. Department of Health Science and Technology, Aalborg University, Aalborg, Denmark.
Abstract
BACKGROUND: The parasympathetic nervous system, whose main neural substrate is the vagus nerve, exerts a fundamental antinociceptive role and influences gastrointestinal sensori-motor function. Our research question was to whether combined electrical and physiological modulation of vagal tone, using transcutaneous electrical vagal nerve stimulation (t-VNS) and deep slow breathing (DSB) respectively, could increase musculoskeletal pain thresholds and enhance gastroduodenal motility in healthy subjects. METHODS:Eighteen healthy subjects were randomized to a subject-blinded, sham-controlled, cross-over study with an active protocol including stimulation of auricular branch of the vagus nerve, and breathing at full inspiratory capacity and forced full expiration. Recording of cardiac derived parameters including cardiac vagal tone, moderate pain thresholds to muscle, and bone pressure algometry, conditioned pain modulation using a cold pressor test and a liquid meal ultrasonographic gastroduodenal motility test were performed. KEY RESULTS:Cardiac vagal tone increased during active treatment with t-VNS and DSB compared to sham (p = 0.009). In comparison to sham, thresholds to bone pain increased (p = 0.001), frequency of antral contractions increased (p = 0.004) and gastroduodenal motility index increased (p = 0.016) with active treatment. However, no effect on muscle pain thresholds and conditioned pain modulation was seen. CONCLUSIONS & INFERENCES: This experimental study suggests that this noninvasive approach with combined electrical and physiological modulation of vagal tone enhances gastroduodenal motility and reduces somatic pain sensitivity. These findings warrant further investigation in patients with disorders characterized with chronic pain and gastrointestinal dysmotility such as functional dyspepsia and irritable bowel syndrome.
RCT Entities:
BACKGROUND: The parasympathetic nervous system, whose main neural substrate is the vagus nerve, exerts a fundamental antinociceptive role and influences gastrointestinal sensori-motor function. Our research question was to whether combined electrical and physiological modulation of vagal tone, using transcutaneous electrical vagal nerve stimulation (t-VNS) and deep slow breathing (DSB) respectively, could increase musculoskeletal pain thresholds and enhance gastroduodenal motility in healthy subjects. METHODS: Eighteen healthy subjects were randomized to a subject-blinded, sham-controlled, cross-over study with an active protocol including stimulation of auricular branch of the vagus nerve, and breathing at full inspiratory capacity and forced full expiration. Recording of cardiac derived parameters including cardiac vagal tone, moderate pain thresholds to muscle, and bone pressure algometry, conditioned pain modulation using a cold pressor test and a liquid meal ultrasonographic gastroduodenal motility test were performed. KEY RESULTS: Cardiac vagal tone increased during active treatment with t-VNS and DSB compared to sham (p = 0.009). In comparison to sham, thresholds to bone pain increased (p = 0.001), frequency of antral contractions increased (p = 0.004) and gastroduodenal motility index increased (p = 0.016) with active treatment. However, no effect on muscle pain thresholds and conditioned pain modulation was seen. CONCLUSIONS & INFERENCES: This experimental study suggests that this noninvasive approach with combined electrical and physiological modulation of vagal tone enhances gastroduodenal motility and reduces somatic pain sensitivity. These findings warrant further investigation in patients with disorders characterized with chronic pain and gastrointestinal dysmotility such as functional dyspepsia and irritable bowel syndrome.
Authors: James K Ruffle; Steven J Coen; Vincent Giampietro; Steven C R Williams; A Vania Apkarian; Adam D Farmer; Qasim Aziz Journal: Hum Brain Mapp Date: 2017-10-28 Impact factor: 5.038
Authors: Kun-Han Lu; Jiayue Cao; Robert Phillips; Terry L Powley; Zhongming Liu Journal: Neurogastroenterol Motil Date: 2020-04-15 Impact factor: 3.598
Authors: C Brock; S E Rasmussen; A M Drewes; H J Møller; B Brock; B Deleuran; A D Farmer; M Pfeiffer-Jensen Journal: Mediators Inflamm Date: 2021-05-27 Impact factor: 4.711