Adnan Madzak scite author profile

Key Points• The aim was to explore the effect of combined electrical and physiological modulation of vagal tone on musculoskeletal pain thresholds and gastroduodenal motility.• Eighteen healthy subjects were included in a subject-blinded, sham-controlled, cross-over study with an active protocol including transcutaneous electrical vagal nerve stimulation and deep slow breathing.• 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.• Cardiac vagal tone, thresholds to bone pain, frequency of antral contractions, and gastroduodenal motility index all increased during active treatment compared to sham.• The presented 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. AbstractBackground 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

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Established and emerging methods for assessment of small and large intestinal motility

Grønlund

Poulsen

Sandberg

et al. 2017

Neurogastroenterology Motil

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Acute physiological and electrical accentuation of vagal tone has no effect on pain or gastrointestinal motility in chronic pancreatitis

Juel¹,

Brock²,

Olesen³

et al. 2017

JPR

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BackgroundThe effective management of pain in chronic pancreatitis (CP) remains a therapeutic challenge. Analgesic drugs, such as opioids, and the underlying pathology can impair gut function. The autonomic nervous system influences hormone secretion and gut motility. In healthy volunteers, electrical (using noninvasive transcutaneous vagal nerve stimulation [t-VNS]) and physiological (using deep slow breathing [DSB]) modulation of parasympathetic tone results in pain attenuation and enhanced gut motility. Thus, the aims were to investigate whether t-VNS and DSB could enhance the parasympathetic tone, decrease pain sensitivity and improve gut motility in CP.Patients and methodsA total of 20 patients (12 males, mean age=61 years, range: 50–78 years) with CP were randomized to short-term (60 minutes) t-VNS and DSB, or their placebo equivalent, in a crossover design. Cardiometrically derived parameters of autonomic tone, quantitative sensory testing of bone and muscle pain pressure, conditioned pain modulation (CPM) and assessments of gastroduodenal motility with ultrasound were performed.ResultsIn comparison to sham, t-VNS and DSB increased cardiac vagal tone (CVT) (P<0.001). However, no changes in pain pressure thresholds for bone (P=0.95) or muscle (P=0.45) were seen. There was diminished CPM (P=0.04), and no changes in gastroduodenal motility were observed (P=0.3).ConclusionThis explorative study demonstrated that t-VNS and DSB increased CVT in patients with CP. However, this short-lasting increase did not affect pain sensitivity to musculoskeletal pain or gastroduodenal motility. The chronic pain in CP patients is complex, and future trials optimizing neuromodulation for pain relief and improved motility are needed.

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Adnan Madzak

Modulation of vagal tone enhances gastroduodenal motility and reduces somatic pain sensitivity

Established and emerging methods for assessment of small and large intestinal motility

Acute physiological and electrical accentuation of vagal tone has no effect on pain or gastrointestinal motility in chronic pancreatitis

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