Non-invasive Vagal Nerve Stimulation Effects on Hyperarousal and Autonomic State in Patients with Posttraumatic Stress Disorder and History of Mild Traumatic Brain Injury: Preliminary Evidence.

Kristen Sparrow • November 18, 2018

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This study looks at TAVNS, transcutaneous auricular vagal nerve stimulation, and its effect on startle and autonomic challenge with tilt test. In this single visit study, the group

“We hypothesized that vagal tone would increase and that emotionally modulated sympathetic nervous system activity would attenuate in response to tVNS.”
Their result
“The stimulation was well tolerated and resulted in improvements in vagal tone and moderation of autonomic response to startle, consistent with modulation of autonomic state and response to stress in this population.”
Of note is that they used ear stimulation fairly similar to mine.  “a 20 Hz, current controlled, 100 μS, alternating polarity pulse delivered via an earpiece custom molded for each participant’s left ear with an Ag/AgCl disk electrode held at the interface of the poster wall of the left external auditory meatus and the posterior face of the left tragus, a convenient location to access the auricular branch of the vagus nerve ().   I use 25 Hz, 300µ, in the cymba concha region.  They ground their stim in front of the tragus.  I use the anterior neck.  They use a tilt test as a challenge.  I use needling and/or application of the stim itself.
Full Text here.
2017 Jul 31;4:124. doi: 10.3389/fmed.2017.00124. eCollection 2017.

Non-invasive Vagal Nerve Stimulation Effects on Hyperarousal and Autonomic State in Patients with Posttraumatic Stress Disorder and History of Mild Traumatic Brain Injury: Preliminary Evidence.

Lamb DG1,2,3,4, Porges EC2,4, Lewis GF5,6,7, Williamson JB1,2,3,4.

Abstract

Posttraumatic stress disorder (PTSD) is a reaction to trauma that results in a chronic perception of threat, precipitating mobilization of the autonomic nervous system, and may be reflected by chronic disinhibition of limbic structures. A common injury preceding PTSD in veterans is mild traumatic brain injury (mTBI). This may be due to the vulnerability of white matter in these networks and such damage may affect treatment response. We evaluated transcutaneous vagal nerve stimulation (tVNS), a non-invasive, low-risk approach that may alter the functions of the limbo-cortical and peripheral networks underlying the hyperarousal component of PTSD and thus improve patient health and well-being. In this single visit pilot study evaluating the impact of tVNS in 22 combat veterans, we used a between-subjects design in people with either PTSD with preceding mTBI or healthy controls. Participants were randomized into stimulation or sham groups and completed a posturally modulated autonomic assessment and emotionally modulated startle paradigm. The primary measures used were respiratory sinus arrhythmia (high-frequency heart rate variability) during a tilt-table procedure derived from an electrocardiogram, and skin conductance changes in response to acoustic startle while viewing emotional images (International Affective Picture System). The stimulation was well tolerated and resulted in improvements in vagal tone and moderation of autonomic response to startle, consistent with modulation of autonomic state and response to stress in this population. Our results suggest that tVNS affects systems underlying emotional dysregulation in this population and, therefore, should be further evaluated and developed as a potential treatment tool for these patients.

KEYWORDS:

autonomic; hyperarousal; posttraumatic stress disorder; sympathetic; transcutaneous; transcutaneous vagal nerve stimulation; traumatic brain injury; vagal