Non-invasive Vagal Nerve Stimulation in Opioid Use Disorders UH3

Purpose

This study is being done to answer the question: what is the effect of Vagal Nerve Stimulation (VNS) dosing on opioid withdrawal responses in individuals with a history of Opioid Use Disorders (OUDs)? Eligible participants will be in the study for one week in an inpatient research hospital stay, have an MRI scan, and have a follow-up call 1-3 months after their inpatient stay. Participants will complete several psychiatric questionnaires/interviews, physiological monitoring with several devices, brain imaging, and VNS testing.

Conditions

  • Withdrawal Symptoms
  • Opioid Use Disorder
  • Opioid Use

Eligibility

Eligible Ages
Between 18 Years and 75 Years
Eligible Sex
All
Accepts Healthy Volunteers
No

Inclusion Criteria

  • Meet criteria for OUDs based on the DSM5 criteria - Willing to undergo supervised withdrawal - Willing to be transitioned to a MOUD or behavioral management during treatment aftercare

Exclusion Criteria

  • Positive pregnancy test or breastfeeding for women - History of meningitis - Traumatic brain injury - Current treatment with methadone, naltrexone, or Suboxone or medications that would be contraindicated with hydromorphone or clonidine administration - History of head trauma resulting in loss of consciousness (LOC) of greater than one minute where the LOC is not judged to be primarily related to overdose in the judgment of the study physician - Past year moderate to severe non-opioid use disorders that would require separate withdrawal management - Current or lifetime history of schizophrenia, schizoaffective disorder, or bulimia - History of serious medical or neurological illness or organic mental disorder, including liver disease, but also including cardiovascular, gastrointestinal, hepatic, renal, neurologic, or other systemic illness, including liver enzymes aspartate transaminase (AST) and alanine transaminase (ALT) more than three times upper limit of normal, that would preclude involvement based on the clinical judgment of the study psychiatrist - Lack of venous access that would preclude PET imaging - Active implantable device (i.e. pacemaker) or other VNS device exclusion - History of shrapnel or other foreign bodies that would preclude MRI scanning - Positive test for COVID-19

Study Design

Phase
Phase 3
Study Type
Interventional
Allocation
Randomized
Intervention Model
Parallel Assignment
Primary Purpose
Treatment
Masking
Quadruple (Participant, Care Provider, Investigator, Outcomes Assessor)

Arm Groups

ArmDescriptionAssigned Intervention
Experimental
Transcutaneous Cervical Vagal Nerve Stimulation Device 		Stimulation with the tcVNS
  • Device: Transcutaneous Cervical Vagal Nerve Stimulation
    Participants will receive stimulation of the vagus nerve with the non-invasive transcutaneous cervical Vagal Nerve Stimulation (tcVNS), which does not require surgery or implantation, and electrically stimulates the vagus nerve as it passes through the neck, dampening the sympathetic nervous system and modulating brain regions to a single side of the neck with the GammaCore device. Participants will be trained on self-stimulation and from days 1-7 patients undergo four times daily self-stimulation with tcVNS first for two minutes on one side, followed by a one-minute pause, then two minutes on the same side. The intensity of the stimulus (i.e. the current amplitude) will be adjusted by the user, to the maximum tolerable level without causing excessive pain [typically 10-30 V and 60milliamperes (mA) (peak)], with an alternating current (AC) signal consisting of five 5 kilohertz (kHz) pulses 200 microseconds in duration, repeating at a rate of 25 Hz (about once every 40 milliseconds).
    Other names:
    • tcVNS
  • Drug: [F-18]Fallypride
    [F-18]Fallypride is a radioactive material. Each patient will have two [F-18]Fallypride PET scans. For each scan [F-18]Fallypride will be injected as an intravenous bolus. The radiation dose to body organs in this study is well within the Food and Drug Administration (FDA) national guidelines for radiation exposure for human research studies and less than the total amount that is permitted for research studies in one year.
    Other names:
    • Radiolabeled material
Sham Comparator
Sham Stimulation Device 		Stimulation with the sham device.
  • Device: Sham Stimulation
    Participants will have the same procedures as with the tcVNS but will instead receive a device that appears identical to the active tcVNS device in look, weight, visual and audible feedback, and also in user controls. The Sham device looks and sounds like an active device but does not deliver an electric current.
    Other names:
    • Sham stimulation of vagus nerve
  • Drug: [F-18]Fallypride
    [F-18]Fallypride is a radioactive material. Each patient will have two [F-18]Fallypride PET scans. For each scan [F-18]Fallypride will be injected as an intravenous bolus. The radiation dose to body organs in this study is well within the Food and Drug Administration (FDA) national guidelines for radiation exposure for human research studies and less than the total amount that is permitted for research studies in one year.
    Other names:
    • Radiolabeled material

Recruiting Locations

Emory University Clinical Research Network
Atlanta 4180439, Georgia 4197000 30322

Rollins School of Public Health
Atlanta 4180439, Georgia 4197000 30322

12 Executive Park Drive
Atlanta 4180439, Georgia 4197000 30329

Emory Univeristy
Atlanta 4180439, Georgia 4197000 30329

Georgia Institute of Technology
Atlanta 4180439, Georgia 4197000 30332

More Details

Status
Recruiting
Sponsor
Emory University

Study Contact

James D Bremner, MD
404-712-9569
jdbremn@emory.edu

Detailed Description

The purpose of this study is to look at Opioid Use Disorders (OUDs) and Vagal Nerve Stimulation (VNS). OUDs are conditions involving misuse or addiction to opiate-containing prescription pain medications or opioid-containing substances including heroin. OUDs are associated with symptoms of withdrawal upon discontinuation of the substance, which can include problems with concentration and sleep, irritability, rapid heart rate, and craving for opioids. Vagal Nerve Stimulation (VNS) is a procedure where the vagus nerve, which is in the neck, is electrically stimulated, much like a pacemaker is used to stimulate the heart. Branches of the vagus nerve travel throughout the brain and the body. Vagal nerve stimulation is felt to have positive effects on the brain and body by blocking the sympathetic (adrenaline) response that occurs with withdrawal from opioids, as well as changes in the brain that drive a craving for opioids. A surgically implantable VNS has been approved by the Food and Drug Administration (FDA) for the treatment of both epilepsy and severe depression. Studies have shown that VNS stimulation is helpful for both conditions. Researchers are using a non-invasive hand-held VNS device made by a company called ElectroCore. It is applied directly to the neck and does not require surgery. It is approved in Europe for the treatment of epilepsy, anxiety, depression, headaches, and other conditions, and in the US by the FDA for the treatment of headaches. Investigators have studied its use at Emory for PTSD and have found it to be well tolerated and there have been no adverse events or untoward effects with the device. The research team conducted two initial studies in patients with OUDs and found that it was safe and that it reduced opioid craving and withdrawal as well as blocking the sympathetic (adrenaline) response to withdrawal. It has not yet been approved in the US by the FDA for the treatment of OUDs and is considered investigational in this study. This study will enroll individuals that have been diagnosed with Opioid Use Disorder (OUD). The main purpose of this study is to look at the effects of VNS on behavior as well as the body and brain's responses to craving in patients with OUDs. Study procedures include a screening, mental health assessment, medical assessment, lab work, brain imaging (MRI and PET), and a follow-up call. It is possible that participants may not have brain imaging (MRI and PET) during the study. The study will be completed in around a week depending on the scheduling of the MRI visit. This might be completed during the inpatient stay or could be a separate visit. The research team will also plan to call and follow up with participants 1-3 months after the inpatient stay.