Neural Mechanisms of Immersive Virtual Reality in Chronic Pain (VR TMD EEG)
Purpose
This project examines, in chronic pain, the mechanisms of immersive virtual reality compared to the mechanisms of placebo hypoalgesia. The potential of developing new non-pharmacological premises for low-risk interventions for pain management is high.
Conditions
- Pain
- Virtual Reality
- Placebo
- Temporomandibular Disorder
Eligibility
- Eligible Ages
- Between 18 Years and 88 Years
- Eligible Sex
- All
- Accepts Healthy Volunteers
- No
Inclusion Criteria
- Age (18-88 years) - English speaker (written and spoken) - Temporal Mandibular Disorder (TMD) for at least 3 months - TMD Grade Chronic Pain Scale (GCPS) ≥ 0
Exclusion Criteria
- Present or past degenerative neuromuscular disease - Cardiovascular, neurological diseases, pulmonary abnormalities, kidney disease, liver disease, history of cancer within past 3 years - Cervical pain (e.g. stenosis, radiculopathy) - Any personal (or family first degree) history of mania, schizophrenia, or other psychoses - Severe psychiatric condition (e.g. schizophrenia, bipolar disorders, autism) leading to hospitalization within the last 3 years. - Use of Antipsychotics (e.g., Risperdal, Ability and clozaril)Lifetime alcohol/drug dependence or alcohol/drug abuse in past 3 months - Pregnancy or breast feeding - Color-blindness - Impaired or uncorrected hearing - Non-dominant hand - Any facial trauma that has occurred in the last 6 weeks - History of a severe facial trauma in the last 2-3 months - Conditions that would interfere with the VR mask placement (e.g. trauma, burn, infection) - Known history of severe motion sickness - Non-removable head cover, artificial hair, certain types of braids or dreadlocks - History of fainting - History of angioedema - Failed drug test (testing for opiates, cocaine, methamphetamines, and amphetamines)
Study Design
- Phase
- N/A
- Study Type
- Interventional
- Allocation
- Randomized
- Intervention Model
- Crossover Assignment
- Intervention Model Description
- This is a 2 (high- vs. low-impact pain) by 3 (3-week Active VR vs. 3-week Sham VR vs. 3-week NH) conditions mixed experimental design. TMD participants will be clinically phenotype into high-impact or low-impact pain groups according to Graded Chronic Pain Scale (GCPS). All participants will go through Active VR, Sham VR and NH phases (3-week each). There will be 4 in-person visits where participants will be monitored for changes in cortical excitability via PAF oscillations and clinical benefit via Ecological Momentary Assessments (EMA) during the 3-week conditions. Crossover Study Model was chosen because each participant will receive VR, Sham-VR, and No-VR in random order
- Primary Purpose
- Basic Science
- Masking
- Single (Participant)
- Masking Description
- Participants will be blinded to the VR and Sham-VR conditions
Arm Groups
| Arm | Description | Assigned Intervention |
|---|---|---|
|
Other High impact TMD |
Other: TMD Phenotype TMD participants will be clinically phenotyped into two between-subject groups based on their score on the Graded Chronic Pain Scale (GCPS). This group will have a GCPS grade 2b, 3, and 4. |
|
|
Other Low impact TMD |
Other: TMD Phenotype TMD participants will be clinically phenotyped into two between-subject groups based on their score on the Graded Chronic Pain Scale (GCPS). This group will have a GCPS grade 0, 1, and 2a |
|
Recruiting Locations
Baltimore, Maryland 21201-1512
Baltimore, Maryland 21201-1512
More Details
- Status
- Recruiting
- Sponsor
- University of Maryland, Baltimore
Detailed Description
Virtual reality (VR) has been seen as an intervention for alleviating clinical chronic (and acute) pain. An approach to pain management utilizing VR presents opportunities for reducing pain and suffering by using immersive, aesthetic, and multisensory stimulation. Investigator will analyze the behavioral and neural mechanisms of active VR against sham VR as two methods that investigate descending pain modulation. Thus, the central hypothesis is that those who respond to placebos will likely respond to active VR. If VR-induced analgesia depends upon the release of endogenous opioids. In this project, the investigators will determine the effects of VR at the neural and clinical levels directly for TMD participants, inviting participants from an existing Colloca Lab-based cohort phenotyped for diagnosis, grade, and low/high impact pain profiles and prospective TMD participants in collaboration with Johns Hopkins University. These participants have agreed to be recontacted for further research. In this study, based on our PAF study and modulation of autonomic measurements via VR, we will determine the role of acute and 3-week VR intervention to help restore PAF oscillations to normal. PAF and autonomic measurements will be collected in TMD participants characterized by low/high-impact pain. All participants will go through Active VR, Sham VR and NH phases (3-week each) where participants will be monitored for changes in cortical excitability via PAF oscillations and clinical benefit via EMA.