VR-PMR for Post-Burn Symptoms
Purpose
The goal of this clinical trial is to learn whether progressive muscle relaxation (PMR), delivered either alone or enhanced with virtual reality (VR), can help treat chronic symptom, such as pain, itch, anxiety, sleep disturbances, and fatigue, in adult burn survivors. The main questions it aims to answer are: - Does VR-enhanced PMR (VR-PMR) reduce chronic pain, anxiety, itch, sleep disturbances, and fatigue more effectively than standard PMR? - Is VR-PMR a feasible and acceptable self-administered home-based intervention for burn survivors? Researchers will compare two self-administered intervention conditions, VR-enhanced PMR and standard PMR, using a randomized to sequence crossover design to see if VR technology enhances the therapeutic effects of PMR on chronic symptom management in burn survivors. Participants will: - Complete home-based sessions of VR-enhanced PMR - Complete home-based sessions of standard PMR - Report symptoms such as pain, itch, anxiety, sleep disturbances, and fatigue throughout the study - Use VR equipment provided for the intervention period (during the VR-PMR arm)
Conditions
- Burn
- Chronic Pain Following Thermal Burn Injury
- Non-Pharmacological Interventions
- Virtual Reality
- Sleep Disturbance
- Anxiety
- Depressive Symptoms
- Fatigue Symptom
- Pruritus
- Burn Injury
- Progressive Muscle Relaxation
Eligibility
- Eligible Ages
- Over 18 Years
- Eligible Sex
- All
- Accepts Healthy Volunteers
- No
Inclusion Criteria
are: - ≥18 years old; - sustained a burn injury in the last 6 months or longer; - Score high on at least one of the following: Insomnia severity index (ISI) score of ≥8, Brief Pain Inventory Short Form (BPI-SF) Pain severity score of ≥3, or PROMIS Itch Severity of ≥55; - own a smartphone or computer with reliable internet connection for online visits and survey completion; - able to comfortably wear goggles or headsets on face as determined by self-report.
Exclusion Criteria
- Cognitive impairment (Mini Mental Status Exam (MMSE) < 25); - history of motion sickness, photosensitivity, photoinduced seizures, and claustrophobia as determined by self-report; - uncorrected visual or hearing impairments as determined by self-report; - non-English speaker.
Study Design
- Phase
- N/A
- Study Type
- Interventional
- Allocation
- Randomized
- Intervention Model
- Crossover Assignment
- Intervention Model Description
- This study uses a randomized, two-period, two-treatment crossover interventional model to compare the effects of standard PMR with VR-enhanced PMR (VR-PMR). Each participant receives both interventions in a randomized sequence, allowing each individual to serve as the individual's own control. This design improves statistical power with a relatively small sample and minimizes confounding from inter-individual differences such as burn severity, baseline symptom levels, and psychosocial characteristics.
- Primary Purpose
- Treatment
- Masking
- None (Open Label)
Arm Groups
| Arm | Description | Assigned Intervention |
|---|---|---|
|
Experimental VR-PMR |
|
|
|
Active Comparator PMR |
|
Recruiting Locations
More Details
- Status
- Recruiting
- Sponsor
- Johns Hopkins University
Detailed Description
Serious burn injuries are a devastating form of trauma, often resulting in long-term physical and psychological challenges. Burn survivors experience a host of burdensome and co-occurring chronic symptoms post-burn injury that affect quality of life and recovery. Among the most prevalent are pain, pruritis (itch), anxiety, sleep disturbances, and fatigue. Despite a decrease in intensity over time, these symptoms often persist well-beyond the initial burn injury and negatively impact recovery, activities of daily living, social participation, and quality of life. Research indicates that these symptoms often co-occur and demonstrate bidirectional relationships. For instance, pain and itch can contribute to sleep disturbances, while anxiety and fatigue can worsen overall itch and pain perception. A reciprocal relationship between sleep and pain after burn injuries has been demonstrated in a number of studies suggesting that pain contributes to poor sleep, and that disruptions in sleep are associated with increased pain and increased use of analgesics. Pharmacologic interventions for these symptoms, such as the use of opioids or sedatives, can have adverse effects, including dependence, side effects, and inadequate long-term relief. Given the limitations of pharmacologic interventions, non-pharmacologic therapies, such as cognitive-behavioral therapy (CBT), mindfulness, and relaxation techniques, have gained recognition as effective strategies for symptom management in this population. However, CBT, often regarded as the gold standard intervention for improving sleep and pain, has its own barriers, including the need for trained professionals, high costs, and challenges related to patient adherence. These barriers underscore the need for cost-effective, accessible, and effective self-administered approaches that can be easily integrated into everyday life of burn survivors. Progressive muscle relaxation (PMR) is a well-established mind-body relaxation technique that has been shown to reduce stress, anxiety, pain, and itch, and improve sleep by systematically tensing and relaxing different muscle groups. Recent advancements in virtual reality (VR) technology present an opportunity to enhance the delivery of PMR by creating immersive environments that promote relaxation and improve therapeutic outcomes. VR has previously been used to enhance existing therapies to help improve engagement and therapeutic by providing an immersive environment that complements the therapy. It has been shown to provide pain relief and reduce anxiety in various clinical settings and populations, such as burn care, procedural pain, and chronic pain management. VR is hypothesized to facilitate a more realistic and relaxing sensory experience and has the potential to amplify the effects of PMR by providing additional relaxing auditory and visual stimuli. This study would leverage novel VR technology to enhance a well-established mind-body intervention, PMR, to support symptom management in a burn population. While the combination of VR and PMR has been explored in a variety of pain populations, its effect on chronic pain, anxiety, itch, sleep, and fatigue have yet to be explored in a burn population. Therefore, this proposed study seeks to evaluate the use of a novel self-administered VR-enhanced PMR (VR-PMR) therapy delivered at-home for symptom management in burn survivors. The aims for this study are as follows: Aim 1. Determine the feasibility of an at-home, self-administered VR-enhanced PMR (VR-PMR) and PMR intervention in burn survivors. Aim 1a. Recruitment, enrollment, retention rates, and intervention adherence of participants will be recorded and used to help determine feasibility of the VR-PMR intervention. Aim 1b. Usability of VR-PMR intervention will be measured with surveys and open-ended prompts for additional qualitative feedback. Aim 2. Evaluate the preliminary efficacy of VR-PMR and standard PMR interventions on symptom outcomes, including pain severity, itch severity, anxiety, sleep quality, and fatigue, using a within-subject crossover design. Aim 2a. Compare changes in symptom outcomes across both intervention phases to identify any differential effects. Aim 2b. Assess the presence of any carryover effects between intervention phases and the potential impact on outcome measures.
