This study will examine the feasibility and acceptability of using virtual reality (VR) meditation to manage fatigue in outpatients with rheumatoid arthritis (RA). The specific aims of this feasibility study include: 1) examining the feasibility of implementing VR meditation as an adjunct for managing fatigue in outpatients with rheumatoid arthritis; 2) determine the acceptability of using VR-delivered meditation training for fatigue management in outpatients with rheumatoid arthritis; and 3) is to explore outpatient's experience of using VR-delivered meditation to manage fatigue.
RA is a debilitating disease that affects over 1.3 million people in the U.S. While recent advances in medicine have enhanced management of the disease, a staggeringly large portion of outpatients with RA still suffer from fatigue. A profound, unrelenting exhaustion affecting energy, motivation, and concentration, fatigue often develops over time without an inciting event. Fatigue includes complex interactions between physiological, psychological, and behavioral processes, making it not only insidious, but difficult to treat. Being multifaceted, fatigue impacts depression, mood, and physical activity, and can be exacerbated by pain, and current treatment options target each of these correlates of fatigue. Meditation has been extensively and effectively utilized in RA and other rheumatic diseases, yet, to date, VR meditation has yet to be deployed in this population. This feasibility study will employ a mixed-methods design. Thirty adult outpatients with clinically-diagnosed rheumatoid arthritis will be enrolled from a local rheumatology clinic and utilize VR in their own home. Donning an Oculus Quest VR headset and using two handheld controllers, patients will have the opportunity to choose from several virtual outdoor settings, three types of meditation, and three session lengths. PROMIS measures of fatigue, depression, mood, pain, and physical activity will be collected at baseline and weekly intervals for the first 4 weeks, after which, an eight-week follow-up measure will be taken. Semi-structured patient interviews will be used to capture patient's experience of RA, fatigue, as well as experience of the virtual environment. This feasibility study's results will address the acceptability, desirability, implementation, practicality, adaptation, integration, expansion, and "limited" efficacy testing of utilizing VR meditation for managing fatigue in outpatients with RA.
Study Type
INTERVENTIONAL
Allocation
After donning the VR headset, participants will be able to use a handheld controller to choose from several virtual outdoor settings, three types of meditation, and three session lengths. After choosing their desired option, participants will experience virtual reality meditation in the desired virtual location, of the desired meditation type, and for the allotted duration chosen.
Rheumatology Clinic at UW Medical Center - Roosevelt
Seattle, Washington, United States
Feasibility of Using Virtual Reality Meditation
Completion percentage of quantitative questionnaires and an analysis of fidelity will provide insight into the feasibility of using virtual reality meditation for rheumatoid-arthritis related fatigue.
Time frame: 4 weeks
Acceptability of Using Virtual Reality Meditation
Qualitative interviews, paired with quantitative questionnaires, will inform the acceptability of both study procedures and measures of fatigue, anxiety, depression, pain behavior, physical functioning, and mood for use in outpatients with rheumatoid-arthritis.
Time frame: 4 weeks
Experience of Using Virtual Reality Meditation
Qualitative interviews will aid exploration of participant's experience of using virtual reality meditation for rheumatoid-arthritis related fatigue.
Time frame: 4 weeks
Patient-Reported Outcomes Measurement Information System (PROMIS) Bank v1.0 - Fatigue
Scores Range: 0-100; Uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population. On the T-score metric, a score of 40 is one SD lower than the mean of the reference population and a score of 60 is one SD higher than the mean of the reference population. PROMIS measures are scored on the T-score metric. High scores mean more of the concept being measured. PROMIS measures for fatigue will be deployed using a computer-adaptive test (CAT) that will be emailed to participants. More information from: https://www.healthmeasures.net/score-and-interpret/interpret-scores/promis
Time frame: 4 weeks
Patient-Reported Outcomes Measurement Information System (PROMIS) Bank v1.0 - Depression
Scores Range: 0-100; Uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population. On the T-score metric, a score of 40 is one SD lower than the mean of the reference population and a score of 60 is one SD higher than the mean of the reference population. PROMIS measures are scored on the T-score metric. High scores mean more of the concept being measured. PROMIS measures for fatigue will be deployed using a computer-adaptive test (CAT) that will be emailed to participants. More information from: https://www.healthmeasures.net/score-and-interpret/interpret-scores/promis
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NA
Purpose
OTHER
Masking
NONE
Enrollment
16
Time frame: 4 weeks
Patient-Reported Outcomes Measurement Information System (PROMIS) Bank v1.0 - Anxiety
Scores Range: 0-100; Uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population. On the T-score metric, a score of 40 is one SD lower than the mean of the reference population and a score of 60 is one SD higher than the mean of the reference population. PROMIS measures are scored on the T-score metric. High scores mean more of the concept being measured. PROMIS measures for fatigue will be deployed using a computer-adaptive test (CAT) that will be emailed to participants. More information from: https://www.healthmeasures.net/score-and-interpret/interpret-scores/promis
Time frame: 4 weeks
Patient-Reported Outcomes Measurement Information System (PROMIS) Bank v1.0 - Pain Behavior
Scores Range: 0-100; Uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population. On the T-score metric, a score of 40 is one SD lower than the mean of the reference population and a score of 60 is one SD higher than the mean of the reference population. PROMIS measures are scored on the T-score metric. High scores mean more of the concept being measured. PROMIS measures for fatigue will be deployed using a computer-adaptive test (CAT) that will be emailed to participants. More information from: https://www.healthmeasures.net/score-and-interpret/interpret-scores/promis
Time frame: 4 weeks
Patient-Reported Outcomes Measurement Information System (PROMIS) Bank v1.2 - Physical Function
Scores Range: 0-100; Uses a T-score metric in which 50 is the mean of a relevant reference population and 10 is the standard deviation (SD) of that population. On the T-score metric, a score of 40 is one SD lower than the mean of the reference population and a score of 60 is one SD higher than the mean of the reference population. PROMIS measures are scored on the T-score metric. High scores mean more of the concept being measured. PROMIS measures for fatigue will be deployed using a computer-adaptive test (CAT) that will be emailed to participants. More information from: https://www.healthmeasures.net/score-and-interpret/interpret-scores/promis
Time frame: 4 weeks
Brief Mood Introspection Scale (BMIS) Scored
The BMIS will be deployed using a computer-adaptive test (CAT) that will be emailed to participants.
Time frame: 4 weeks