Not provided
| ID | Type | Description | Link |
|---|---|---|---|
| K23HD111628 | U.S. NIH Grant/Contract | View source |
Not provided
Not provided
Not provided
Not provided
Not provided
Not provided
Not provided
Not provided
Not provided
Not provided
Not provided
| Name | Class |
|---|---|
| Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD) | NIH |
Not provided
Not provided
Not provided
Not provided
This randomized controlled factorial trial will examine whether and how relaxation training, behavioral activation, and cognitive therapy improve fatigue and functioning in fatigued adults living with multiple sclerosis.
Fatigue affects 80% of people with multiple sclerosis (PwMS), and nearly half report fatigue as their most disabling symptom. The cognitive behavioral model of MS fatigue theorizes that MS disease factors trigger fatigue, but fatigue is maintained or worsened by factors like daily stress and how PwMS react cognitively, behaviorally, physiologically, and emotionally to fatigue. In-person and telehealth cognitive behavioral therapy (CBT) for fatigue targets these factors and reactions and is one of the most effective treatments for MS fatigue. However, CBT is resource intensive, as it consists of multiple components (i.e., relaxation training, behavioral activation, cognitive therapy), requiring 8-16 hour-long sessions delivered by a specialized clinician. CBT has yet to be assessed via an integrated translational model that considers all stages, from intervention development to implementation. Thus, the active components of CBT for MS fatigue and their mechanisms are unclear and, despite the significant burden of MS fatigue, CBT for fatigue is not widely accessible due to various implementation barriers.
This optimization randomized controlled trial is the second aim of a research project using the Multiphase Optimization Strategy to optimize CBT for MS fatigue (1K23HD111628, Knowles, PI). This trial employs a balanced factorial design to test the main and interactive effects of the three telehealth CBT components: Relaxation Training, Behavioral Activation, and Cognitive Therapy. In this trial, each CBT component corresponds to an experimental factor that is being manipulated to obtain information about the CBT component. Each factor has two levels (Included or Excluded). The investigators are testing three factors/CBT components, yielding a 2^3 factorial trial with eight experimental conditions. Each condition corresponds to a combination of levels of the 3 factors/CBT components (e.g., a participant may be randomly assigned to a condition including zero, one, two, or three CBT components). Participants will be offered the choice of completing treatment by telephone or videoconference. Participants will complete patient reported outcome measures at pre-intervention, post-intervention, and 3 months post-intervention (follow-up). A random sample of two participants from each trial condition with at least one component will also complete qualitative interviews at post-intervention.
The overall project aims to optimize CBT for fatigue to maximize efficacy and efficiency. The project uses the Multiphase Optimization Strategy to advance scientific evidence on CBT's active components and facilitate implementation, thereby improving accessibility.
Not provided
Not provided
Not provided
Not provided
| Label | Type | Description | Intervention Names |
|---|---|---|---|
| No Treatment | No Intervention | Participants in the "No Treatment" condition will not complete any component sessions and will complete assessments at baseline (within 1 month of randomization), at approximately 2 months after randomization (the weighted average of weeks of treatment in the other conditions), and 3-month follow-up (dated from randomization). Upon study completion, these participants will be offered the opportunity to complete a component of their choice (Relaxation Training, Behavioral Activation, or Cognitive Therapy). | |
| Relaxation Training only | Experimental | A 4-session telehealth Relaxation Training intervention for multiple sclerosis fatigue that is derived from evidence-based multicomponent CBT for multiple sclerosis fatigue. The intervention is based on the cognitive behavioral model of fatigue in multiple sclerosis. The intervention involves 4, 30-60-minute sessions including the following content a) education about fatigue in multiple sclerosis and the cognitive behavioral model of multiple sclerosis fatigue, b) treatment rationale, c) didactic and experiential training in relaxation techniques such as diaphragmatic breathing, progressive muscle relaxation, and autogenic relaxation, and d) goal setting and problem-solving barriers to integrate relaxation practices into daily routine. |
|
| Behavioral Activation only | Experimental | A 4-session telehealth Behavioral Activation intervention for multiple sclerosis fatigue that is derived from evidence-based multicomponent CBT for multiple sclerosis fatigue. The intervention is based on the cognitive behavioral model of fatigue in multiple sclerosis. The intervention involves 4, 30-60-minute sessions including the following content a) education about fatigue in multiple sclerosis, the cognitive behavioral model of multiple sclerosis fatigue, and self-monitoring activity and energy, b) treatment rationale, c) identification of values/priorities to guide activities, d) activity planning, e) goal setting and problem-solving barriers to engaging in activities. |
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| 4-session Relaxation Training | Behavioral | A 4-session telehealth Relaxation Training intervention for multiple sclerosis fatigue that is derived from evidence-based multicomponent CBT for multiple sclerosis fatigue. The intervention is based on the cognitive behavioral model of fatigue in multiple sclerosis. The intervention involves 4, 30-60-minute sessions including the following content a) education about fatigue in multiple sclerosis and the cognitive behavioral model of multiple sclerosis fatigue, b) treatment rationale, c) didactic and experiential training in relaxation techniques such as diaphragmatic breathing, progressive muscle relaxation, and autogenic relaxation, and d) goal setting and problem-solving barriers to integrate relaxation practices into daily routine. |
| Measure | Description | Time Frame |
|---|---|---|
| Modified Fatigue Impact Scale | This is a 21-item self-report questionnaire assessing fatigue-related symptoms in the previous four weeks via 5-point Likert-type scale. A higher score indicates greater fatigue. | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| PROMIS Short Form - Ability to Participate in Social Roles and Activities | This 8-item short form is a self-report questionnaire that assesses the perceived ability to perform one's usual social roles and activities via 5-point Likert-type scale. A lower score indicates lower ability to participate in social roles and activities. | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| Measure | Description | Time Frame |
|---|---|---|
| Perceived Stress Questionnaire - Tension scale | This is a 5-item self-report scale assessing tense disquietude, exhaustion, and the lack of relaxation via a 4-point Likert-type scale. A higher score indicates greater tension. | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
Not provided
Inclusion Criteria:
Exclusion Criteria:
Not provided
Not provided
Not provided
Not provided
Not provided
| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Lindsey Knowles, PhD | Contact | 206-744-9640 | lmknow@uw.edu | |
| Dawn Ehde, PhD | Contact | 206-744-2811 | ehde@uw.edu |
| Name | Affiliation | Role |
|---|---|---|
| Lindsey Knowles, PhD | University of Washington | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Multiple Sclerosis Center at UW Medical Center - Northwest | Recruiting | Seattle | Washington | 98133 | United States |
Not provided
| Label | URL |
|---|---|
| Study Website | View source |
Not provided
The investigators will make available to interested researchers a data file containing de-identified data used for each published article at the time the article is accepted for publication. The data will be de-identified to remove any variables from which it would be possible to identify any individual participants. Specifically, the investigators will create a data file that includes all variables used in the published article and a list of the variables in the data file (along with variable labels) and send to investigators who request the data a copy of: (1) the published article (which will describe the source of the data); (2) the variable list/variable labels; and (3) the dataset (as an SPSS.sav file). Note, though, even though any data files that the investigators share will be stripped of identifiers prior to release for sharing, it remains possible those who access the data could potentially use deduction to identify participants with unusual characteristics or combinations o
The data used for the analyses for any papers published will become available to interested researchers by request after that article is published. Those data will continue to be available for at least five years following the publication of the article.
The investigators will make the data and associated documentation available to users only under a data-sharing agreement that provides for: (1) a commitment to using the data only for research purposes and not to identify any individual participant; (2) a commitment to securing the data using appropriate computer technology; and (3) a commitment to destroying or returning the data after analyses are completed.
Not provided
Not provided
Not provided
Not provided
Not provided
Not provided
Not provided
|
| Cognitive Therapy only | Experimental | A 4-session telehealth Cognitive Therapy intervention for multiple sclerosis fatigue that is derived from evidence-based multicomponent CBT for multiple sclerosis fatigue. The intervention is based on the cognitive behavioral model of fatigue in multiple sclerosis. The intervention involves 4, 30-60-minute sessions including the following content a) education about fatigue in multiple sclerosis, the cognitive behavioral model of multiple sclerosis fatigue, self-monitoring thoughts, and core beliefs, b) treatment rationale, c) labeling thoughts as helpful, unhelpful, or neutral, d) using distraction to cope with unhelpful thoughts, e) challenging and changing unhelpful thoughts, f) problem-solving barriers to coping with or changing unhelpful thoughts. |
|
| Relaxation Training and Behavioral Activation | Experimental | 4 sessions of telehealth Relaxation Training and 4 sessions of telehealth Behavioral Activation for multiple sclerosis fatigue that are derived from evidence-based multicomponent CBT for multiple sclerosis fatigue. Each intervention involves 4, 30-60-minute sessions delivered via phone or videoconference. |
|
| Relaxation Training and Cognitive Therapy | Experimental | 4 sessions of telehealth Relaxation Training and 4 sessions of telehealth Cognitive Therapy for multiple sclerosis fatigue that are derived from evidence-based multicomponent CBT for multiple sclerosis fatigue. Each intervention involves 4, 30-60-minute sessions delivered via phone or videoconference. |
|
| Behavioral Activation and Cognitive Therapy | Experimental | 4 sessions of telehealth Behavioral Activation and 4 sessions of telehealth Cognitive Therapy for multiple sclerosis fatigue that are derived from evidence-based multicomponent CBT for multiple sclerosis fatigue. Each intervention involves 4, 30-60-minute sessions delivered via phone or videoconference. |
|
| Relaxation Training, Behavioral Activation, and Cognitive Therapy | Experimental | 4 sessions of telehealth Relaxation Training, 4 sessions of telehealth Behavioral Activation, and 4 sessions of telehealth Cognitive Therapy for multiple sclerosis fatigue that are derived from evidence-based multicomponent CBT for multiple sclerosis fatigue. Each intervention involves 4, 30-60-minute sessions delivered via phone or videoconference. |
|
|
| 4-session Behavioral Activation | Behavioral | A 4-session telehealth Behavioral Activation intervention for multiple sclerosis fatigue that is derived from evidence-based multicomponent CBT for multiple sclerosis fatigue. The intervention is based on the cognitive behavioral model of fatigue in multiple sclerosis. The intervention involves 4, 30-60-minute sessions including the following content a) education about fatigue in multiple sclerosis, the cognitive behavioral model of multiple sclerosis fatigue, and self-monitoring activity and energy, b) treatment rationale, c) identification of values/priorities to guide activities, d) activity planning, e) goal setting and problem-solving barriers to engaging in activities. |
|
| 4-session Cognitive Therapy | Behavioral | A 4-session telehealth Cognitive Therapy intervention for multiple sclerosis fatigue that is derived from evidence-based multicomponent CBT for multiple sclerosis fatigue. The intervention is based on the cognitive behavioral model of fatigue in multiple sclerosis. The intervention involves 4, 30-60-minute sessions including the following content a) education about fatigue in multiple sclerosis, the cognitive behavioral model of multiple sclerosis fatigue, self-monitoring thoughts, and core beliefs, b) treatment rationale, c) labeling thoughts as helpful, unhelpful, or neutral, d) using distraction to cope with unhelpful thoughts, e) challenging and changing unhelpful thoughts, f) problem-solving barriers to coping with or changing unhelpful thoughts. |
|
| Behavioral Activation for Depression Scale Short Form | This is a 9-item self-report measure. It assess the extent to which the respondent thinks they have engaged in pleasant and/or goal-directed activity over the past week via a 7-point Likert-type scale. A higher score indicates greater behavioral activation. | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| Fatigue Catastrophizing Scale | This is a 13-item self-report questionnaire assessing negative beliefs or expectations connected to one's perceptions of fatigue via a 5-point Likert-type scale. A higher score indicates greater fatigue catastrophizing. | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| The Multiple Sclerosis-Fatigue Self Efficacy Scale | This is a 8-item self-report measure. It assesses the extent to which the respondent believes that they can manage and/or control their fatigue via a 10-point Likert-type scale. A higher score indicates greater fatigue self-efficacy. | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| Perceived Stress Scale | This is a 10-item self-report measure. It assess the extent to which the respondent perceives their life as unpredictable, uncontrollable, and overloaded via a 5-point Likert-type scale. A higher score indicates greater perceived stress. | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| Positive and Negative Affect Schedule | This is a 20-item self-report scale assessing the extent to which the respondent experiences positive and negative emotional states via a 5-point Likert-type scale. Higher Positive Affect scores indicate more positive affect, while higher Negative Affect scores indicate more negative affect. | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| PROMIS Emotional Distress-Depression - Short Form 4a | This 4-item short form is a self-report questionnaire that assesses depression symptoms via 5-point Likert-type scale. A higher score indicates greater depression. | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| EQ-5D-5L | This is a 6-item measure assessing perceptions of health-related quality of life in adults. It consists of a "descriptive system" and a visual analog scale (VAS). For the descriptive system, the respondent rates five dimensions of their health state on that day - mobility, self-care, usual activities, pain/discomfort, and anxiety/depression - by selecting the most appropriate statement that conveys their level of problem severity in each dimension (no problems, slight problems, moderate problems, severe problems, and extreme problems). Additionally, using the VAS, the respondent rates their overall health on a scale of 0 (worst imaginable health) to 100 (best imaginable health). | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| Global Impression of Change Scale | This is a single-item self-report scale that assesses the perceived intervention-related change in their activity limitations, symptoms, emotions, and overall quality of life via 7-point Likert-type scale. It has been validated in adults with multiple sclerosis. | Collected via online survey at post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition). |
| Global Assessment of Treatment Satisfaction | This is a single-item self-report scale that assesses the perceived overall satisfaction with the treatment via 6-point Likert-type scale. | Collected via online survey at post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition). |
| Treatment Recommendation Question | This is a single-item self-report that assesses whether a participant would recommend the intervention to a friend with MS fatigue with response options: Yes, No, Unsure, Prefer not to answer. | Collected via online survey at post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition). |
| PROMIS Emotional Distress- Anxiety Short Form 4a | This is a 4-item self-report questionnaire assessing symptoms of anxiety via a 5-point Likert-type scale. | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| PROMIS Pain Interference Short Form 4a | This is a 4-item self-report questionnaire assessing pain interference via a 5-point Likert-type scale. | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| PROMIS Sleep Disturbance Short Form 4a | This is a 4-item self-report questionnaire assessing sleep disturbance via a 5-point Likert-type scale. | Collected via online survey at baseline/pre-treatment, post-treatment (3 days after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| Ecological Momentary Assessment of Fatigue Severity and Interference | This is a 6-8-item measure sent 2x/day (morning and evening) for 7 days. It assesses mental and physical fatigue severity and interference on an 11-point numeric rating scale. The morning survey also assesses sleep duration as well as sleep quality via 2 questions rated on a Likert-type scale. The evening survey also assess perceived fatigue management efforts via 2 questions rated on a Likert-type scale. | Collected via online survey at baseline/pre-treatment, post-treatment (1 day after last treatment session or 2 months post-randomization for participants in the No Treatment condition), and 3-month follow-up. |
| ID | Term |
|---|---|
| D009103 | Multiple Sclerosis |
| D005221 | Fatigue |
| ID | Term |
|---|---|
| D020278 | Demyelinating Autoimmune Diseases, CNS |
| D020274 | Autoimmune Diseases of the Nervous System |
| D009422 | Nervous System Diseases |
| D003711 | Demyelinating Diseases |
| D001327 | Autoimmune Diseases |
| D007154 | Immune System Diseases |
| D012816 | Signs and Symptoms |
| D013568 | Pathological Conditions, Signs and Symptoms |
Not provided
Not provided