Reducing Sedentary Behaviour: A Novel Opportunity for Managing Comorbidity in MS?
- Conditions
- Multiple Sclerosis
- Interventions
- Behavioral: Sit Less with MS
- Registration Number
- NCT03136744
- Lead Sponsor
- University of Alberta
- Brief Summary
Activity recommendations for the general population and those with multiple sclerosis (MS) focus on the promotion of activity that has a moderate intensity - in other words, activity intense enough to breathe heavily and sweat. Most adults do not achieve the recommended 150 minutes of moderate-intensity activity per week. Even fewer persons with MS meet the recommendations. Those with MS often have problems with walking and fatigue, thus it is not difficult to understand that moderate intensity activity is challenging. Our study will test the feasibility of a new approach focusing on activity over the whole day - promoting light activity such as standing or walking around the house while reducing prolonged sitting (sedentary behaviour). This approach is supported by research evidence showing that too much sedentary time, especially prolonged bouts of sitting, is associated with health risk factors such as obesity and cholesterol level. Recent work with persons with MS confirms that prolonged sitting is a problem for this population and emphasises the potential importance of this approach.
This study tests the feasibility of an internet-based intervention designed to decrease sedentary behaviour and to increase upright time in people with MS.
- Detailed Description
Background: The health risks of sedentary behaviour or 'sitting too much' for the general population are receiving widespread media attention, with bylines that include, "comfy chairs are killing us very softly" or "don't just sit there!" Others have suggested that sitting is the new smoking! This media attention reflects the exponential growth of research on sedentary behaviour in the last 10 years \[1-4\]. The investigators believe that learning more about sedentary behaviour and its health risks may be particularly relevant for those with multiple sclerosis (MS). People with MS are substantially less active than persons without MS and have co-morbidities such as walking disability and fatigue that may make achieving the 'typical' moderate to vigorous intensity exercise targets very difficult. The investigators will test a new approach to activity promotion that focuses on reducing sedentary behaviour and moving more during the day. This approach is likely to be more feasible and lead to more sustainable activity behaviour change in persons with MS. It's broad applicability - to persons with MS who move well, to those who need help to walk, and perhaps only walk at home - is a major strength of this new approach. In the end, if found to be effective, it could mean that a large majority of those with MS could receive the benefits of activity that they may be missing out on if only the usual moderate to vigorous activity programme is recommended.
Purpose: The purpose of this project is to test the feasibility of a sedentary behaviour intervention program on reducing sedentary behaviour and improving co-morbidities such as walking disability and fatigue in people with MS.
Methods: Forty persons with MS will be recruited from the community (mostly from Edmonton through our collaboration with the MS Society of Alberta) and the MS Clinic (University of Alberta Campus). The participants will be involved with the study for 24 weeks, including a 16-week intervention and an 8-week follow-up. The intervention includes two 8-week stages; 1) Sit Less Stage- Interruptions to prolonged sitting, and 2) Move More Stage- Reduction in total sitting time through replacing sitting with light physical activities.
Baseline testing will consist of demographic, anthropometric, impairment and functional testing. Subsequently, participants will be set up with an activity monitor (ActivPAL) to wear for 7 days. All outcomes, including those from the ActivPAL, will be assessed at three-time points: Baseline (Week 0), Post-intervention (Week 16), and Follow-up (Week 24). However, at mid-intervention (Week 8), data will be collected only from the ActivPAL activity monitor. A log book will be used by participants to record their wake-time and sleep-time and times when they didn't wear the monitor.
Intervention: Once baseline testing is completed, in the first week of intervention a Fitbit monitor will be attached to each participant's waist, and the participants will be asked to do the activities that they normally do every day. This information will be used to determine usual activity behaviour. Also, participants will be asked to wear the Fitbit throughout the entire 16 weeks of the intervention. A program manual will be provided to the participants to guide them throughout the 16 weeks of the intervention. In addition to the program manual, participants will receive (via email) a weekly newsletter that emphasises an aspect of behaviour change from social cognitive theory and Skype chats will be conducted as well.
Analysis: Most of the feasibility outcomes will be descriptive related to recruitment (e.g., number of participants enrolled/number of participants approached) and adherence to the intervention. Descriptive statistics (mean, SD) will be used to characterize the sample. A two-way mixed factor ANOVA will be used to determine whether there are main (time, level of disability) and/or interaction effects for two primary sedentary behaviour outcomes - the average number of sedentary interruptions, and average sedentary time per day. Effect sizes will be calculated for each of the sedentary behaviour and the co-morbidity outcomes. Where clinically meaningful change benchmarks are available, we will determine if changes achieved from the intervention were clinically significant.
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- All
- Target Recruitment
- 40
Not provided
• other neurological problems besides MS or medically unstable to engage in the program.
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- SINGLE_GROUP
- Arm && Interventions
Group Intervention Description Sit Less with MS Sit Less with MS The Sit Less with MS program is based on Social Cognitive Theory (SCT) and consists of strategies that will enable people with MS to 'sit less' by frequently interrupting sitting and 'move more' by replacing sitting with light-intensity activity during waking hours.
- Primary Outcome Measures
Name Time Method Number of sedentary interruptions per day Baseline (week 0), post-intervention (week 16), and follow-up (week 24) Change in number of sedentary breaks from baseline to post-intervention and follow-up
Average sedentary time per day Baseline (week 0), post-intervention (week 16), and follow-up (week 24) Change in sedentary time from baseline to post-intervention and follow-up
- Secondary Outcome Measures
Name Time Method Pittsburgh Sleep Quality Questionnaire Baseline (week 0), post-intervention (week 16), and follow-up (week 24) The Pittsburgh Sleep Quality Questionnaire will be used to monitor sleep quality from baseline to post-intervention and follow-up
Patient Determined Disease Steps (PDDS) Baseline (week 0), post-intervention (week 16), and follow-up (week 24) The PDDS will be used to track patient-reported impairment level from baseline to post-intervention and follow-up
Fatigue Severity Scale (FSS) Baseline (week 0), post-intervention (week 16), and follow-up (week 24) The FSS will be used to track patient-reported fatigue level from baseline to post-intervention and follow-up
Symbol Digit Modality Test Baseline (week 0), post-intervention (week 16), and follow-up (week 24) The Symbol Digit Modality Test will be used to monitor cognitive status from baseline to post-intervention and follow-up
Hospital Anxiety and Depression Scale Baseline (week 0), post-intervention (week 16), and follow-up (week 24) The Hospital Anxiety and Depression Scale will be used to monitor level of depression from baseline to post-intervention and follow-up
Godin-Shephard Leisure-Time Physical Activity Questionnaire Baseline (week 0), post-intervention (week 16), and follow-up (week 24) The Godin-Shephard Leisure-Time Physical Activity Questionnaire will be used to track self-reported physical activity level from baseline to post-intervention and follow-up
10-meter Walk test Baseline (week 0), post-intervention (week 16), and follow-up (week 24) The 10-meter Walk test will be used to assess gait speed from baseline to post-intervention and follow-up
Short Physical Performance Battery Baseline (week 0), post-intervention (week 16), and follow-up (week 24) The Short Physical Performance Battery will be monitor balance, walking speed, and function from baseline to post-intervention and follow-up
Modified Fatigue Impact Scale Baseline (week 0), post-intervention (week 16), and follow-up (week 24) The Modified Fatigue Impact Scale will be used to track the impact of fatigue from baseline to post-intervention and follow-up
6-minute Walk Test Baseline (week 0), post-intervention (week 16), and follow-up (week 24) The 6-minute Walk test will be used to measure endurance from baseline to post-intervention and follow-up
Quality of Life (SF-36) Questionnaire Baseline (week 0), post-intervention (week 16), and follow-up (week 24) The Quality of Life (SF-36) Questionnaire will be used to monitor patient-reported quality of life from baseline to post-intervention and follow-up
Short Form McGill Pain Questionnaire Baseline (week 0), post-intervention (week 16), and follow-up (week 24) The Short Form McGill Pain Questionnaire will be used to monitor level of pain from baseline to post-intervention and follow-up
Trial Locations
- Locations (1)
University of Alberta
🇨🇦Edmonton, Alberta, Canada