The purpose of this study is to determine whether the researchers can help people change the amount of time they spend in sitting activities and whether this change might improve health outcomes.
Specific Aim 1: Determine feasibility of a 12-week home and telephone based intervention in older adults with mild cognitive impairment targeting both the impaired individual and their study partner to help initiate and maintain behavior change. We will recruit KUADC registry participants with MCI and their caregivers (as study partners). Behavioral interventions are more effective when there is built in social support. We will evaluate feasibility in terms of successful recruitment and retention of participants, 10% or less of technological failures, rate of participant concerns addressed by phone and at home visits, acceptability of the intervention to participants (measured by questionnaires during home visits). Specific Aim 2: Determine whether a 12-week home and telephone based intervention results in reduced total sitting time and shorter bouts of sitting in older adults with MCI and their caregivers. Electronic postural monitors will record sitting time for a duration of one week at three time points (pre-intervention, mid-intervention, and post-intervention). The intervention includes 1) feedback from baseline monitoring, 2) educational and goal setting session with the participants and research staff, 3) wrist worn monitors that alert wearers to sitting times \>30 minutes, 4) home and telephone visits to address physical, psychological, and home environment barriers to behavior change. Changes in sitting time and breaks from sitting will be compared between baseline, mid-intervention, and post-intervention measurement occasions. Specific Aim 3: Determine whether sedentary behavior intervention results in improved insulin sensitivity and glycemic control. To evaluate whether reduced sitting results in meaningful metabolic changes, we will measure postprandial insulin and glucose, and body composition, and evaluate changes from pre- to post- intervention adjusting for relevant covariates.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
NONE
Enrollment
6
Jawbone Up is a wrist wore water resistant activity monitor.
A study team member will discuss benefits of changing sitting habits and ways to make changes to personal habits.
Devices measures postural changes over time. Participants will wear device for 7 days. The device measures time sitting, standing, and posture changes (i.e. sit-to-stand).
University of Kansas Medical Center
Kansas City, Kansas, United States
Change in Average Daily Sitting Time
Average daily sitting time (minus sleep) at 6 weeks minus average daily sitting time (minus sleep) at baseline measured using the activPAL monitor
Time frame: Change from Baseline to Week 6
Change in Average Daily Sitting Time
Average daily sitting time (minus sleep) at 12 weeks minus average daily sitting time (minus sleep) at baseline measured using the ActivPAL monitor
Time frame: Change from Baseline to Week 12
Number of Sitting Bouts Greater Than 30 Min
Change in the number of sitting bouts greater than 30 min measured using the ActivPAL monitor
Time frame: Week 12
Change in Glucose Levels Area Under the Curve in Response to Mixed Meal Tolerance Test
The average area under the curve at week 12 minus the average area under the curve at baseline. Blood was collected at baseline (pre-mixed meal). Post-mixed meal it was collected at 15, 30, 45, 60, 90, 120 minutes. The Area Under the Curve (AUC) was computed using the trapezoidal rule as we have previously described (Burns et. al. 2012, Morris et al 2014). This results in a single AUC pre-intervention value, and a single AUC post-intervention value for each metabolic outcome measure (glucose, insulin, etc). The Area Under the Curve (AUC) for each individual is calculated as a single unitless value that results from calculating the definite integral under a timecourse curve. This method has been widely used and cited in metabolic studies for more than two decades https://doi.org/10.2337/diacare.17.2.152. This results in a single unitless AUC pre-intervention value, and a single AUC post-intervention value for each metabolic outcome response measure (glucose, insulin, etc).
Time frame: Change from Baseline to Week 12
Change in Insulin Levels Area Under the Curve Based on a Mixed Meal Tolerance Test
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The average area under the curve at week 12 minus the average area under the curve at baseline. Blood was collected at baseline (pre-mixed meal). Post-mixed meal it was collected at 15, 30, 45, 60, 90, 120 minutes. The Area Under the Curve (AUC) was computed using the trapezoidal rule as we have previously described (Burns et. al. 2012, Morris et al 2014). This results in a single AUC pre-intervention value, and a single AUC post-intervention value for each metabolic outcome measure (glucose, insulin, etc). The Area Under the Curve (AUC) for each individual is calculated as a single unitless value that results from calculating the definite integral under a timecourse curve. This method has been widely used and cited in metabolic studies for more than two decades https://doi.org/10.2337/diacare.17.2.152. This results in a single unitless AUC pre-intervention value, and a single AUC post-intervention value for each metabolic outcome response measure (glucose, insulin, etc).
Time frame: Change from Baseline to Week 12