The goal of this study is to pilot test features of a new smartphone app and to gather feedback related to wearing a continuous glucose monitor (CGM) and a Fitbit device, as well as to obtain input on health behavior-focused messages delivered through the app. The study will enroll English-speaking participants aged 16-24 years who were diagnosed with type 2 diabetes before age 18. Participants will be asked to fill out surveys about diabetes, physical activity, and diet before and after wearing a CGM for 30 days. At the end of wearing the CGM, participants will complete an interview about their experience.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
OTHER
Masking
NONE
Enrollment
30
Participants will wear study-provided continuous glucose monitoring device and Fitbit physical activity tracker for 30 consecutive days. During the same period, they will use an investigator-developed smartphone app (Healthmine), which is being developed to pair CGM and Fitbit data. Participants will receive up to one message about health behavior change (e.g., physical activity, nutrition) daily and will be able to use Healthmine to log exercise and dietary intake.
Children's Hospital of Pittsburgh
Pittsburgh, Pennsylvania, United States
Usability of Healthmine app
Assessed via the System Usability Scale (SUS), a 10-item questionnaire measuring perceived usability of a system or technology. Each item is rated on a 5-point Likert scale ranging from 1 ("strongly disagree") to 5 ("strongly agree"). The total SUS score is calculated by summing the score contributions from each item (for odd-numbered items, subtract 1 from the user response; for even-numbered items, subtract the user response from 5), multiplying the sum by 2.5, resulting in a score ranging from 0 to 100. Higher scores indicate better perceived usability, with scores above 68 considered above average usability.
Time frame: 15 days and 30 days after starting study-provided CGM and Healthmine app use
Days with CGM data
The number of days with continuous glucose monitoring data available will be divided by the total number of requested days of wear (30) to obtain percentage of days with data.
Time frame: 30-day CGM wear period
Days with Fitbit data
The number of days with Fitbit data available will be divided by the total number of requested days of wear (30) to obtain percentage of days with data.
Time frame: 30-day Fitbit wear period
Mean CGM glucose
Mean glucose obtained from study-provided CGM
Time frame: 30-day CGM wear period
Step count
Step count data will be obtained via study-provided Fitbit.
Time frame: 30-day Fitbit wear period
Diabetes Self-Management
Assessed via the Diabetes Self-Management Questionnaire (DSMQ), a 16-item self-report questionnaire measuring diabetes self-care activities associated with glycemic control. Each item is rated on a 4-point Likert scale (0 = "does not apply to me" to 3 = "applies to me very much"). Items are summed (after reverse-coding negatively worded items) and transformed to a 0-10 scale, where higher scores indicate better self-management.
Time frame: Baseline and 30 days (change from baseline to 30 days)
Treatment Self-Regulation
Assessed via the Treatment Self-Regulation Questionnaire (TSRQ), a questionnaire measuring the degree to which a person's motivation for health behaviors is relatively autonomous (self-determined) versus controlled (motivated by external factors). Items are rated on a 7-point Likert scale (1 = "not at all true" to 7 = "very true"). The TSRQ yields subscale scores for autonomous regulation, controlled regulation, and amotivation, with higher scores on each subscale indicating greater levels of that type of motivation.
Time frame: Baseline and 30 days (change from baseline to 30 days)
Self-Reported Physical Activity
Assessed via the PACE+ Physical Activity Measure, a brief self-report questionnaire measuring physical activity levels. Participants report the number of days per week they engage in moderate or vigorous physical activity for at least 30 minutes (or 60 minutes for adolescents). The measure yields separate scores for moderate and vigorous activity (each ranging from 0-7 days per week), with higher scores indicating greater physical activity frequency.
Time frame: Baseline and 30 days (change from baseline to 30 days)
Diet Quality
Assessed via the Prime Diet Quality Score (PDQS), a food-based dietary assessment tool that evaluates diet quality across 15 food group components. The PDQS includes 10 adequacy components (dark green leafy vegetables, cruciferous vegetables, carrots, other vegetables, citrus fruits, other fruits, fish/seafood, eggs, whole grains, and low-fat dairy) and 5 moderation components (red meat as main dish, processed meat, refined grains and baked goods, sugar-sweetened beverages, and fried foods). Each component is scored based on consumption frequency, with higher scores indicating greater intake of health-promoting foods and lower intake of foods that should be consumed in moderation. The total PDQS ranges from 0-30, with higher scores indicating better overall diet quality.
Time frame: Baseline and 30 days (change from baseline to 30 days)
Glucose monitoring satisfaction
Assessed via the Glucose Monitoring Satisfaction Survey (GMSS) for Type 2 Diabetes, a 15-item questionnaire measuring patient satisfaction with their glucose monitoring device. Items are rated on a 5-point Likert scale (1 = "strongly disagree" to 5 = "strongly agree"). The GMSS yields four subscale scores: Openness (items 1, 8, 10, 14), Emotional Burden (items 2, 5, 9, 13), Behavioral Burden (items 3, 6, 11, 15), and Worthwhileness (items 4, 7 \[reverse coded\], 12). Subscale scores are calculated as the mean of item responses, with higher scores indicating greater openness, greater burden (for burden subscales), and greater worthwhileness, respectively. A total satisfaction score is calculated as the mean of all items after reverse-coding items 2, 3, 5, 6, 7, 9, 11, 13, and 15, with higher total scores indicating greater overall satisfaction with glucose monitoring.
Time frame: 30 days (following CGM wear period)
Glucose coefficient of variation
Based on CGM glucoses, coefficient of variation will be calculated by dividing the standard deviation of glucose readings by the mean glucose level, then multiplying by 100 to get a percentage.
Time frame: 30-day CGM wear period
Glucose time below range
Percent of time with CGM glucose less than 70 mg/dL
Time frame: 30-day CGM wear period
Glucose time in range
Percent of time with CGM glucose 70-180 mg/dL
Time frame: 30-day CGM wear period
Glucose time above range
Percent of time with CGM glucose above 180 mg/dL
Time frame: 30-day CGM wear period
Mean amplitude of glycemic excursions
A measure of glucose variability calculated from CGM data, calculated by dividing the standard deviation of glucose readings by the mean glucose level, then multiplying by 100 to get a percentage.
Time frame: 30-day CGM wear period
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