Evaluation of a Telehealth DPP With Medicare Patients at the University of Mississippi Medical Center

Active, not recruiting

• Conditions: PreDiabetes; Prediabetic State
• Interventions: Behavioral: Diabetes Prevention Program (DPP)

• Registration Number: NCT04822480
• Lead Sponsor: University of Mississippi Medical Center

Brief Summary

The National Diabetes Prevention Program (DPP) is an evidence-based, 12-month lifestyle change program to prevent or delay the onset of type 2 diabetes mellitus (herein referred to as 'diabetes') among adults with prediabetes. The Department of Preventive Medicine, University of Mississippi Medical Center (UMMC), in partnership with the American Medical Association, is collaborating to develop and implement the DPP as a clinical service for UMMC patients beginning in September 2020. We aim to recruit 245 patients per year over 3 years. Because this is the first attempt to develop and implement the DPP as a clinical service at the UMMC, we are proposing to conduct a comprehensive process, outcome, impact and return on investment evaluation. An effectiveness-implementation hybrid research design will be used to (1) evaluate a multifaceted implementation strategy and the effectiveness and impact of the DPP delivered using telehealth by UMMC's Department of Preventive Medicine; (2) conduct an analysis on medical expenditures among those who participate in a DPP to measure net savings and return on investment (ROI) relative to non-participants; (3) conduct a longitudinal cohort analysis to assess incidence of diabetes and changes in body composition, biomarkers, and psycho-social behavioral constructs among those who participate in a DPP relative to those who do not.

The findings from this comprehensive research evaluation will be used to (1) improve clinical operations and implementation; (2) demonstrate the cost benefit of the DPP as a clinical service for patients with diabetes risk; and (3) provide empirical support for delivering the DPP via different modalities including telehealth to reduce risk and improve health outcomes among patients.

Detailed Description

The purpose of this research is to: (1) Evaluate a multifaceted implementation strategy for the uptake of a remote DPP by UMMC's Department of Preventive Medicine. (2) Conduct an analysis on medical expenditures among those who participate in a DPP to measure net savings and ROI relative to non-participants. (3) Conduct a longitudinal cohort analysis to assess incidence of diabetes, body composition, biomarkers, and psycho-social behavioral constructs among those who participate in a DPP relative to those who do not. Study methods are described below according to each of three specific aims.

Aim 1: Conduct a concurrent implementation and effectiveness evaluation of the DPP in a clinical care setting for patients with prediabetes (n=245). An effectiveness-implementation hybrid type III research design will be used to conduct a non-randomized trial with 245 of patients with prediabetes over a three year recruitment period, while employing an iterative process evaluation to explore the complex processes, dynamic context and organizational influences on implementation. The RE-AIM framework will guide the implementation and effectiveness evaluation including measures of Reach, Effectiveness, Adoption, Implementation and Maintenance. Multiple data sources and data types will be used to assess barriers and facilitators that affect the RE-AIM domains, as well as fidelity, costs, patient satisfaction and physician burnout.

Aim 2: Utilize claims and encounters data to measure medical expenditures for patients with prediabetes, and determine spending differentials among DPP participants compared with non-DPP participants. Track trends in per capita medical expenditures for among a panel of case (DPP participant) and control (Non-DPP participant) subjects. To compare variations in spending, the differences in the arithmetic means, compound annual growth rates, and propensity score matching models will be implemented to compare case and control subjects. The study may also look at those with prediabetes that are later diagnosed with diabetes and individuals with prediabetes who are not later diagnosed with the condition. These estimates of spending differentials and evidence of DPP participation and engagement rates will help to further enhance the algorithm to estimate the potential cost savings and ROI if diabetes is prevented or delayed in the at-risk population who participate in the DPP.

Aim 3: Assess the longitudinal effect of the DPP on participant changes in cardiovascular disease risk including anthropometric and clinical biomarker and psychosocial health outcomes (N=245). A prospective, repeated measures, experimental cohort design will be used to determine the long-term impact of the DPP on diabetes incidence and cardiovascular disease risk among DPP patient participants.

Study Timeline

• Study Start: 2020-02-01
• Study First Submitted: 2021-03-25
• Study First Submitted QC: 2021-03-25
• Study First Posted: 2021-03-30
• Primary Completion: 2023-12-31
• Status Verified: 2024-04
• Last Update Submitted: 2024-04-25
• Last Update Posted: 2024-04-29
• Study Completion: 2024-12-31

Recruitment & Eligibility

• Status: ACTIVE_NOT_RECRUITING
• Sex: All
• Target Recruitment: 500

Inclusion Criteria

• UMMC patient within the previous 3-years (at least one UMMC clinical visit within the previous 3-years)
• ≥ 18 years AND
• Clinical diagnosis for prediabetes (R73.03)

OR any of the following combinations:

• BMI ≥25 (non-Asian) OR
• BMI ≥23 (Asian) AND
• HbA1c 5.7 - 6.4 percent within the past 12-months OR
• Fasting plasma glucose 110 - 125 mg/dL within the past 12-months OR
• 2-hour plasma glucose 140 - 199 mg/dL within the past 12-months

Exclusion Criteria

• Pregnant or planning to become pregnant within the next 12 months
• <18 years
• Primary or secondary diagnosis of diabetes mellitus (all codes with prefix of 250 and 249) and other conditions associated with diabetes (357.2, all codes with prefix 362, 366.41, and all codes with prefix 648).
• End stage renal disease

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Arm && Interventions

Group	Intervention	Description
DPP Patients	Diabetes Prevention Program (DPP)	UMMC Patients with prediabetes or risk for diabetes based on risk parameters referred to and enrolled in the DPP.

Primary Outcome Measures

Name	Time	Method
Hemoglobin A1c	Change in HbA1c from baseline to 36-months in DPP compared with non-DPP patients	Lab values extracted from electronic health record
2-hour plasma glucose	Change in 2-hour plasma glucose from baseline to 36-months in DPP compared with non-DPP patients	Lab values extracted from electronic health record
Type 2 diabetes mellitus diagnosis	Change diabetes diagnosis from baseline to 36-months in DPP compared with non-DPP patients	Diabetes diagnosis extracted via electronic health record; all codes with prefix of 250 and 249
Fasting plasma glucose	Change in fasting plasma glucose from baseline to 36-months in DPP compared with non-DPP patients	Lab values extracted from electronic health record
Medical encounters	Number of medical encounters between baseline and 36-months in DPP compared with non-DPP patients	Extracted from electronic health record
Medical expenditures	Medical expenditures from baseline to 36-months in DPP compared with non-DPP patients	Total dollar amount billed per encounter extracted from electronic health record

Secondary Outcome Measures

Name	Time	Method
Body weight	Change in body weight from baseline to 36-months	Total body weight measured using Seca mBCA 554
Waist circumference	Change in waist circumference from baseline to 36-months	Measures using Seca 203 circumference measuring tape
Resting heart rate	Change in resting heart rate from baseline to 36-months	Welch Allyn blood pressure unit.
Decisional balance	Change in decisional balance from baseline to 36-months	Decisional balance inventory; 20 items using 5-point Likert scale to identify cognitive and emotional pros and cons to making intentional changes for weight loss and maintenance (Not Important At All to Extremely Important); higher mean scores for subscales (Pros; Pro-Con) would indicate higher intention; O'Connell and Velicer, 1988
Self-regulation of physical activity - goals	Change in self-regulation of physical activity goals from baseline to 36-months	Exercise goal-setting scale; 10 items using 5-point Likert scale from Does Not Exercise goal-setting scale; 10 items using 5-point Likert scale from Does Not Describe Me (0) to Describes Me Completely (4); higher mean score reflects greater self-regulation Rovniak et al., 2002
Coping self-efficacy	Change in coping self-efficacy from baseline to 36-months	Coping self-efficacy scale; 14 items using a 4-point Likert scale from Not True At All (1) to Exactly True (4); higher mean score indicates greater self-efficacy for coping; Huttunen-Lenz et al., 2018
Fat mass	Change in fat mass from baseline to 36-months	Total body fat mass measured using Seca mBCA 554; bioimpedance analysis
Systolic blood pressure	Change in systolic blood pressure from baseline to 36-months	Welch Allyn blood pressure unit following the American Heart Association guidelines for adults.
Total cholesterol	Change in total cholesterol from baseline to 36-months	PTS Diagnostics CardioChek Plus analyzer; point of care finger stick to obtain 40 μL blood
HDL cholesterol	Change in HDL cholesterol from baseline to 36-months	PTS Diagnostics CardioChek Plus analyzer; point of care finger stick to obtain 40 μL blood
Visceral fat	Change in visceral fat from baseline to 36-months	Visceral fat measured using Seca mBCA 554; bioimpedance analysis
Skeletal muscle mass	Change in skeletal muscle mass from baseline to 36-months	Total body skeletal muscle mass measured using Seca mBCA 554; bioimpedance analysis
Diastolic blood pressure	Change in diastolic blood pressure from baseline to 36-months	Welch Allyn blood pressure unit following the American Heart Association guidelines for adults.
Triglycerides	Change in triglycerides from baseline to 36-months	PTS Diagnostics CardioChek Plus analyzer; point of care finger stick to obtain 40 μL blood
Readiness to change, stage of change	Change in stage of change from baseline to 36-months	Stages of Change in Overweight and Obese People questionnaire (S-weight); 1-item with 5 distinct and mutually exclusive responses to measure stage of change; Andres et al., 2009
Readiness to change, processes of change	Change in processes of change from baseline to 36-months	Processes of Change in Overweight and Obese People questionnaire (P-weight); 34 items; 5-point Likert scale from Strongly Disagree to Strongly Agree where higher mean score indicates higher use of respective process; four processes include emotional re-evaluation, weight consequences evaluation, supporting relationships, and weight management actions across 4 processes of change; Andres et al., 2011
Self-efficacy for overcoming barriers to physical activity and healthy eating	Change in barrier self-efficacy from baseline to 36-months	Self-efficacy for overcoming barriers to physical activity and diet; 10 items using a 4-point Likert scale from Very Uncertain to Very Certain or Not True At All to Exactly True; higher mean score (20 to 80) indicated greater self-efficacy; Huttunen-Lenz et al., 2018
Hemoglobin A1c (point of care)	Change in HbA1c from baseline to 36-months	A1CNOW+ System for reliable point-of-care HbA1c measurement; non-fasting 5 μL blood
Self-efficacy for weight loss and maintenance	Change in self-efficacy from baseline to 36-months	Weight self-efficacy lifestyle questionnaire; 20 items using a 10-point Likert scale; higher mean score indicates higher self-efficacy; Clark et al., 1991
Self-regulation of eating behaviors	Change in self-regulation of eating behaviors from baseline to 36-months	Self-regulation of Eating Behavior Questionnaire; 5 items using a 5-point Likert scale; mean score \<2.8, 2.8 - 3.6, \>3.6 correspond to low, medium and high self-regulation, respectively; Kliemann et al., 2016
Self-regulation of physical activity - planning	Change in self-regulation of physical activity planning from baseline to 36-months	Exercise planning and scheduling scale; 10 items using 5-point Likert scale from Does Not Describe Me (0) to Describes Me Completely (4); higher mean score reflects greater self-regulation Rovniak et al., 2002
Social support from family - eating	Change in social support from baseline to 36-months	Family social support for healthy eating scale; 13 items using a 5-point Likert scale from None of the Time (1) to All of the Time (5) where a higher mean score indicated greater social support; Sallis et al., 1987
Social support from friend - physical activity	Change in social support from baseline to 36-months	Friend social support for physical activity scale; 9-items using a 5-point Likert scale from None of the Time (1) to All of the Time (5) where a higher mean score indicated greater social support; Sallis et al., 1987
Outcome expectancies	Change in outcome expectancies from baseline to 36-months	Outcome expectancies of behavior change; 25 items using 4-point Likert scale from Not True At All (1) to Exactly True (4); higher mean score indicating greater outcome expectancy; Huttunen-Lenz et al., 2018
Social support from friends - eating	Change in social support from baseline to 36-months	Friend social support for healthy eating scale; 10 items using a 5-point Likert scale from None of the Time (1) to All of the Time (5) where a higher mean score indicated greater social support; Sallis et al., 1987
Social support from family - physical activity	Change in social support from baseline to 36-months	Family social support for physical activity scale; 15 items using a 5-point Likert scale from None of the Time (1) to All of the Time (5) where a higher mean score indicated greater social support; Sallis et al., 1987

Trial Locations

Locations (1)

University of Mississippi Medical Center; 🇺🇸 Jackson, Mississippi, United States