Obesity and pre-diabetes threatens the overall health and functional independence of older adults but lifestyle weight management for diabetes prevention, soon to be reimbursed by Medicare, can reduce this burden. The current 24-month study will enroll adults, ages 60 and older, through senior community centers and research registries. The investigators will study how two long term weight loss maintenance programs, both using group telephone sessions to support health behavior change, impact meaningful health outcomes. If successful, this project will provide a sustainable intervention model for healthy aging services that can benefit older adults and society.
The confluence of obesity and pre-diabetes in older adults increases the risk of diabetes, and accelerates functional decline, chronic disease, disability, and death. More research is needed to refine and extend preventive interventions to reduce burden for vulnerable individuals and society. For over a decade efficacious 6- and 12-month Diabetes Prevention Program (DPP) lifestyle interventions have been translated successfully and shown positive impact. However, efforts to develop and evaluate scalable programs conforming to current guidelines for longer term DPP interventions (up to 24 months), which are consistent with a chronic care model, and help a greater proportion of enrollees sustain the recommended weight loss target of ≥ 5% are lacking. The scientific premise is that evaluation of translational DPP interventions, which has centered largely on strategies for weight loss induction, must be extended to include scalable longer-term interventions that show meaningful weight, cardiometabolic and functional health benefits for vulnerable older adults in community-based settings. A previous DPP-based study from this group of investigators documented the utility of telephone follow-up after 12-weeks of DPP weight loss induction and demonstrated that 63% of the 65-80-year-old volunteer sample with obesity and other risk factors were able to sustain ≥ 5% weight loss at 12-months. Despite good evidence that longer duration lifestyle interventions yield better outcomes (reflected in the latest Medicare ruling) there are no translational studies of 24-month long DPP-based interventions for older adults exclusively. The investigators will recruit participants from a broad array of community settings and examine how best to sustain the impact of a healthy lifestyle-healthy aging focused DPP with scalable treatment components over a 24-month period. The Sustain-DPP study will recruit and enroll adults 60 years of age and older, with overweight/obesity (BMI \>= 27) and pre-diabetes (either HbA1c of 5.7 to 6.4% inclusive or fasting glucose \>=100 but less than 126 mg/dL) (N = 360) from a network of community centers that offer healthy aging services and from community research registries. The intervention program sequence has been designed to align with current Medicare guidelines. First, from 0-6 months, experienced lifestyle coaches will administer a combination of in-person, video and telephone coaching sessions for all participants, at least 25% from ethnic/racial minority groups. Next, individual participants will be randomized (N = 180 per arm; stratified by weight loss of \< or ≥ 5% and other demographic factors) to one of two 18-month follow-up conditions delivered as once-a-month telephone sessions only from 6-24 months. The investigators will compare the effects of (1) 30-minute behavioral intervention sessions, which include a Medicare-DPP and healthy lifestyle for healthy aging focus, and (2) 15-minute social support sessions, on measures of weight (the primary outcome) at 12-, 18-, and 24-months. In addition, data will be collected on cardiometabolic, physical activity, physical function, psychosocial, behavioral and other age-sensitive quality of life measures at 12- and 18- and 24-months. Finally, Medicare claims data will be examined for a proportion of the sample regarding medication use, outpatient, inpatient, and emergency visits and enrollment/participation in elder-focused activity programs. This work, if successful, will have immediate potential for DPP-sustainable lifestyle interventions that benefit vulnerable aging individuals and society.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
DOUBLE
Enrollment
314
Ongoing DPP intervention and behavioral progress review to prevent relapse and improve cardiometabolic and functional health targets as keys to healthy aging.
No further behavioral intervention materials provided; phone-contacts for mutual social support and accountability
Univ. Pittsburgh School of Medicine-Dept. Psychiatry
Pittsburgh, Pennsylvania, United States
Change in Bodyweight
Percent bodyweight change (clinic measured) of participant
Time frame: 12-month change from baseline bodyweight
Change in Bodyweight
Percent bodyweight change (clinic measured) of participant
Time frame: 18-month change from baseline bodyweight
Change in Bodyweight
Percent bodyweight change (clinic measured) of participant.
Time frame: 24-month change from baseline bodyweight
Change in Waist Circumference
Waist circumference measured in centimeters with a Gulick spring-loaded tape measure.
Time frame: 12-month.change from baseline waist circumference
Change in Waist Circumference
Waist circumference measured in centimeters with a Gulick spring-loaded tape measure.
Time frame: 24-month change from baseline waist circumference
Change in Fasting Glucose
Fasting glucose (mg/dL) blood samples were taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens were analyzed at a central research laboratory.
Time frame: 12-month change from baseline fasting glucose
Change in Fasting Glucose
Fasting glucose (mg/dL) blood samples will be taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens are analyzed at a central research laboratory.
Time frame: 24-month change from baseline fasting glucose
Change in Fasting Insulin
Fasting insulin blood samples were taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens were analyzed at a central research laboratory. All collected data values obtained will be converted for uniformity to pmol/L.
Time frame: 12-month change from baseline fasting insulin
Change in Fasting Insulin
Fasting insulin blood samples were taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens were analyzed at a central research laboratory. All collected data values obtained will be converted for uniformity to pmol/L.
Time frame: 24-month change from baseline fasting insulin
Change in Hemoglobin (HbA1c)
HbA1c (percent) blood samples were taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens were analyzed at a central research laboratory
Time frame: 12-month change from baseline fasting HbA1c
Change in Hemoglobin (HbA1c)
HbA1c (percent) blood samples will be taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens are analyzed at central research laboratory
Time frame: 24-month change from baseline fasting HbA1c
Change in Total Cholesterol
Fasting total cholesterol (mg/dL) blood samples were taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens were analyzed at a central research laboratory.
Time frame: 12-month change from baseline fasting total cholesterol
Change in Total Cholesterol
Fasting total cholesterol (mg/dL) blood samples were taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens were analyzed at a central research laboratory.
Time frame: 24-month change from baseline fasting total cholesterol
Change in High-density Lipoprotein (HDL)
Fasting HDL (mg/dL) blood samples were taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens were analyzed at a central research laboratory.
Time frame: 12-month change from baseline fasting HDL
Change in High-density Lipoprotein (HDL)
Fasting HDL (mg/dL) blood samples were taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens were analyzed at a central research laboratory.
Time frame: 24-month change from baseline fasting HDL
Change in Low-density Lipoprotein (LDL)
Fasting LDL (mg/dL) blood samples were taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens were analyzed at a central research laboratory.
Time frame: 12-month change from baseline fasting LDL
Change in Low-density Lipoprotein (LDL)
Fasting LDL (mg/dL) blood samples were taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens are analyzed at a central research laboratory.
Time frame: 24-month change from baseline fasting LDL
Change in Triglycerides
Fasting triglycerides (mg/dL) blood samples were taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens are analyzed at a central research laboratory.
Time frame: 12-month change from baseline fasting triglycerides
Change in Triglycerides
Fasting triglycerides (mg/dL) blood samples were taken by venipuncture after confirmed minimum overnight 8-hour fast. Specimens are analyzed at a central research laboratory.
Time frame: 24-month change from baseline fasting triglycerides at 24 months
Change in Systolic Blood Pressure (SBP)
SBP (mmHg) measured by arm cuff digital blood pressure monitor (OMRON HEM90HXC)
Time frame: 12-month change from baseline SBP
Change in Systolic Blood Pressure (SBP)
SBP (mmHg) measured by arm cuff digital blood pressure monitor (OMRON HEM90HXC)
Time frame: 24-month change from baseline SBP
Change in Diastolic Blood Pressure (DBP)
DBP blood pressure (mmHg) measured by arm cuff digital blood pressure monitor (OMRON HEM90HXC)
Time frame: 12-month change from baseline DBP
Change in Diastolic Blood Pressure (DBP)
DBP (mmHg) measured by arm cuff digital blood pressure monitor (OMRON HEM90HXC)
Time frame: 24-month change from baseline DBP.
Change in Physical Function
Short Physical Performance Battery total score (0-12) includes three function tests (each scored 0-4) and summed. The subtests are (1) gait speed measured in meters/second on a 4-meter walk route; (2) 3 progressive standing balance tests; (3) 5 chair stands. Change in Total Score is reported here. Higher score indicates better physical function.
Time frame: 12-month change from baseline on total score
Change in Physical Function
Short Physical Performance Battery total score (0-12) includes three function tests (each scored 0-4) and summed. The subtests are (1) gait speed measured in meters/second on a 4-meter walk route; (2) 3 progressive standing balance tests; (3) 5 chair stands. Change in Total Score is reported here. Higher score indicates better physical function.
Time frame: 24-month change from baseline total score
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