Utilizing Protein During Weight Loss to Impact Physical Function and Bone

Not Applicable

Completed

• Conditions: Weight Loss; Diet Modification; Aging; Weight Change, Body; Osteopenia, Osteoporosis; Obesity; Dietary Habits; Bone Loss; Fractures, Bone
• Interventions: Behavioral: Weight loss intervention months 0-6; Behavioral: Exercise intervention months 0-6; Dietary Supplement: NutraBio™ CarboMax Supplement; Dietary Supplement: 6-month NutraBio™ 100% Whey Protein Isolate Supplement; Dietary Supplement: 18-month NutraBio™ 100% Whey Protein Isolate Supplement

• Registration Number: NCT03819478
• Lead Sponsor: Wake Forest University Health Sciences

Brief Summary

This study is an ancillary study to the Utilizing Protein During Weight Loss to Impact Physical Function (UPLIFT) trial (NCT03074643) to evaluate the effects of diet composition (i.e., amount of protein and carbohydrate) during a 6-month weight loss intervention and 12-months of follow-up on bone phenotypes in obese older adults. Participants will receive either a protein or carbohydrate supplement along with a behavioral weight loss intervention.

Detailed Description

The ancillary study to the UPLIFT trial (NCT03074643) will use a 3-group design in 225 obese (body mass index \[BMI\] 30-45 kg/m2 or 27-\<30 kg/m2 with an obesity-related risk factor), older (65-85 years) men and women at risk for disability (Short Physical Performance Battery, SPPB ≤10) who will undergo a 6-month weight loss intervention followed by a 12-month follow-up phase to test the overall hypothesis that a higher protein (1.2 g/kg body weight/day) / lower carbohydrate (CHO) diet during a 6-month weight loss intervention improves bone phenotypes compared with an isocaloric lower protein (the current Recommended Dietary Allowance (RDA), 0.8 g/kg body wt/d) / higher CHO diet, and whether continuing a higher protein / lower CHO diet for 12-months following weight loss will result in better maintenance of bone. All participants will undergo a 6-month weight loss intervention involving caloric restriction and supervised exercise followed by 12 months of follow-up with randomization to one of three groups (n=75/group): 1) Lower protein / higher CHO diet for the 6-month weight loss phase only (RecProt); 2) Higher protein / lower CHO diet for the 6-month weight loss phase only (6-mo HiProt); or 3) Higher protein / lower CHO diet for the 6-month weight loss and 12-month follow-up phases (18-mo HiProt). Vertebral and femoral volumetric bone mineral density and cortical thickness (Primary Aim) and bone marrow adipose tissue (Secondary Aim 1) will be assessed with computed tomography at baseline, 6-, and 18-months. Bone strength and fracture risk (Secondary Aim 2) will be assessed by finite element modeling at baseline, 6-, and 18-months.

Study Timeline

• Study Start: 2017-05-03
• Study First Submitted: 2019-01-18
• Study First Submitted QC: 2019-01-24
• Study First Posted: 2019-01-28
• Status Verified: 2021-12
• Primary Completion: 2022-04-28
• Study Completion: 2022-04-28
• Disposition First Submitted: 2023-04-06
• Disposition First Posted: 2023-04-24
• Results First Submitted: 2023-11-27
• Results First Submitted QC: 2023-12-22
• Last Update Submitted: 2023-12-22
• Results First Posted: 2024-01-19
• Last Update Posted: 2024-01-19

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 187

Inclusion Criteria

• 65-85 years

• BMI: 30-45 kg/m2 or BMI 27.0 - <30.0 AND at least one of the following risk factors:

  1. elevated waist circumference (>35 inches in women, >40 inches in men)
  2. diabetes,
  3. hypertension,
  4. dyslipidemia,
  5. or other obesity-related comorbidities: clinically manifest coronary artery disease [e.g., history of myocardial infarction, angina pectoris, coronary artery surgery, coronary artery procedures (e.g., angioplasty) if not within the past year], other atherosclerotic disease [e.g., peripheral arterial disease, abdominal aortic aneurysm, symptomatic carotid artery disease if not within the past year], sleep apnea, or osteoarthritis of the knee or hip.

• No regular resistance training and/or aerobic exercise (>20 mins/d) for past 6 months

• SPPB ≥3 to ≤10

• No contraindications for safe and optimal participation in exercise training

• Approved for participation by Medical Director (Dr. Lyles)

• Willing to provide informed consent

• Agree to all study procedures and assessments

• Willing to consume protein/CHO supplements for up to 18 months

• Able to provide own transportation to study visits and intervention sessions

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Exclusion Criteria

• Weight loss (≥5%) in past 6 months
• Dependent on cane or walker
• Cognitive impairment (Montreal Cognitive Assessment, MoCA score <22)
• Severe arthritis, or other musculoskeletal disorder
• Joint replacement or other orthopedic surgery in past year
• Uncontrolled resting hypertension (>160/90 mmHg);
• Uncontrolled diabetes (hemoglobin A1c, HbA1c ≥8.0%)
• Current or recent past (within 1 year) severe symptomatic heart disease, uncontrolled angina, stroke, chronic respiratory disease requiring oxygen; uncontrolled endocrine/metabolic disease; neurological or hematological disease; cancer requiring treatment in past year, except non-melanoma skin cancers; liver or renal disease; or clinically evident edema
• Unstable Severe Depression
• Serious conduction disorder, uncontrolled arrhythmia, or new Q waves or ST-segment depressions (>3 mm at rest or ≥2 mm with exercise)
• Abnormal kidney function (estimated glomerular rate <30 based on serum creatinine, age, gender, and race)
• Anemia (Hb<13 g/dL in men; <12 g/dL in women)
• Drug abuse or excessive alcohol use (>7 drinks/week women; >14 drinks/week men)
• Use of any tobacco or nicotine products in the past year
• Osteoporosis (T-score < -2.5 on hip or spine scan)
• Regular use of growth/steroid hormones, sex steroids or corticosteroids
• Osteoporosis medication
• Protein supplements (and unwilling to stop using for duration of study)
• Weight loss medications or procedures
• Current participation in another intervention study

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Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
6-mo HiProt	Weight loss intervention months 0-6	Subjects receiving the following interventions in the parent trial (UPLIFT; NCT03074643): Higher protein / lower CHO diet for the 6-month weight loss phase. Exercise intervention months 0-6. Weight loss intervention months 0-6. Protein supplement for months 0-6 (blinded). Follow-up months 7-18.
RecProt	Weight loss intervention months 0-6	Subjects receiving the following interventions in the parent trial (UPLIFT; NCT03074643): Lower protein / higher CHO diet for the 6-month weight loss phase. Exercise intervention months 0-6. Weight loss intervention months 0-6. Carbohydrate supplement for months 0-6 (blinded). Follow-up months 7-18.
RecProt	Exercise intervention months 0-6	Subjects receiving the following interventions in the parent trial (UPLIFT; NCT03074643): Lower protein / higher CHO diet for the 6-month weight loss phase. Exercise intervention months 0-6. Weight loss intervention months 0-6. Carbohydrate supplement for months 0-6 (blinded). Follow-up months 7-18.
RecProt	NutraBio™ CarboMax Supplement	Subjects receiving the following interventions in the parent trial (UPLIFT; NCT03074643): Lower protein / higher CHO diet for the 6-month weight loss phase. Exercise intervention months 0-6. Weight loss intervention months 0-6. Carbohydrate supplement for months 0-6 (blinded). Follow-up months 7-18.
6-mo HiProt	6-month NutraBio™ 100% Whey Protein Isolate Supplement	Subjects receiving the following interventions in the parent trial (UPLIFT; NCT03074643): Higher protein / lower CHO diet for the 6-month weight loss phase. Exercise intervention months 0-6. Weight loss intervention months 0-6. Protein supplement for months 0-6 (blinded). Follow-up months 7-18.
18-mo HiProt	Weight loss intervention months 0-6	Subjects receiving the following interventions in the parent trial (UPLIFT; NCT03074643): Higher protein / lower CHO diet for the 6-month weight loss and 12-month follow-up phases. Exercise intervention months 0-6. Weight loss intervention months 0-6. Protein supplement for months 0-6 (blinded). Protein supplement for follow-up months 7-18.
18-mo HiProt	18-month NutraBio™ 100% Whey Protein Isolate Supplement	Subjects receiving the following interventions in the parent trial (UPLIFT; NCT03074643): Higher protein / lower CHO diet for the 6-month weight loss and 12-month follow-up phases. Exercise intervention months 0-6. Weight loss intervention months 0-6. Protein supplement for months 0-6 (blinded). Protein supplement for follow-up months 7-18.
18-mo HiProt	Exercise intervention months 0-6	Subjects receiving the following interventions in the parent trial (UPLIFT; NCT03074643): Higher protein / lower CHO diet for the 6-month weight loss and 12-month follow-up phases. Exercise intervention months 0-6. Weight loss intervention months 0-6. Protein supplement for months 0-6 (blinded). Protein supplement for follow-up months 7-18.
6-mo HiProt	Exercise intervention months 0-6	Subjects receiving the following interventions in the parent trial (UPLIFT; NCT03074643): Higher protein / lower CHO diet for the 6-month weight loss phase. Exercise intervention months 0-6. Weight loss intervention months 0-6. Protein supplement for months 0-6 (blinded). Follow-up months 7-18.

Primary Outcome Measures

Name	Time	Method
18-month Change From Baseline in Total Hip Trabecular Volumetric Bone Mineral Density Assessed by Computed Tomography (CT) in mg/cm^3	Change from Baseline to Month 18	To determine the effects of a higher protein / lower CHO diet vs. lower protein / higher CHO diet on the 18-month change from baseline in total hip trabecular volumetric bone mineral density (vBMD). Total hip trabecular vBMD (in mg/cm\^3) was measured from the baseline and 18-month quantitative CT scans using the Mindways Model 3 phantom to calibrate the vBMD measures. The 18-month change in total hip trabecular vBMD from baseline is reported for this outcome measure.

Secondary Outcome Measures

Name	Time	Method
18-month Change From Baseline in Femoral Bone Strength in kN	Change from Baseline to Month 18	Subject-specific finite element models were created from the baseline and 18-month CT scans and femoral bone strength was assessed from a simulated test of a sideways fall. Bone strength was measured as the peak section force extracted at the femoral neck to determine the effects of a higher protein / lower CHO diet vs. lower protein / higher CHO diet on the 18-month change from baseline in femoral bone strength.
6-month Change From Baseline in Femoral Cortical Thickness Assessed by Computed Tomography (CT) in mm	Change from Baseline to Month 6	Cortical thickness of the proximal femur was assessed by a computed tomography (CT) based algorithm to determine the effects of a higher protein / lower CHO diet vs. lower protein / higher CHO diet on the 6-month change from baseline in femoral cortical thickness. Cortical thickness was measured from the baseline and 6-month CT scans, and the 6-month change from baseline (in mm) is reported for this outcome measure.
18-month Change From Baseline in Vertebral Volumetric Bone Mineral Density in the Lumbar Spine Assessed by Computed Tomography (CT) in mg/cm^3	Change from Baseline to Month 18	To determine the effects of a higher protein / lower CHO diet vs. lower protein / higher CHO diet on the 18-month change from baseline in vertebral volumetric bone mineral density (vBMD) in the lumbar spine. Trabecular vBMD (in mg/cm\^3) was measured from the baseline and 18-month quantitative CT scans using the Mindways Model 3 phantom to calibrate the vertebral vBMD measures. The 18-month change in vertebral vBMD in the lumbar spine from baseline is reported for this outcome measure.
6-month Change From Baseline in Vertebral Volumetric Bone Mineral Density in the Lumbar Spine Assessed by Computed Tomography (CT) in mg/cm^3	Change from Baseline to Month 6	To determine the effects of a higher protein / lower CHO diet vs. lower protein / higher CHO diet on the 6-month change from baseline in vertebral volumetric bone mineral density (vBMD) in the lumbar spine. Trabecular vBMD (in mg/cm\^3) was measured from the baseline and 6-month quantitative CT scans using the Mindways Model 3 phantom to calibrate the vertebral vBMD measures. The 6-month change in vertebral vBMD in the lumbar spine from baseline is reported for this outcome measure.
6-month Change From Baseline in Percentage of Adipose Tissue Within the Lumbar Spine Bone Marrow as Assessed by Dual-energy Computed Tomography Algorithm	Change from Baseline to Month 6	Percentage of adipose tissue within the lumbar spine bone marrow as assessed by a dual-energy computed tomography (CT) algorithm to determine the effects of a higher protein / lower CHO diet vs. lower protein / higher CHO diet. Percentage of adipose tissue within the bone marrow was measured from the baseline and 6-month dual-energy CT scans using a Mindways Model 3 phantom for calibration. The 6-month change in percentage of adipose tissue within the lumbar spine bone marrow from baseline is reported for this outcome measure.
18-month Change From Baseline in Percentage of Adipose Tissue Within the Lumbar Spine Bone Marrow as Assessed by Dual-energy Computed Tomography Algorithm	Change from Baseline to Month 18	Percentage of adipose tissue within the lumbar spine bone marrow as assessed by a dual-energy computed tomography (CT) algorithm to determine the effects of a higher protein / lower CHO diet vs. lower protein / higher CHO diet. Percentage of adipose tissue within the bone marrow was measured from the baseline and 18-month dual-energy CT scans using a Mindways Model 3 phantom for calibration. The 18-month change in percentage of adipose tissue within the lumbar spine bone marrow from baseline is reported for this outcome measure.
18-month Change From Baseline in Femoral Cortical Thickness Assessed by Computed Tomography (CT) in mm	Change from Baseline to Month 18	Cortical thickness of the proximal femur was assessed by a computed tomography (CT) based algorithm to determine the effects of a higher protein / lower CHO diet vs. lower protein / higher CHO diet on the 18-month change from baseline in femoral cortical thickness. Cortical thickness was measured from the baseline and 18-month CT scans, and the 18-month change from baseline (in mm) is reported for this outcome measure.
6-month Change From Baseline in Total Hip Trabecular Volumetric Bone Mineral Density Assessed by Computed Tomography (CT) in mg/cm^3	Change from Baseline to Month 6	To determine the effects of a higher protein / lower CHO diet vs. lower protein / higher CHO diet on the 6-month change from baseline in total hip trabecular volumetric bone mineral density (vBMD). Total hip trabecular vBMD (in mg/cm\^3) was measured from the baseline and 6-month quantitative CT scans using the Mindways Model 3 phantom to calibrate the vBMD measures. The 6-month change in total hip trabecular vBMD from baseline is reported for this outcome measure.
6-month Change From Baseline in Femoral Bone Strength in kN	Change from Baseline to Month 6	Subject-specific finite element models were created from the baseline and 6-month CT scans and femoral bone strength was assessed from a simulated test of a sideways fall. Bone strength was measured as the peak section force extracted at the femoral neck to determine the effects of a higher protein / lower CHO diet vs. lower protein / higher CHO diet on the 6-month change from baseline in femoral bone strength.

Trial Locations

Locations (1)

Geriatric Research Center at Wake Forest Baptist Health; 🇺🇸 Winston-Salem, North Carolina, United States