Patients with obesity and cirrhosis benefit from weight loss but are prone to sarcopenia (loss of muscle mass, strength, and function). This study proposes to test a specialized weight loss program Alternative-day Modified Fasting (ADMF) designed to promote weight loss and preserve skeletal muscle mass, strength, and function in patients with both Child-Pugh (CP) class A cirrhosis and obesity. This study will compare the effectiveness of the ADMF to Continuous Energy Restriction (CER) for 24-weeks. Both arms will receive a high-protein, high-BCAA diet, a late-night snack, supervised aerobic and resistance exercise, increased physical activity through self-monitoring, and group behavioral counseling. The primary aim of this trial is to evaluate the feasibility and acceptability of ADMF and CER for 6 months in patients with cirrhosis and obesity. The secondary aim is to compare changes in body composition in both diets.
Patients with both cirrhosis and obesity benefit from weight loss, though patients with cirrhosis are prone to sarcopenia due to accelerated rates of protein turnover, and weight loss typically involves 20-30% of weight loss from lean mass. Prior research indicates that increased intake of high-quality protein, reduced fasting duration, and regular physical activity (particularly resistance training) can improve body composition in patients with cirrhosis. However, weight loss programming specifically tailored to retain lean mass in patients with cirrhosis has not been thoroughly investigated. Further, preliminary data suggests that alternate-day modified fasting, a form of intermittent fasting, may promote lean mass retention during weight loss. Here, this study will compare a weight loss program in patients with both Child-Pugh Class A cirrhosis and obesity using either a standard low-calorie diet (1,200 - 1,500 kcal/day) or alternate day modified fasting featuring a very-low-calorie diet 2-3 days per week for feasibility, satisfaction, and changes in body composition. Both groups will receive a behavioral weight loss program featuring portion-controlled meals and supervised group exercise.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
20
Energy intake will be prescribed at approximately 1,200-1,500 kcal/day with high protein. The diet will consist of low-calorie shakes provided by the study, as well as commercially available portion-controlled entrées, fruits/vegetables, and low energy-density foods available in grocery stores.
Enhanced Care participants will have an alternate between three days of very-low energy intake (VLED; approximately 600-800 kcal/d) and four days of healthy eating (HE) each week. On HE days, participants will consume foods ad libitum for satiety.
Using video conferencing, all participants will attend weekly approximately 45-60 minutes group health education sessions led by a registered dietitian. The session will deliver a comprehensive nutritional and lifestyle change program to promote lifestyle changes and improve compliance.
The participants will have a late evening snack with a protein supplement.
All participants will be prescribed moderate-intensity aerobic activities that do not require access to specialized exercise facilities.
Weekly data related to adherence, food intake, physical activity, weight measurement, and nonserious adverse events will be self-reported via a REDCap survey. Participants will also be provided with a wireless activity tracker to measure total physical activity and intensity of activity objectively. These data will be used to counsel participants in addition to providing valuable feasibility data.
Sessions of 45 minutes duration will be delivered via video conferencing 2-3 times per week.
University of Kansas Medical Center
Kansas City, Kansas, United States
Compare changes in body composition in both diets
The primary outcome is the percent of weight lost as fat-free mass at 24 weeks. Body weight and body composition (as assessed by dual x-ray absorptiometry) will be measured at baseline, week 12, and post-intervention. Percent weight loss from fat-free mass will be calculated as \[Δ fat-free mass / Δ weight loss\] for all participants who lose at least 3% of initial body weight. If \>70% of participants lose at least 80% of weight from fat mass (or no more than 20% of weight loss coming from lean mass) we will proceed to testing this intervention in an adequately powered trial.
Time frame: Baseline, 12 weeks and 24 weeks.
Frailty, Subjective
Karnofsky Performance Status (KPS). The KPS allows patients to be classified as to their functional impairment. This can be used to compare effectiveness of different therapies and to assess the prognosis in individual patients. The lower the KPS, the worse the survival for most serious illnesses.
Time frame: Baseline, 12 weeks and 24 weeks.
Frailty, Objective
The Liver Frailty Index (LFI), composed of 3 performance-based tests (grip strength, chair stands, and balance), is a tool specifically developed in patients with cirrhosis to objectively measure physical function, a critical determinant of health outcomes.
Time frame: Baseline, 12 weeks and 24 weeks.
Health Related Quality of Life
Health-related quality of life (HRQOL) is a multi-dimensional concept commonly used to examine the impact of health status on quality of life. HRQOL is often measured by four core questions that asked about general health status and number of unhealthy days.
Time frame: Baseline, 12 weeks and 24 weeks.
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