Trials / Completed

CompletedNCT02209025

Theobromine, Vascular Function and Intestinal apoA-I Production

The Effects of Short-term Theobromine Supplementation on Vascular Function and Intestinal apoA-I Production in Fasting and in the Postprandial State

Summary

Rationale: Despite successful efforts to lower atherogenic serum low-density lipoprotein (LDL) cholesterol concentrations, a substantial residual cardiovascular risk remains. An additive strategy to further lower this residual risk may be via raising high-density lipoprotein (HDL) concentrations, and in particular those of its major protein constituent apolipoprotein A-I (apoA-I). Based on several studies, theobromine may be a promising candidate in this respect. Recently, theobromine was shown to increase serum HDL cholesterol (HDL-C) concentrations by 0.16 mmol/L or 10% and apoA-I levels with 8%. The question is whether this increase in HDL-C and apoA-I concentrations observed translates into an improved functionality of the blood vessels. Effects of theobromine on vascular function have never been evaluated in a placebo controlled human intervention study. Objective: The primary objective is to evaluate the long-term effects of theobromine on vascular function in healthy subjects with a slightly lowered HDL-C in the fasting and the postprandial state. The second primary objective is to evaluate the long-term effects of theobromine on intestinal apoA-I mRNA and protein expression levels in healthy subjects with a slightly lowered HDL-C in the fasting and the postprandial state. Secondary objectives are to study the long-term effects of theobromine on (1) fasting serum HDL-C concentrations, (2) cholesterol efflux capacity and (3) postprandial lipid and glucose metabolism. Study design: A randomized, double-blind, placebo controlled cross-over design. The total study duration will be 12 weeks, consisting of a 4 week experimental period, a 4 week wash-out, and a 4 week control period. At the end of the experimental and control periods, a postprandial test will take place. Study population: Forty-eight healthy men aged 45-70 years and women aged 50-70 years, with slightly lowered HDL-C concentrations (men \<1.3 mmol/L and women \<1.5 mmol/L). Intervention: During the experimental period, subjects will consume daily at breakfast an drink containing 500 mg theobromine. During the placebo period, the subjects will consume daily at breakfast the same drink without theobromine. During the wash-out period, they will not consume any of the drinks. Main study parameters/endpoints: Measurements will be performed at the end of both 4-week intervention periods. The effects of theobromine will be calculated as the absolute differences between values obtained at the end of each period. The primary endpoint is the change in vascular function defined as % change in flow-mediated dilation (FMD) after intake of a daily stressor, a milkshake providing all the three different macronutrients. The second primary endpoint is the change in apoA-I mRNA and protein expression on the end of each period 5 hours after intake of the milkshake.

Detailed description

Rationale: Despite successful efforts to lower atherogenic serum low-density lipoprotein (LDL) cholesterol concentrations, a substantial residual cardiovascular risk remains. An additive strategy to further lower this residual risk may be via raising high-density lipoprotein (HDL) concentrations, and in particular those of its major protein constituent apolipoprotein A-I (apoA-I). Based on several studies, theobromine may be a promising candidate in this respect. Recently, theobromine was shown to increase serum HDL cholesterol (HDL-C) concentrations by 0.16 mmol/L or 10% and apoA-I levels with 8%. The question is whether this increase in HDL-C and apoA-I concentrations observed translates into an improved functionality of the blood vessels. Effects of theobromine on vascular function have never been evaluated in a placebo controlled human intervention study. Objective: The primary objective is to evaluate the long-term effects of theobromine on vascular function in healthy subjects with a slightly lowered HDL-C in the fasting and the postprandial state. The second primary objective is to evaluate the long-term effects of theobromine on intestinal apoA-I mRNA and protein expression levels in healthy subjects with a slightly lowered HDL-C in the fasting and the postprandial state. Secondary objectives are to study the long-term effects of theobromine on (1) fasting serum HDL-C concentrations, (2) cholesterol efflux capacity and (3) postprandial lipid and glucose metabolism. Study design: A randomized, double-blind, placebo controlled cross-over design. The total study duration will be 12 weeks, consisting of a 4 week experimental period, a 4 week wash-out, and a 4 week control period. At the end of the experimental and control periods, a postprandial test will take place. Study population: Forty-eight healthy men aged 45-70 years and women aged 50-70 years, with slightly lowered HDL-C concentrations (men \<1.3 mmol/L and women \<1.5 mmol/L). Intervention: During the experimental period, subjects will consume daily at breakfast an drink containing 500 mg theobromine. During the placebo period, the subjects will consume daily at breakfast the same drink without theobromine. During the wash-out period, they will not consume any of the drinks. Main study parameters/endpoints: Measurements will be performed at the end of both 4-week intervention periods. The effects of theobromine will be calculated as the absolute differences between values obtained at the end of each period. The primary endpoint is the change in vascular function defined as % change in flow-mediated dilation (FMD) after intake of a daily stressor, a milkshake providing all the three different macronutrients. The second primary endpoint is the change in apoA-I mRNA and protein expression on the end of each period 5 hours after intake of the milkshake. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: Before the study, subjects will be screened twice to determine eligibility during two visits of 15 minutes. During these visits, body weight, height and blood pressure will be measured. In addition, a venous blood sample (5.5 mL at each occasion) will be drawn. During the study, subjects will receive the control and theobromine drinks in random order. At day 1 and 14 a fasting venous blood sample (16.5 mL and 7 mL respectively) will be drawn and body weight and blood pressure will be measured. At days 25 and 81 again a fasting blood sample will be drawn (28 mL). In addition, at day 28 of each experimental period, at t=0 hours, a fasting venous blood sample (30 mL) will be drawn and vascular function will be measured, followed by a 2.5 h postprandial test with again the vascular function measurements. As postprandial meal, subjects will receive a high-fat milkshake. Before the postprandial test a cannula will be placed and blood will be sampled at t=0, 15, 30, 45, 60, 90, 120 and 240 (total volume 129.5 mL). Thus, during the entire 13 (screening and study) weeks period, in total 444 mL blood will be drawn. Vascular function measurements include a panel of non-invasive measurements, i.e. FMD, endo peripheral artherial tonometry (endoPAT), pulse wave velocity (PWV) and retinal imaging. Subjects will be asked to fill out a food frequency questionnaire two times and to keep a study-diary throughout 12 weeks. On rare occasions, blood sampling might cause bruises or hematoma. The vascular function measurements are non-invasive and will cause no burden. In a subgroup of 10 volunteers, 5 hours after the start of the postprandial test, small intestinal biopsies will be taken in the duodenum to determine the difference in intestinal apoA-I mRNA and protein expression. Obtaining small intestinal biopsies by standard flexible gastroscopy induces local discomfort in the pharynx only during the procedure, which takes about 15 minutes, and causes a theoretical risk for perforations (1:1000) and an infection risk of 1:1.800.000, with lower risk for healthy subjects. The complication is serious and subjects will have to stay in the hospital. If there are serious complaints after the gastroscopy (e.g. vomiting with or without blood, or stomach ache) subjects are have to warn the project leader or their physician. Total time investment for the subjects will be approximately 14.5 hours, and 17.5 hours in the subgroup from which biopsies will be taken, excluding travel time.

Conditions

• Cardiovascular Disease

Interventions

Timeline

Start date

2014-06-01

Primary completion

2015-09-01

Completion

2015-09-01

First posted

2014-08-05

Last updated

2015-09-07

Locations

1 site across 1 country: Netherlands

Source: ClinicalTrials.gov record NCT02209025. Inclusion in this directory is not an endorsement.