Role of Flavanols In Cardiovascular Function in Healthy Aging

NCT ID: NCT01395277

Last Updated: 2015-08-10

Basic Information

• Recruitment Status: COMPLETED
• Clinical Phase: NA
• Total Enrollment: 30 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2011-09-30
• Study Completion Date: 2014-05-31

Brief Summary

Groups of naturally occurring compounds called flavonoids are found in foods such as fruits and vegetables, red wine, tea, dark chocolate and cocoa products. Diets rich in flavonoids are associated with decreased risk for cardiovascular disease and major cardiovascular events (i.e. myocardial infarction) and have been shown to improve blood pressure, insulin sensitivity, and vascular function in a variety populations (Type II diabetes, elderly, smokers, etc.). The presumed beneficial effects of these compounds are thought to act through their inherent ability to scavenge free radicals. Specifically flavonoids scavenge superoxide anions which are free radicals that react with nitric oxide (NO) to produce peroxynitrite. The formation of peroxynitrite ultimately reduces the bioavailability of NO which is essential for vasodilation and thus vascular health and function. Normal aging is associated with impaired endothelial function, which presumably is due to less than optimal levels of NO bioavailability. Therefore, interventions that can increase NO bioavailability would be expected to improve microvascular function and vascular health in this population. The purpose of this study is to investigate the effects of dietary flavonoid supplementation on the vasodilatory capacity of the cutaneous vasculature, as well as on cerebral vascular reactivity and arterial stiffness in young and old humans. This study will test the hypothesis that acute dietary flavonoid treatment will improve impaired cutaneous vasodilatory capacity, cerebral vasomotor reactivity, and reduce arterial stiffness in older but not young humans.

Detailed Description

Role of nitric oxide in vascular function. Nitric oxide (NO) is an important signaling molecule involved in many physiological processes. Of particular interest is its role in endothelial function and blood flow regulation. In response to heat or sheer stress against the walls of blood vessels, the endothelial layer of blood vessels releases NO, which causes smooth muscle in the vessel wall to relax and the vessel to dilate. Environmental heat-stress leads to an increase in skin blood flow to allow for improved heat loss from the body surface to the environment, and relies on NO. Normal aging reduces NO bioavailability leading to an impaired ability to increase skin blood flow in response to environmental heat-stress. Additionally, cerebral blood flow is reduced and arterial stiffness is increased in the normal aging process which is at least partially attributed to reductions in NO bioavailability.

Effects of dietary flavonoids. As previously mentioned Flavonoids are a group of natural compounds found in vegetables, fruits, wine, tea, and cocoa. Flavanols are a subfamily of flavonoids, and are quantitatively the most important compound in flavonoid family in western diets. Flavanol intake has been shown to improve vascular health, as well as increase insulin sensitivity, decrease blood pressure, reduce platelet aggregation, and enhance cerebral blood flow. The basic chemical features of flavanol allows them to act as classic antioxidants to scavenge free-radicals decreasing oxidant level in cells. High levels of free radicals, especially superoxide, can reduce the bioavailability of NO and thus any NO-mediated actions. Cocoa and cocoa products are potent sources of flavanols, and therefore have been used extensively as a dietary intervention to study the effects of flavanol supplementation on various disease states.

Impairments in vascular health in the normal aging process. The ability to increase skin blood flow in response to environmental heat-stress is lost with normal aging, especially when individuals exceed 65 years of age. An attenuated skin blood flow response during exposure to environmental heat stress would place these older individuals at an increased risk for heat-related illness or death. The ability to raise skin blood flow with rising skin temperature has been demonstrated to have a large nitric oxide component, so a deficit in NO bioavailability, which is also consistently observed in aging populations, could presumably lead to the attenuated skin blood flow response to heat stress. Furthermore, it is well documented that cerebral blood flow is reduced while arterial stiffness is increased in the normal aging process. In regard to the reduction in NO in aging populations, flavanol supplementation has been shown to decrease production of free radicals, which can scavenge and reduce NO levels thereby improving indices of vascular health including flow mediated vasodilation. Therefore, flavanol supplementation may maintain NO bioavailability at optimal levels, and provide a feasible way for aging populations to maintain vascular health and prevent heat-related illness and death.

Significance:

This study will address the mechanisms of impaired cutaneous and cerebral blood flow as well as increased arterial stiffness that can occur in aging populations. Furthermore, if the hypothesis is correct, findings from this study will provide evidence for the efficacy of flavanols to be used (as a simple and safe lifestyle intervention) to reverse or combat impaired vascular function that commonly occurs in older individuals.

Conditions

Aging

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: CROSSOVER
• Primary Study Purpose: BASIC_SCIENCE
• Blinding Strategy: DOUBLE

Study Groups

High Flavanol first then Low Flavanol

The measurements will be made on all study participants on two separate occasions; 1) before and 2 hours following consumption of a beverage with "high" flavanol content and 2) before and 2 hours following consumption of a beverage with "low" flavanol content.

Group Type: EXPERIMENTAL

High Flavanol first then Low Flavanol

Intervention Type: DIETARY_SUPPLEMENT

The high flavanol trial will be performed following consumption of a beverage containing 1,050 mg of commercially available Cocoa Flavanols which will be mixed into 250 ml of distilled water. The subjects will consume this beverage and measurements will be performed 2 hours after consumption. The low flavanol trial will be performed following consumption of a beverage containing 0 mg of Cocoa Flavanols which will be mixed into 250 ml of distilled water. The subjects will consume this beverage and measurements will be performed 2 hours after consumption.

Low Flavanol first then High Flavanol

The measurements will be made on all study participants on two separate occasions; 1) before and 2 hours following consumption of a beverage with "low" flavanol content and 2) before and 2 hours following consumption of a beverage with "high" flavanol content.

Group Type: EXPERIMENTAL

Low Flavanol first then High Flavanol

Intervention Type: DIETARY_SUPPLEMENT

The low flavanol trial will be performed following consumption of a beverage containing 0 mg of Cocoa Flavanols which will be mixed into 250 ml of distilled water. The subjects will consume this beverage and measurements will be performed 2 hours after consumption. The high flavanol trial will be performed following consumption of a beverage containing 1,050 mg of commercially available Cocoa Flavanols which will be mixed into 250 ml of distilled water. The subjects will consume this beverage and measurements will be performed 2 hours after consumption.

Interventions

High Flavanol first then Low Flavanol

The high flavanol trial will be performed following consumption of a beverage containing 1,050 mg of commercially available Cocoa Flavanols which will be mixed into 250 ml of distilled water. The subjects will consume this beverage and measurements will be performed 2 hours after consumption. The low flavanol trial will be performed following consumption of a beverage containing 0 mg of Cocoa Flavanols which will be mixed into 250 ml of distilled water. The subjects will consume this beverage and measurements will be performed 2 hours after consumption.

Intervention Type: DIETARY_SUPPLEMENT

Low Flavanol first then High Flavanol

The low flavanol trial will be performed following consumption of a beverage containing 0 mg of Cocoa Flavanols which will be mixed into 250 ml of distilled water. The subjects will consume this beverage and measurements will be performed 2 hours after consumption. The high flavanol trial will be performed following consumption of a beverage containing 1,050 mg of commercially available Cocoa Flavanols which will be mixed into 250 ml of distilled water. The subjects will consume this beverage and measurements will be performed 2 hours after consumption.

Intervention Type: DIETARY_SUPPLEMENT

Other Intervention Names

dark chocolate beverage; chocolate; Mars Incorporated

Eligibility Criteria

Inclusion Criteria

• Males and Females between 18 - 26 years old
• Males and Females between 65 - 80 years old

Exclusion Criteria

• cardiovascular disease
• metabolic disease
• neurological disease
• Pregnant lady
• Current smoker (or regularly smoked within last year)
• Currently taking medications known to effect the autonomic nervous system

• Minimum Eligible Age: 18 Years
• Maximum Eligible Age: 80 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: Yes

Sponsors

University of Texas at Austin

OTHER

Sponsor Role: lead

Responsible Party

Robert M. Brothers

Assistant Professor

Responsibility Role: PRINCIPAL_INVESTIGATOR

Principal Investigators

R. Matthew Brothers, PhD

Role: PRINCIPAL_INVESTIGATOR

University of Texas at Austin

Locations

University of Texas at Austin: Environmental and Autonomic Physiolgy Laboratory

Austin, Texas, United States

Countries

United States

Other Identifiers

2011-05-0029

Identifier Type: -

Identifier Source: org_study_id