Age-Related Changes in Body Composition
- Advancing age is associated with greater risk of heart disease. High blood pressure and hardening of the arteries also have more complications with age. Studies suggest that age-related inflammation may affect fatty tissue in the body. If this fat develops in the muscles or around the heart, it may increase risks of heart disease. Researchers will study body composition in older adults to see if age-related changes in body fat are related to higher risks of heart disease.
- To study the relationship between fat deposits and aging, and greater risks of heart disease.
- Participants in the Baltimore Longitudinal Study of Aging between 50 and 80 years of age.
- Individuals between 50 and 80 years of age who have been diagnosed with coronary artery disease.
- Participants will be screened with a physical exam and medical history.
- Participants will provide blood and urine samples. They will also have their height and weight measured. Waist circumference will also be taken.
- Participants will have a DEXA scan to study their muscles.
- Participants will have magnetic resonance imaging scans. These scans will study heart function and muscle and blood vessel health.
- Participants with coronary artery disease will have catheterization. Blood samples will be collected during the procedure.
|Study Design:||Time Perspective: Prospective|
|Official Title:||Age-Associated Changes in Regional Adiposity and Novel Cardiovascular Risk Factors|
|Study Start Date:||January 2012|
Advancing age is associated with an increasing prevalence, incidence, and complications of cardiovascular diseases, particularly hypertension and atherosclerosis. The reasons why age is associated with increased susceptibility to cardiovascular diseases are not understood but recent literature suggests that systemic inflammation, by affecting endothelial function, vascular stiffening, diastolic dysfunction and insulin resistance may be an important contributing cause. Aging is also associated with substantial changes in body composition, primarily an increase in fat mass and a decline in lean body mass. Studies in animal models and in humans have shown that the adipose tissue is an important source of pro-inflammatory mediators and suggested that changes in body composition may be the primary cause of the pro-inflammatory state of aging. A number of gene expression studies in animal models show that genes of several pro-inflammatory cytokines are over-expressed with aging, especially in the adipose tissue. The overproduction of pro-inflammatory cytokines have important systemic effects, including (1) endothelial dysfunction, one of the earliest features of atherosclerosis; (2) vascular stiffening, the primary etiology for isolated systolic hypertension in the elderly; and (3) insulin resistance, the principal metabolic abnormality associated with cardiovascular risk. Fat infiltration in the liver also promotes chronic inflammation both directly and by inducing apoptosis of hepatocytes with consequent inflammatory response and deterioration of liver function.
Limited data exists suggesting that deposition of adipose tissue in specific districts but not in others is associated with high circulating levels of pro-inflammatory markers. For example, in humans central adiposity, including fat accumulation surrounding the heart, and fat infiltration in the muscle, opposed to subcutaneous adiposity seems to be particularly pro-inflammatory. However, this information comes from small studies, or studies limited to a very narrow age-range. In addition, the assessment of regional adiposity was mostly based on anthropometrics. Indeed, non-invasive methodology for the assessment of regional lipid deposition profiles has become available only recently.
We propose to complement the BLSA population with a group of individuals with established CAD because the inclusion of this group may help to determine whether, and if so the extent to which, the expected relationships between body adiposity, inflammation, endothelial dysfunction, arterial stiffness and insulin resistance are different in healthy individuals compared to age-matched individuals with clinically overt vascular disease.
As a side hypothesis, we will also verify whether changes in Testosterone with age are associated with changes in regional fat accumulation. To test this hypothesis we will measure total, free and biovailable Testosterone in all participants.
|Contact: Linda M Zukley, R.N.||(863) firstname.lastname@example.org|
|Contact: Luigi Ferrucci, M.D.||(410) email@example.com|
|United States, Maryland|
|Johns Hopkins University||Recruiting|
|Baltimore, Maryland, United States, 21205|
|National Institute of Aging, Clinical Research Unit||Recruiting|
|Baltimore, Maryland, United States, 21224|
|Principal Investigator:||Luigi Ferrucci, M.D.||National Institute on Aging (NIA)|