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V. The Effects of Aging and Testosterone on Lipids and Cardiovascular Risk

University of Washington and VA Puget Sound Health Care System (III) Seattle, Washington 98108

	Aging and plasma lipids and lipoproteins

Top Aging and plasma lipids... References

 
IN prepubertal children plasma levels of lipoproteins and triglycerides show no gender difference. During puberty plasma levels of HDL decline in boys, while plasma triglycerides and LDL increase slightly. The adult male generally has lower levels of HDL cholesterol and higher levels of LDL and triglycerides than does the premenopausal woman (1). After menopause HDL levels in females tend to remain approximately the same, but plasma LDL levels increase considerably (1), contributing to the greater incidence of coronary artery disease in postmenopausal women.

In contrast, large epidemiological studies show that plasma HDL levels in elderly men are actually slightly higher than in middle-aged men (2). One explanation for this phenomenon is that individuals with lower HDL levels succumb to atherosclerotic disease earlier in life so that, by a process of elimination, men with higher levels of HDL cholesterol tend to survive to older age. Alternatively, higher HDL levels in older men could be associated with the age-related decline in circulating androgens. Again, in contrast to the pattern seen in women, LDL levels in men increase slowly but progressively from the late teenage years to the mid 50’s, at which point they become relatively constant. In the Lipid Research Prevalence study (2), mean LDL levels in women over the age of 60 were in fact slightly higher than mean levels seen in men of the same age.

Effects of T on plasma lipids and cardiovascular risk

The majority of cross-sectional studies of androgens and plasma HDL levels show a positive relationship between serum T levels and corresponding levels of HDL cholesterol (reviewed in 1). In contrast, most studies of T administration in young, hypogonadal or eugonadal men demonstrate a decrease in HDL cholesterol of 5–15% as T levels are raised (1); the magnitude of decrease has tended to be greater in subjects with higher baseline levels of HDL. In general, plasma LDL and triglyceride levels have remained unchanged in these experimental paradigms. Recent data suggest that in young men, supraphysiological levels of T may also suppress levels of lipoprotein (a) [Lp(a)], which is generally acknowledged as an independent risk factor for coronary artery disease. As with HDL, this effect is most noticeable in subjects with high baseline levels (3). Thus, the net effects of T on plasma lipids are complex and may vary from individual to individual, depending in part on that person’s baseline lipoprotein profile.

Clearly there is a discrepancy between the results of the cross-sectional and interventional studies of the association between androgens and lipids. However, both HDL cholesterol and testosterone may be influenced by multiple factors including disease states, lifestyle (for example smoking, exercise), and factors such as body mass index, fat distribution, and waist-to-hip ratio. In general, factors that decrease HDL cholesterol also decrease testosterone levels. It is therefore possible that such factors could explain the population findings that men with higher T levels also have higher levels of HDL cholesterol and lower levels of triglycerides.

It should be noted that the aforementioned changes in plasma lipids are in response to administration of aromatizable androgens such as T enanthate or T cypionate. When nonaromatizable, particularly oral, androgens such as stanozolol or methyltestosterone are administered, HDL levels decrease profoundly whereas LDL levels increase significantly (1). There are several case reports of stroke and myocardial infarction in young users of high doses of nonaromatizable androgens (4).

In addition to their effects on lipids, androgens may serve as regulators of other factors contributing to cardiac risk. In animals, androgens act as vasodilators (5), but in the human male, plasma levels of the vasoconstrictor endothelin are higher than in the female (6). Visceral fat accumulation is generally believed to increase risk for atherosclerotic disease. A few recent studies have shown that, in both young and middle-aged men, androgen administration is associated with a reduction in visceral fat accumulation in the abdomen (7, 8). In one very recent report, lower T levels were predictive of increases in abdominal fat in normal men assessed prospectively over 7.5 yr (9).

T administration and cardiovascular risk in older men

There are relatively few data regarding T effects on cardiovascular risk factors in older men. In one long-term study of a very low dose of T cypionate (25 mg im, weekly for 4 yr) HDL cholesterol levels did not change during treatment, and total and LDL cholesterol levels decreased significantly (10). Studies of higher doses of T, used for shorter periods of time, have also demonstrated significant decreases in total and LDL cholesterol levels (11, 12, 13). In these studies, HDL cholesterol levels were either unchanged or showed a nonsignificant decrease in response to the higher ambient T levels. It is presently unknown whether androgens have a different mechanism of action on plasma lipids in older men than in younger men.

Also unknown at this time is the effect of T on abdominal fat depots in older men. T administration is associated with a modest decrease in total body fat (11), but more specific studies are needed to determine whether the visceral abdominal fat depots associated with increased risk of coronary artery disease are also reduced.

Cardiovascular disease is a major cause of morbidity and mortality in older men. Before androgen replacement can be considered truly "safe" for this population, it will be important to examine the long-term effects of T replacement on plasma lipids, lipoproteins such as Lp(a), and body fat distribution, specifically in older men. It will also be important to analyze the incidence of cardiovascular events in men who receive androgens for extended periods. The available data suggest, however, that from the cardiovascular perspective, judicious administration of aromatizable forms of T is likely to be safe for the majority of older hypogonadal men.

	References

Top Aging and plasma lipids... References

 

1. Bagatell CJ, Bremner WJ. 1995 Androgen and progestagen effects on plasma lipids. Progress in Cardiovascular Disease. 38:255–271.
2. Lipid Research Clinics. 1980 Population Studies Data Book Vol 1: The Prevalence Study. Department of Health and Human Services.
3. Marcovina SM, Lippi G, Bagatell CJ, Bremner WJ. 1996 Testosterone induced suppression on lipoprotein (a) in normal men; relation to basal lipoprotein (a) level. Atherosclerosis. 132:89–95.
4. Bagatell CJ, Bremner WJ. 1996 Androgens in men: uses and abuses. N Eng J Med. 334:707–714.[Free Full Text]
5. Adams MR, Williams JK, Kaplan JR. 1995 Effects of androgens on coronary artery atherosclerosis and atherosclerosis-related impairment of vascular responsiveness. Aterioscler Thromb Vasc Biol. 15:562–570.[Abstract/Free Full Text]
6. Polderman HK, Stehouwer CDA, van Kamp GJ, Dekker GA, Verheugt WA, Gooren LJG. 1993 Influence of sex hormones on plasma endothelin levels. Ann Intern Med. 118:429–432.[Abstract/Free Full Text]
7. Marin P, Holman S, Fustafsson C, et al. 1993 Androgen treatment of abdominally obese men. Obes Res. 1:245–251.[Medline]
8. Katznelson L, Finkelstein JS, Schoenfeld DA, Rosenthal DI, Anderson EJ, Klibanski A. 1996 Increase in bone density and lean body mass during testosterone administration in men with acquired hypogonadism. J Clin Endocrinol Metab. 81:4358–4365.[Abstract]
9. Tsai EC, Boyko EJ, Newell-Lewis L, Leonetti DL, Fujimoto WY. 1997 Decreased testosterone is a predictor of increased intra-abdomenal fat in second-generation Japanese-American men. Diabetologia. 40:[Suppl 1]:A16.
10. Ellvin FM, Plunkett-Reid K, Rumilla AE. 1997 The long-term beneficial effect of low-dose testosterone in the aging male. Proceedings of the 79th Annual Meeting of the Endocrine Society, Minneapolis, MN, p. 236 (Abstract).
11. Tenover JS. 1992 Effects of testosterone supplementation in the aging male. J Clin Endocrinol Metab. 75:1092–1098.[Abstract]
12. Morley JE, Perry M, Kaiser FE, et al. 1993 Effects of testosterone replacement therapy in older hypogonadal males: a preliminary study. J Am Geriatr Soc. 41L:149–152.
13. Zgliczynski S, Ossowski M, Slowinska-Srzednicha J, et al. 1996 Effect of testosterone replacement on lipids and lipoproteins in hypogonadal and elderly men. Atherosclerosis. 121:35–43.[CrossRef][Medline]

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