High-density lipoprotein cholesterol and cardiovascular disease. Four prospective American studies.
David Gordon,Jeffrey L. Probstfield,Robert J. Garrison,James D. Neaton,William P. Castelli,J. D. Knoke,David R. Jacobs,Shrikant I. Bangdiwala,H. A. Tyroler +8 more
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TL;DR: A consistent inverse relation of high-density lipoprotein cholesterol levels and coronary heart disease event rates was apparent in BRHS as well as in the four American studies.
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Abstract: The British Regional Heart Study (BRHS) reported in 1986 that much of the inverse relation of high-density lipoprotein cholesterol (HDLC) and incidence of coronary heart disease was eliminated by covariance adjustment. Using the proportional hazards model and adjusting for age, blood pressure, smoking, body mass index, and low-density lipoprotein cholesterol, we analyzed this relation separately in the Framingham Heart Study (FHS), Lipid Research Clinics Prevalence Mortality Follow-up Study (LRCF) and Coronary Primary Prevention Trial (CPPT), and Multiple Risk Factor Intervention Trial (MRFIT). In CPPT and MRFIT (both randomized trials in middle-age high-risk men), only the control groups were analyzed. A 1-mg/dl (0.026 mM) increment in HDLC was associated with a significant coronary heart disease risk decrement of 2% in men (FHS, CPPT, and MRFIT) and 3% in women (FHS). In LRCF, where only fatal outcomes were documented, a 1-mg/dl increment in HDLC was associated with significant 3.7% (men) and 4.7% (women) decrements in cardiovascular disease mortality rates. The 95% confidence intervals for these decrements in coronary heart and cardiovascular disease risk in the four studies overlapped considerably, and all contained the range 1.9-2.9%. HDLC levels were essentially unrelated to non-cardiovascular disease mortality. When differences in analytic methodology were eliminated, a consistent inverse relation of HDLC levels and coronary heart disease event rates was apparent in BRHS as well as in the four American studies.
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References
Estimation of the Concentration of Low-Density Lipoprotein Cholesterol in Plasma, Without Use of the Preparative Ultracentrifuge
TL;DR: A method for estimating the cholesterol content of the serum low-density lipoprotein fraction (Sf0-20) is presented and comparison of this suggested procedure with the more direct procedure, in which the ultracentrifuge is used, yielded correlation coefficients of .94 to .99.
33.8K
Regression Models and Life-Tables
TL;DR: The analysis of censored failure times is considered in this paper, where the hazard function is taken to be a function of the explanatory variables and unknown regression coefficients multiplied by an arbitrary and unknown function of time.
28.6K
High density lipoprotein as a protective factor against coronary heart disease: The Framingham study
TL;DR: The major potent lipid risk factor was HDL cholesterol, which had an inverse association with the incidence of coronary heart disease in either men or women and these associations were equally significant even when other lipids and other standard risk factors for coronaryHeart disease were taken into consideration.
5.3K
Helsinki Heart Study: primary-prevention trial with gemfibrozil in middle-aged men with dyslipidemia. Safety of treatment, changes in risk factors, and incidence of coronary heart disease
Frick Mh,O. Elo,Haapa K,Olli P. Heinonen,P. Heinsalmi,P. Helo,Jussi K. Huttunen,Kaitaniemi P,Koskinen P,Manninen +9 more
TL;DR: Results are in accord with two previous trials with different pharmacologic agents and indicate that modification of lipoprotein levels with gemfibrozil reduces the incidence of coronary heart disease in men with dyslipidemia.
3.9K
A simplified method for the estimation of total cholesterol in serum and demonstration of its specificity.
TL;DR: The simplified but precise method described in this paper involves treatment of the serum with alcoholic potassium hydroxide to liberate the cholesterol from the lipoprotein complexes and to saponify the cholesterol esters.
3.2K
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