Rosuvastatin did not reduce the primary outcome or the number of deaths from any cause in older patients with systolic heart failure, although the drug did reduce the number of cardiovascular hospitalizations. The drug did not cause safety problems. (ClinicalTrials.gov number, NCT00206310.)
To study the effects of rigorous insulin therapy on serum lipoproteins in patients with noninsulin-dependent diabetes not controlled with oral agents only, we measured serum lipoproteins, apoproteins, lipolytic enzymes, and glucose disposal using an insulin clamp technique before and after 4 weeks of insulin therapy. Lipoproteins were isolated by ultracentrifugation and high density lipoprotein (HDL) subfractions, by rate-zonal density gradient ultracentrifugation. The group included 11 women and eight men (age 58 +/- 1 years and RBW 125 +/- 4%). Body weight, glycosylated hemoglobin, mean diurnal glucose, plasma free insulin, and glucose uptake (M-value) were 75 vs. 76 kg; 11.9 vs. 8.9%; 234 vs. 124 mg/dl; 12 vs. 27 microU/ml; and 5.0 +/- 0.4 vs. 7.1 +/- 0.6 mg/kg/min before and after insulin therapy, respectively. After insulin therapy there was a decrease of very low density lipoprotein (VLDL) triglyceride (-60%, p less than 0.001) but an increase of HDL2 cholesterol (+21%, p less than 0.001); HDL2 phospholipids (+38%, p less than 0.001); HDL2 proteins (+23%, p less than 0.01); and HDL2 mass (127 +/- 11 vs. 158 +/- 12 mg/dl, p less than 0.001). There was a decrease of HDL3 cholesterol (-13%, p less than 0.05); HDL3 phospholipids (-16%, p less than 0.05); HDL3 proteins (-18%, p less than 0.001); and HDL3 mass (179 +/- 6 vs. 146 +/- 6, p less than 0.01). Zonal profiles showed a redistribution of particles from HDL3 to HDL2. Serum apo A-I increased (p less than 0.05), apo A-II remained constant, but apo B decreased (-29%, p less than 0.001). The most marked change during insulin therapy was a 2.3-fold increase in adipose tissue lipoprotein lipase (LPL) activity (p less than 0.001). The changes of VLDL and HDL subfractions were not explained by respective changes of the blood glucose, free insulin, or M-value. The data indicate that intensive insulin therapy induces antiatherogenic changes in serum lipids and lipoproteins and suggest that the induction of LPL by insulin is the major factor responsible for redistribution of HDL particles from HDL3 to HDL2.
AimsFew prognostic models in heart failure have been developed in typically elderly patients treated with modern pharmacological therapy and even fewer included simple biochemical tests (such as creatinine), new biomarkers (such as natriuretic peptides), or, especially, both. In addition, most models have been developed for the single outcome of all-cause mortality.
Methods and resultsWe built a series of models for nine different fatal and non-fatal outcomes. For each outcome, a model was first built using demographic and clinical variables (Step 1), then with the addition of biochemical measures (serum creatinine, alanine aminotransferase, creatine kinase, thyrotrophin, apolipoproteins A-1 and B, and triglycerides) (Step 2) and finally with the incorporation of high-sensitivity C-reactive protein (hsCRP) and N-terminal pro B-type natriuretic peptide (NT-proBNP). Ranked according to the Wald x 2 value, age (56), ejection fraction (44), and body mass index (42) were most predictive of all-cause mortality in Step 1 (total model x 2 343). Creatinine was the most powerful predictor at Step 2 (48) and ApoA-1 ranked fifth (25), with the overall x 2 increasing to 440. Log NT-proBNP (167) was the most powerful of the 14 independently predictive variables identified at Step 3 and the overall x 2 increased to 600. NT-proBNP was the most powerful predictor of each other outcome. hsCRP was not a predictor of all-cause mortality but did predict the composite atherothrombotic outcome.
ConclusionOf the two new biomarkers studied in prognostic models in heart failure, NT-proBNP, but not hsCRP, added substantial and independent predictive information, for a range of clinical outcomes, to that provided by simple demographic, clinical, and biochemical measures. ApoA-1 was more predictive than LDL or HDL.--
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