BACKGROUND: We investigated the effects of individual antiretrovirals on lipids in HIV-infected children and the proportion potentially eligible for dietary or pharmacologic intervention. METHODS: St Mary's and Great Ormond Street Hospital's, London, United Kingdom, patients between 1995 and 2007 were included. Associations between lipids (millimoles per liter) and specific antiretroviral therapy were assessed using mixed-effects models adjusted for confounders. Children eligible for lipid-lowering management were assessed according to American Academy of Pediatric criteria [low-density lipoprotein (LDL) > 190 mg/dL or 4.9 mmol/L for children with no known cardiovascular disease risk factors or LDL > 160 mg/dL or 4.1 mmol/L for children with 2 or more cardiovascular disease risk factors]. RESULTS: Four hundred forty-nine children had median 4.5-year follow-up. On average, antiretroviral therapy-naive children had normal lipids except for low high-density lipoprotein cholesterol (HDL) (median 0.8). All cholesterol subsets were elevated for the 4 drugs assessed. Protease inhibitors had greater rises in total cholesterol with the maximal non-HDL rise for lopinavir/ritonavir at 4+ years of exposure, 0.8 (0.57-1.03). The nonnucleoside reverse transcriptase inhibitors also raised non-HDL, but this was associated with additional clinically significant increases in HDL. Nevirapine raised non-HDL by 0.38 (0.09-0.31) at 2-3 years and HDL by 0.34 (0.28-0.41). Efavirenz raised non-HDL by 0.2 (0.09-0.31) and HDL by 0.12 (0.08-0.17) at 1 year. Ten percent had LDL above the 95th percentile, but only 3 met the 4.9 cutoff for pharmacologic intervention. CONCLUSIONS: Intervention strategies (dietary and exercise advice, treatment switching, and pharmacotherapy) are required for persistent hyperlipidemia and should be assessed in randomized control trials.
BACKGROUND: We investigated the effects of individual antiretrovirals on lipids in HIV-infectedchildren and the proportion potentially eligible for dietary or pharmacologic intervention. METHODS: St Mary's and Great Ormond Street Hospital's, London, United Kingdom, patients between 1995 and 2007 were included. Associations between lipids (millimoles per liter) and specific antiretroviral therapy were assessed using mixed-effects models adjusted for confounders. Children eligible for lipid-lowering management were assessed according to American Academy of Pediatric criteria [low-density lipoprotein (LDL) > 190 mg/dL or 4.9 mmol/L for children with no known cardiovascular disease risk factors or LDL > 160 mg/dL or 4.1 mmol/L for children with 2 or more cardiovascular disease risk factors]. RESULTS: Four hundred forty-nine children had median 4.5-year follow-up. On average, antiretroviral therapy-naive children had normal lipids except for low high-density lipoprotein cholesterol (HDL) (median 0.8). All cholesterol subsets were elevated for the 4 drugs assessed. Protease inhibitors had greater rises in total cholesterol with the maximal non-HDL rise for lopinavir/ritonavir at 4+ years of exposure, 0.8 (0.57-1.03). The nonnucleoside reverse transcriptase inhibitors also raised non-HDL, but this was associated with additional clinically significant increases in HDL. Nevirapine raised non-HDL by 0.38 (0.09-0.31) at 2-3 years and HDL by 0.34 (0.28-0.41). Efavirenz raised non-HDL by 0.2 (0.09-0.31) and HDL by 0.12 (0.08-0.17) at 1 year. Ten percent had LDL above the 95th percentile, but only 3 met the 4.9 cutoff for pharmacologic intervention. CONCLUSIONS: Intervention strategies (dietary and exercise advice, treatment switching, and pharmacotherapy) are required for persistent hyperlipidemia and should be assessed in randomized control trials.
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