M Shahmanesh1, H Jaleel, Y DeSilva, J D Ross, M Caslake, R Cramb. 1. Department of Genitourinary Medicine, University Hospital Birmingham NHS Trust, Selly Oak Hospital, Birmingham, UK. mohse.shahmanesh@bscht.wmids.nhs.uk
Abstract
OBJECTIVE: To determine the prevalence of type III hyperlipoproteinaemia in a cohort of HIV infected patients taking protease inhibitors and its correlation with the apolipoprotein-E2 isoform. DESIGN: Cross sectional study of 57 consecutive HIV infected subjects taking protease inhibitor therapy for a median of 12.5 (1-29) months, seen in an outpatient HIV clinic. Controls were 17 patients on non-nucleoside reverse transcriptor inhibitor therapy (NNRTI) for 9 (1-19) months and 50 antiviral naive patients. METHODS: Fasting cholesterol, triglyceride, HDL cholesterol, lipoprotein (a), and glucose were measured. Lipoprotein electrophoresis was performed on patients with a cholesterol >6.5 mmol/l and a triglyceride concentration of >4.5 mmol/l. Apolipoprotein-E phenotype was determined in serum. RESULTS: Dyslipidaemia was found in 43 (75%) PI treated patients-37 with triglyceride >2.3 mmol/l, 30 with cholesterol >6.5 mmol/l, and nine with HDL cholesterol <0.9 mmol/l. 38% had a lipoprotein (a) >300 mg/l. 11 patients (19.3%) had a type III hyperlipoproteinaemia pattern. Only one was homozygous for the E2 phenotype and none had clinical diabetes. An additional patient had a serum lipid profile compatible with type III hyperlipoproteinaemia and an E3/E2 phenotype in whom electrophoresis was not carried out before treatment. Six (35%) of the NNRTI and 16 (32%) of the antiviral naive patients had dyslipidaemia. 18 (31.6%) of the PI and none of the control patients had a cholesterol and/or triglyceride >8 mmol/l. CONCLUSION: Type III hyperlipoproteinaemia is common in this group of patients and need not be associated with the apolipoprotein-E2/E2 isoform. HIV protease inhibitors may interfere with lipoprotein receptor related protein.
OBJECTIVE: To determine the prevalence of type III hyperlipoproteinaemia in a cohort of HIV infectedpatients taking protease inhibitors and its correlation with the apolipoprotein-E2 isoform. DESIGN: Cross sectional study of 57 consecutive HIV infected subjects taking protease inhibitor therapy for a median of 12.5 (1-29) months, seen in an outpatient HIV clinic. Controls were 17 patients on non-nucleoside reverse transcriptor inhibitor therapy (NNRTI) for 9 (1-19) months and 50 antiviral naive patients. METHODS: Fasting cholesterol, triglyceride, HDL cholesterol, lipoprotein (a), and glucose were measured. Lipoprotein electrophoresis was performed on patients with a cholesterol >6.5 mmol/l and a triglyceride concentration of >4.5 mmol/l. Apolipoprotein-E phenotype was determined in serum. RESULTS: Dyslipidaemia was found in 43 (75%) PI treated patients-37 with triglyceride >2.3 mmol/l, 30 with cholesterol >6.5 mmol/l, and nine with HDL cholesterol <0.9 mmol/l. 38% had a lipoprotein (a) >300 mg/l. 11 patients (19.3%) had a type III hyperlipoproteinaemia pattern. Only one was homozygous for the E2 phenotype and none had clinical diabetes. An additional patient had a serum lipid profile compatible with type III hyperlipoproteinaemia and an E3/E2 phenotype in whom electrophoresis was not carried out before treatment. Six (35%) of the NNRTI and 16 (32%) of the antiviral naive patients had dyslipidaemia. 18 (31.6%) of the PI and none of the control patients had a cholesterol and/or triglyceride >8 mmol/l. CONCLUSION:Type III hyperlipoproteinaemia is common in this group of patients and need not be associated with the apolipoprotein-E2/E2 isoform. HIV protease inhibitors may interfere with lipoprotein receptor related protein.
Authors: D Périard; A Telenti; P Sudre; J J Cheseaux; P Halfon; M J Reymond; S M Marcovina; M P Glauser; P Nicod; R Darioli; V Mooser Journal: Circulation Date: 1999-08-17 Impact factor: 29.690
Authors: R Walli; O Herfort; G M Michl; T Demant; H Jäger; C Dieterle; J R Bogner; R Landgraf; F D Goebel Journal: AIDS Date: 1998-10-22 Impact factor: 4.177