Gillian J. Pilcher

Reduction in Mortality in Subjects With Homozygous Familial Hypercholesterolemia Associated With Advances in Lipid-Lowering Therapy

Background— Homozygous familial hypercholesterolemia is an inherited disorder caused by mutations in both low-density lipoprotein receptor alleles, which results in extremely elevated plasma low-density lipoprotein cholesterol concentrations and very early morbidity and mortality due to cardiovascular disease. Methods and Results— To evaluate the impact of advances in lipid-lowering (predominantly statin) therapy on cardiovascular disease morbidity and mortality in a large cohort of patients with homozygous familial hypercholesterolemia, the records of 149 patients (81 females, 68 males) from 2 specialized lipid clinics in South Africa were evaluated retrospectively. Homozygous familial hypercholesterolemia was diagnosed by confirmation of mutations in genes affecting low-density lipoprotein cholesterol or by clinical criteria. A Cox proportional hazard model with time-varying exposure was used to estimate the risk of death and major adverse cardiovascular events among statin-treated patients compared with statin-naive patients. The hazard ratio for benefit from lipid therapy, calculated with the Cox proportional hazards model for the end point of death, was 0.34 (95% confidence interval 0.14–0.86; P=0.02), and for the end point of major adverse cardiovascular events, it was 0.49 (95% confidence interval 0.22–1.07; P=0.07). This occurred despite a mean reduction in low-density lipoprotein cholesterol of only 26.4% (from 15.9±3.9 to 11.7±3.4 mmol/L; P<0.0001) with lipid-lowering therapy. Conclusions— Lipid-lowering therapy is associated with delayed cardiovascular events and prolonged survival in patients with homozygous familial hypercholesterolemia.

Elevated PCSK9 Levels in Untreated Patients With Heterozygous or Homozygous Familial Hypercholesterolemia and the Response to High-Dose Statin Therapy

Background Proprotein convertase subtilisin kexin type 9 (PCSK9) is an enzyme that impairs low‐density lipoprotein cholesterol (LDL‐C) clearance from the plasma by promoting LDL receptor degradation. Patients with familial hypercholesterolemia (FH) have reduced or absent LDL receptors and should therefore have elevated PCSK9 levels. Methods and Results Fasting lipograms and PCSK9 levels were measured 51 homozygous FH (HoFH), 20 heterozygous FH (HeFH), and 20 normocholesterolemic control subjects. Levels were repeated following high‐dose statin therapy. LDL‐C levels were significantly higher in untreated HoFH (13.4±0.7 mmol/L) and HeFH patients (7.0±0.2 mmol/L) compared with controls (2.6±0.1 mmol/L) (P<0.01). Statin therapy decreased LDL‐C levels from 13.4±0.7 to 11.1±0.7 mmol/L in HoFH and from 7.0±0.2 to 3.6±0.2 mmol/L in HeFH patients (P<0.01). PCSK9 levels were higher in untreated HoFH (279±27 ng/mL) and HeFH (202±14 ng/mL) than in controls (132±10 ng/mL) (both P<0.01). High‐dose statin therapy increased PCSK9 levels from 279±27 to 338±50 ng/mL in HoFH, and significantly so in the HeFH patients from 202±14 to 278±20 ng/mL (P<0.01). Linear regression analysis showed a correlation between PCSK9 and LDL‐C (r=0.6769; P<0.0001); however, this was eliminated following statin therapy (r=0.2972; P=0.0625). Conclusions PCSK9 levels are elevated in untreated FH patients, particularly in those with HoFH. High‐dose statin therapy further increases PCSK9 levels. PCSK9 inhibitors might be a beneficial therapy for FH patients, even in those with HoFH.

Expanded-dose simvastatin is effective in homozygous familial hypercholesterolaemia

Patients with homozygous familial hypercholesterolaemia (HFH) have abnormalities in both low-density lipoprotein (LDL) receptor alleles, resulting in severe hypercholesterolaemia and premature coronary heart disease. Limited treatment options are available and the response to drug therapy has been poor. In the present paper, we have evaluated the efficacy and safety of simvastatin at doses beyond the current maximal dose of 40 mg/day in patients with HFH. After a 4 week placebo diet run-in period, 12 patients with well-characterized HFH were randomized to simvastatin 80 mg/day administered in three divided doses (n = 8; group 1) or 40 mg once daily (n = 4; group 2). After 9 weeks, the dose in group 1 was increased to 160 mg/day while the dose in group 2 was kept at 40 mg/day, but with the drug given in three divided doses and treatment continued for an additional 9 weeks. All 12 patients completed the study and there were no serious or unexpected adverse effects. LDL-cholesterol concentrations fell by 14% at the 40 mg/day dose, but were reduced further at the higher doses (25% at the 80 mg/day and by 31% at the 160 mg/day dosage, P < 0.0001). Excretion of urinary mevalonic acid, as an index of in vivo cholesterol biosynthesis, was reduced but did not correlate with reduction in LDL-cholesterol in the individual patients. The magnitude of response to therapy was not predicted by the LDL-receptor gene defect as patients with the same LDL-receptor mutations responded differently to the same dose of simvastatin therapy. The ability of expanded doses of simvastatin (80 or 160 mg/day) to reduce LDL-cholesterol levels in patients with HFH, even if receptor negative, suggests that at these doses, the drug reduces LDL production. Simvastatin therapy, at doses of 80 or 160 mg/day, should therefore be considered in all patients with HFH, either as an adjunct to apheresis, or as monotherapy for those patients who do not have access to apheresis or other such treatment modalities.

Inhibition of cholesterol synthesis by atorvastatin in homozygous familial hypercholesterolaemia.

Patients with homozygous familial hypercholesterolaemia (HoFH) have markedly elevated low density lipoprotein (LDL) cholesterol levels that are refractory to standard doses of lipid-lowering drug therapy. In the present study we evaluated the effect of atorvastatin on steady state concentrations of plasma lipids and mevalonic acid (MVA), as well as on 24-h urinary excretion of MVA in patients with well characterized HoFH. Thirty-five HoFH patients (18 males; 17 females) received 40 mg and then 80 mg atorvastatin/day. The dose of atorvastatin was increased further to 120 mg/day in 20 subjects and to 160 mg/day in 13 subjects who had not achieved LDL cholesterol goal, or in whom the dose of atorvastatin had not exceeded 2.5 mg/kg body wt per day. LDL cholesterol levels were reduced by 17% at the 40 mg/day and by 28% at the 80 mg/day dosage (P<0.01). Reduction in LDL cholesterol in the five receptor negative patients was similar to that achieved in the 30 patients with residual LDL receptor activity. Plasma MVA and 24-h urinary excretion of MVA, as markers of in vivo cholesterol synthesis, were elevated at baseline and decreased markedly with treatment. Urinary MVA excretion decreased by 57% at the 40 mg/day dose and by 63% at the 80 mg/day dosage (P<0. 01). There was a correlation between reduction in LDL cholesterol and reduction in urinary MVA excretion; those patients with the highest basal levels of MVA excretion and thus the highest rates of cholesterol synthesis having the greatest reduction in LDL cholesterol (r=0.38; P=0.02). Increasing the dose of atorvastatin to 120 and 160 mg/day did not result in any further reduction in LDL cholesterol or urinary MVA excretion suggesting a plateau effect with no further inhibition of cholesterol synthesis at doses of atorvastatin greater than 80 mg/day.

Efficacy of vitamin E compared with either Simvastatin or Atorvastatin in preventing the progression of atherosclerosis in homozygous familial hypercholesterolemia

Over a 4-year period, antioxidant therapy (vitamin E) was compared with high-dose statin therapy in 15 patients with homozygous familial hypercholesterolemia. Carotid intima-media thickness, used as an in vivo assessment of atherosclerosis, progressed rapidly during the period of vitamin E therapy but regressed on statin therapy.

Statin therapy in a kindred with both apolipoprotein B and low density lipoprotein receptor gene defects

We studied an extended family of similar genetic and environmental background to determine whether there is a difference in response to statin therapy in those subjects with heterozygous familial hypercholesterolaemia (FH Afrikaner-1 (FH1) or FH Afrikaner-2 (FH2)) compared to those with familial defective apo B-100 (FDB), or both FH plus FDB. Fasting lipid profiles and Lp(a) levels were done on 18 members of the family and then repeated following 6 weeks of therapy with simvastatin 20 mg daily. Statin therapy reduced LDL-cholesterol (LDL-C) by 31% in those with FH (n = 7); 29.8% in FDB (n = 5) and 25.4% in those with both FDB and FH (n = 5). There was no response to statin therapy in the single subject with both FH1, FH2, as well as FDB. Lp(a) levels did not change significantly either within or between any of the groups following statin therapy (FH from 6.5 (1.2-72.3) to 5.3 (1.2-52.3), FDB from 6.1 (4.70-71) to 8.2 (5.7 79) and FDB plus FH from 4.5 (2.6-17.4) to 3.1 (1.9-24) mg/dl). Statins are equally effective in lowering LDL-C in related subjects with heterozygous FH, FDB or both FDB plus FH. The ability of statins to lower LDL-C in FDB is probably due to increased hepatic uptake of lipoprotein precursors of LDL that can bind via apo E receptors. Lp(a) concentration is not reduced by drugs that stimulate LDL receptor activity implying that LDL receptors do not contribute greatly to normal clearance of Lp(a) in hypercholesterolaemic subjects with defects in receptor-mediated endocytosis of LDL.

Atherosclerosis seems not to be associated with hyperinsulinaemia in patients with familial hypercholesterolaemia.

Objective. To study the relationship between hyperinsulinaemia, insulin resistance, leptin and atherosclerosis in subjects with familial hypercholesterolaemia (FH).

Survival in homozygous familial hypercholesterolaemia is determined by the on-treatment level of serum cholesterol

Aims Homozygous familial hypercholesterolaemia (FH) is a rare inherited disorder characterized by extreme hypercholesterolaemia from birth, accelerated atherosclerosis, and premature death. Many forms of lipid-lowering therapies have been used in the past, but definitive evidence of benefit has been lacking. We therefore undertook a retrospective survey of lipid levels and clinical outcomes of FH homozygotes treated with a combination of lipid-lowering measures between 1990 and 2014 in South Africa and the UK. Methods and results We divided 133 previously statin-naive homozygotes into quartiles according to their on-treatment levels of serum cholesterol and compared the occurrence of any death, cardiovascular death, and major adverse cardiovascular events (MACE) between the quartiles during 25 years of follow-up, using Cox and competing risks regression analysis. Patients in Quartile 4, with an on-treatment serum cholesterol >15.1 mmol/L, had a hazard ratio of 11.5 for any death compared with those in Quartile 1, with an on-treatment cholesterol of < 8.1 mmol/L. Those in Quartiles 2 and 3 combined, with on-treatment cholesterol of 8.1-15.1 mmol/L had a hazard ratio of 3.6 compared with Quartile 1. These differences were statistically significant (P < 0.001) and remained so after adjustments for confounding factors (P = 0.04). Significant differences between quartiles were also evident for cardiovascular deaths and MACE. Conclusion These findings provide unequivocal evidence that the extent of reduction of serum cholesterol achieved by a combination of therapeutic measures, including statins, ezetimibe, lipoprotein apheresis, and evolocumab, is a major determinant of survival in homozygous FH.

Lack of effect of high dose vitamin E on xanthoma regression in homozygous familial hypercholesterolaemia

There is increasing evidence that oxidative modification of low-density lipoprotein (LDL) plays an important role in the pathogenesis of atherosclerosis. Homozygous familial hypercholesterolaemia (HFH) is characterized by premature, severe atherosclerosis. Drugs available at present are ineffective in lowering the markedly elevated LDL levels in this condition; antioxidant therapy to protect the LDL against oxidation may be of benefit. Probucol, the only drug shown to induce xanthoma regression in HFH, is a potent antioxidant, but it also lowers high-density lipoprotein cholesterol (HDL-C) levels, causing some concern. Vitamin E is a naturally occurring antioxidant that does not affect HDL-C levels. We have therefore evaluated the effect of long-term high dose vitamin E on xanthoma regression in HFH. Ten subjects with HFH, mean age 17 years (range 4-34), received vitamin E (400-1000 mg/dl alpha-tocopherol acetate/day) for a period of 23 months (range 12-27). There was a 4.2-fold increase in the mean serum vitamin E level (mean (S.D.) 49.7 (19.9) to 177.9 (45.6) mumol/l; P < 0.005), but no change in serum lipid or lipoprotein concentrations. Although there was an increase in the in vitro resistance of LDL to oxidation as determined by the duration of the lag phase during copper-mediated oxidation (116 (8.34) vs. 141.5 (9.23) min; P < 0.005) there was no xanthoma regression; in fact they progressed in 4 subjects. Unlike probucol, high dose long-term vitamin E has no demonstrable effect on xanthoma regression in HFH.

Statins and other lipid-lowering therapy and pregnancy outcomes in homozygous familial hypercholesterolaemia: A retrospective review of 39 pregnancies

BACKGROUND AND AIMS Pregnancy in HoFH females is associated with further elevation of already markedly elevated low density lipoprotein cholesterol (LDL-C) levels, particularly if lipid-lowering therapy is discontinued, placing the mother and fetus at increased cardiovascular risk. Lipoprotein apheresis is the current recommended treatment for pregnant HoFH patients. However, this is costly, time consuming, and is not available in many countries. Alternative treatment strategies to control hypercholesterolaemia during pregnancy in HoFH patients are necessary. METHODS This study was a retrospective review of 39 pregnancies from a cohort of 20 genotypically confirmed female HoFH patients. RESULTS No maternal cardiac complications or deaths occurred during the pregnancies or during the first year postpartum. Twenty five pregnancies were exposed to lipid-lowering therapy, of which 18 were exposed to statin therapy, just prior to or during the pregnancy. Thirty three (84%) pregnancies carried to term, 3 (8%) premature deliveries and 3 (8%) miscarriages were observed. Complications associated with pregnancy in these HoFH patients, did not differ from those reported during pregnancies of otherwise healthy woman. CONCLUSIONS HoFH is a severe disease impacting significantly on life expectancy. However, for many females with HoFH, despite the high cardiovascular risk, pregnancy is not uncommon. In resource poor settings and when LA is not available, lipid lowering therapy, particularly statin therapy during pregnancy, appears to be safe for both mother and fetus and is an acceptable alternative for LDL-C reduction in these high risk patients.