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In this study, investigators found that APOC3, a key regulator of triglyceride metabolism, had a profound and clinically relevant effect on triglyceride levels through a mechanism that is independent of lipoprotein lipase. The familial chylomicronemia syndrome is a rare autosomal recessive disease characterized by the buildup in the blood of fat particles called chylomicrons (chylomicronemia), severe hypertriglyceridemia, and the risk of recurrent and potentially fatal pancreatitis and other complications. 1 It is caused by mutations in the gene encoding LPL or, less frequently, by mutations in genes encoding other proteins necessary for LPL function. 2 Patients with this syndrome have plasma triglyceride levels ranging from 10 to 100 times the normal value (1500 to 15,000 mg per deciliter [17 to 170 mmol per liter]), eruptive xanthomas, arthralgias, neurologic symptoms, lipemia retinalis, and hepatosplenomegaly. 3 Nearly . . .

ContextDifferentiation between familial chylomicronemia syndrome (FCS, type 1 hyperlipoproteinemia), a rare metabolic disorder, and the more common multifactorial severe hypertriglyceridemia (sHTG, type 5 hyperlipoproteinemia) is challenging because of their overlapping symptoms but important in patient management.ObjectiveTo assess whether readily obtainable clinical information beyond triglycerides can effectively diagnose and differentiate patients with FCS from those with sHTG, based on well-curated data from two intervention studies of these conditions.MethodsThe analysis included 154 patients from two phase 3 clinical trials of patients with sHTG, one cohort with genetically confirmed FCS (n = 49) and one with multifactorial sHTG (n = 105). Logistic regression analyses were performed to determine the ability of variables (patient demographics, medical history, and baseline lipids, individually or in sets) to differentiate the patient populations. Receiver operating characteristics were used to determine the variable sets with the highest accuracy (percentage of times actual values matched predicted) and optimal sensitivity and specificity.ResultsThe primary model diagnosed 45 of 49 patients with FCS and 99 of 105 patients with sHTG correctly. Optimal sensitivity for all available parameters (n = 17) was 91.8%, optimal specificity was 94.3%, and accuracy was 93.5%. Fasting low-density lipoprotein cholesterol (LDL-C) provided the highest individual predictability. However, a three-variable set of ultracentrifugally measured LDL-C, body mass index, and pancreatitis history differentiated the diseases with a near similar accuracy of 91.0%, and adding high-density lipoprotein cholesterol and very low-density lipoprotein cholesterol for a five-variable set provided a small incremental increase in accuracy (92.2%).ConclusionsIn the absence of genetic testing, hypertriglyceridemic patients with FCS and sHTG can be differentiated with a high degree of accuracy by analyzing readily obtainable clinical information.

This phase 3 trial showed that treatment with volanesorsen, an antisense oligonucleotide drug complementary to mRNA encoding apolipoprotein C-III, resulted in a mean reduction in triglyceride levels of 77% over the course of 3 months.

The results of this phase 3 trial of the effect of olezarsen, a drug that targets APOC3 mRNA, on plasma triglyceride levels and acute pancreatitis in familial chylomicronemia syndrome support further clinical research.

In a phase 2b trial involving patients with hypertriglyceridemia, the use of olezarsen (which targets APOC3 mRNA) for 6 months reduced triglyceride levels by approximately 50% as compared with placebo.

Weekly doses of an antisense inhibitor of apolipoprotein C-III (APOC3) in persons with severe or uncontrolled hypertriglyceridemia resulted in a reduction in APOC3 and triglyceride levels at the end of 13 weeks. Elevated triglyceride levels are associated with several pathologic conditions, including insulin resistance, the metabolic syndrome, diabetes, cardiovascular disease, and hereditary disorders, such as the familial chylomicronemia syndrome, familial combined hyperlipidemia, and familial hypertriglyceridemia. 1 , 2 Patients with triglyceride levels above 2000 mg per deciliter (22.6 mmol per liter), measured at the peak of abdominal pain, are at high risk for pancreatitis. 3 , 4 Current guidelines from the Endocrine Society and the European Atherosclerosis Society recommend that fasting triglyceride levels should be maintained at values below 1000 mg per deciliter (11.3 mmol per liter) or 10 mmol per liter, respectively, to prevent intermittent . . .

Hypertriglyceridemia and Risk of PancreatitisThis meta-analysis of three clinical trials assessed the effect of triglyceride-lowering pharmacologic therapy on the risk of acute pancreatitis in patients with severe hypertriglyceridemia.

Hereditary angioedema with C1 inhibitor deficiency, characterized by unpredictable and occasionally fatal swellings, is caused by uncontrolled activity of factor XIIa and plasma kallikrein, leading to locally increased vascular permeability. In a small, randomized, controlled trial, an antisense oligonucleotide drug targeting prekallikrein suppressed attacks by 90% over a 17-week period.

Elevated triglycerides are an important risk factor for atherosclerosis. However, the magnitude of triglyceride lowering with currently available therapies is modest and the impact of triglyceride-lowering on atherosclerosis remains undefined. Olezarsen is an antisense oligonucleotide (ASO) targeting mRNA for apolipoprotein C-III (apoC-III), an inhibitor of triglyceride clearance. The Essence–TIMI 73b trial (NCT05610280) is a randomized, double-blind, placebo-controlled phase 3 trial of olezarsen 50 mg or 80 mg every 4 weeks compared with placebo. The trial enrolled adults with either moderate hypertriglyceridemia (200-499 mg/dL) plus increased cardiovascular risk, or severe hypertriglyceridemia (≥500 mg/dL). The primary endpoint is the percent change in triglyceride levels from baseline to 6 months, reported as the difference between each olezarsen dose group and pooled placebo. A coronary computed tomography angiography (CTA) substudy will examine changes in noncalcified plaque volume from baseline to 12 months. A total of 1,478 patients were randomized at 160 sites in North America and Europe. The median age is 63 (IQR 56-69) years, 39% are women, and 71% are non-Hispanic White. Overall, 60% of patients have diabetes, and 42% have atherosclerotic cardiovascular disease. At randomization, 97% were receiving lipid-lowering therapies, including 82% on a statin. The median baseline triglyceride level was 249 (195-339) mg/dL and 9% of patients had triglycerides ≥500 mg/dL at enrollment. Approximately 1000 patients completed a baseline CTA, of whom 555 (55%) had measurable noncalcified coronary plaque and continued in the substudy. Targeting apoC-III to facilitate clearance of triglyceride-rich lipoproteins is a potential therapeutic strategy for lowering triglyceride levels, regressing atherosclerosis, and reducing cardiovascular risk. The phase 3 Essence–TIMI 73b trial, which has enrolled nearly 1,500 patients, including over 550 in a coronary CTA substudy, should provide key insights into the efficacy and safety of olezarsen in patients with largely moderate hypertriglyceridemia and elevated cardiovascular risk. Clinicaltrials.gov: NCT05610280

Severe hypertriglyceridemia (HTG), defined as a serum triglyceride (TG) concentration ≥500 mg/dl, is present in approximately 1 in every 100 individuals and carries direct clinical consequences, including pancreatitis, which can be life-threatening. Olezarsen is an investigational antisense oligonucleotide targeted to the mRNA for apolipoprotein C-III (apoC-III), a protein known to impair TG clearance by inhibiting lipoprotein lipase and the hepatic uptake of triglyceride-rich remnants. No dedicated trial has tested olezarsen in patients with severe HTG. In these 2 pivotal phase 3 trials, CORE-TIMI 72a and CORE2-TIMI 72b, patients with severe HTG were randomized in a 2:1 fashion to either olezarsen (80 mg or 50 mg dose) or matching placebo. Patients will be treated for a total of 12 months and evaluated for the primary endpoint of percent change in TGs from baseline to 6 months compared with placebo. Pooled analyses of CORE and CORE2 will also assess olezarsen's effect on acute pancreatitis events and change in hepatic steatosis. A total of 617 subjects in CORE-TIMI 72a and 446 subjects in CORE2-TIMI 72b were randomized. In these 2 trials, the median age was 54 and 55 years, women made up 24% and 23% of the study population, and the baseline TGs were 836 mg/dl and 749 mg/dl, respectively. A total of 333 subjects, 129 from CORE-TIMI 72a and 204 from CORE2-TIMI 72b, were enrolled in the hepatic MRI substudy. Together, CORE-TIMI 72a and CORE2-TIMI 72b are designed to establish the efficacy and safety of olezarsen in patients with severe HTG. Clinicaltrials.gov: NCT05079919 and NCT05552326.