Familial Hypercholesterolemia: Screening, diagnosis and management of pediatric and adult patients: Clinical guidance from the National Lipid Association Expert Panel on Familial Hypercholesterolemia
Washington University in St. Louis1, University of Utah2, University of Illinois at Chicago3, Baylor College of Medicine4, University of Pennsylvania5, University of Iowa6, University of Colorado Denver7, Alfred I. duPont Hospital for Children8, Boston Children's Hospital9, Oregon Health & Science University10, Concord Hospital11, University of Kansas12, Wake Forest University13
TL;DR: This report goes beyond previously published guidelines by providing specific clinical guidance for the primary care clinician and lipid specialist with the goal of improving care of patients with FH and reducing their elevated risk for CHD.
About: This article is published in Journal of Clinical Lipidology.The article was published on 2011-05-01. It has received 560 citations till now. The article focuses on the topics: Familial hypercholesterolemia & Lomitapide.
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TL;DR: The Statistical Update represents the most up-to-date statistics related to heart disease, stroke, and the cardiovascular risk factors listed in the AHA's My Life Check - Life’s Simple 7, which include core health behaviors and health factors that contribute to cardiovascular health.
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Each year, the American Heart Association (AHA), in conjunction with the Centers for Disease Control and Prevention, the National Institutes of Health, and other government agencies, brings together in a single document the most up-to-date statistics related to heart disease, stroke, and the cardiovascular risk factors listed in the AHA’s My Life Check - Life’s Simple 7 (Figure1), which include core health behaviors (smoking, physical activity, diet, and weight) and health factors (cholesterol, blood pressure [BP], and glucose control) that contribute to cardiovascular health. The Statistical Update represents …
5,102 citations
Copenhagen University Hospital1, French Institute of Health and Medical Research2, University College London3, Columbia University4, University of Gothenburg5, University of Western Ontario6, University of the Witwatersrand7, University of Amsterdam8, University of São Paulo9, University of Western Australia10, Ludwig Maximilian University of Munich11, University of Palermo12, University of Milan13, University Medical Center14, University of Groningen15, University of California, Los Angeles16, University of London17, Radboud University Nijmegen18, University of Helsinki19, University of Copenhagen20
TL;DR: There is an urgent worldwide need for diagnostic screening together with early and aggressive treatment of this extremely high-risk condition, familial hypercholesterolaemia.
Abstract: Aims The first aim was to critically evaluate the extent to which familial hypercholesterolaemia (FH) is underdiagnosed and undertreated. The second aim was to provide guidance for screening and treatment of FH, in order to prevent coronary heart disease (CHD).
Methods and results Of the theoretical estimated prevalence of 1/500 for heterozygous FH, <1% are diagnosed in most countries. Recently, direct screening in a Northern European general population diagnosed approximately 1/200 with heterozygous FH. All reported studies document failure to achieve recommended LDL cholesterol targets in a large proportion of individuals with FH, and up to 13-fold increased risk of CHD. Based on prevalences between 1/500 and 1/200, between 14 and 34 million individuals worldwide have FH. We recommend that children, adults, and families should be screened for FH if a person or family member presents with FH, a plasma cholesterol level in an adult ≥8 mmol/L(≥310 mg/dL) or a child ≥6 mmol/L(≥230 mg/dL), premature CHD, tendon xanthomas, or sudden premature cardiac death. In FH, low-density lipoprotein cholesterol targets are <3.5 mmol/L(<135 mg/dL) for children, <2.5 mmol/L(<100 mg/dL) for adults, and <1.8 mmol/L(<70 mg/dL) for adults with known CHD or diabetes. In addition to lifestyle and dietary counselling, treatment priorities are (i) in children, statins, ezetimibe, and bile acid binding resins, and (ii) in adults, maximal potent statin dose, ezetimibe, and bile acid binding resins. Lipoprotein apheresis can be offered in homozygotes and in treatment-resistant heterozygotes with CHD.
Conclusion Owing to severe underdiagnosis and undertreatment of FH, there is an urgent worldwide need for diagnostic screening together with early and aggressive treatment of this extremely high-risk condition.
2,039 citations
TL;DR: In this article, the Consensus Panel on Familial Hypercholesterolaemia of the European Atherosclerosis Society (EAS) critically reviewed available data with the aim of providing clinical guidance for the recognition and management of HoFH.
Abstract: Homozygous familial hypercholesterolaemia (HoFH) is a rare life-threatening condition characterized by markedly elevated circulating levels of low-density lipoprotein cholesterol (LDL-C) and accelerated, premature atherosclerotic cardiovascular disease (ACVD). Given recent insights into the heterogeneity of genetic defects and clinical phenotype of HoFH, and the availability of new therapeutic options, this Consensus Panel on Familial Hypercholesterolaemia of the European Atherosclerosis Society (EAS) critically reviewed available data with the aim of providing clinical guidance for the recognition and management of HoFH. Methods and results EarlydiagnosisofHoFHandpromptinitiationofdietandlipid-loweringtherapyarecritical.Genetictestingmayprovidea definitive diagnosis, but if unavailable, markedly elevated LDL-C levels together with cutaneous or tendon xanthomas before 10 years, or untreated elevated LDL-C levels consistent with heterozygous FH in both parents, are suggestive of HoFH. We recommend thatpatients with suspected HoFH arepromptly referred to specialistcentres foracomprehensiveACVDevaluationandclinicalmanagement.Lifestyleinterventionandmaximalstatintherapyarethemainstaysof treatment, ideally started in the first year of life or at an initial diagnosis, often with ezetimibe and other lipid-modifying
761 citations
Emory University1, DePaul University2, University of Miami3, Baylor College of Medicine4, Pennsylvania State University5, University of California, Irvine6, Duke University7, University of Colorado Denver8, Medical University of South Carolina9, University of Oklahoma10, University of Texas Southwestern Medical Center11, University of Illinois at Chicago12, Tulane University13, University of California, San Francisco14, Icahn School of Medicine at Mount Sinai15, Harvard University16, Virginia Commonwealth University17, University of Pennsylvania18, Rush University Medical Center19, Oregon Health & Science University20
TL;DR: This document represents a continuation of the National Lipid Association recommendations developed by a diverse panel of experts who examined the evidence base and provided recommendations regarding the following topics: lifestyle therapies and strategies to improve patient outcomes by increasing adherence and using team-based collaborative care.
690 citations
Broad Institute1, Harvard University2, Sungkyunkwan University3, Boston University4, University of Texas Health Science Center at Houston5, University of Washington6, Erasmus University Rotterdam7, Kanazawa University8, Technische Universität München9, Humanitas University10, University of Pennsylvania11, University of Cambridge12, University of Ottawa13, University of Oxford14, University of Mississippi15, University of Parma16
TL;DR: In an analysis of participants with serial lipid measurements over many years, FH mutation carriers had higher cumulative exposure to LDL cholesterol than noncarriers and within any stratum of observed LDL cholesterol, risk of CAD was higher among FH mutations carriers than non carriers.
681 citations
References
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TL;DR: The combined disorder was shown to be genetically distinct from familial hypercholesterolemia and familial hypertriglyceridemia for the following reasons: the distribution pattern of cholesterol and triglyceride levels in relatives of probands was unique.
Abstract: To assess the genetics of hyperlipidemia in coronary heart disease, family studies were carried out in 2520 relatives and spouses of 176 survivors of myocardial infarction, including 149 hyperlipidemic and 27 normolipidemic individuals. The distribution of fasting plasma cholesterol and triglyceride values in relatives, together with segregation analyses, suggested the presence of five distinct lipid disorders. Three of these-familial hypercholesterolemia, familial hypertriglyceridemia, and familial combined hyperlipidemia-appeared to represent dominant expression of three different autosomal genes, occurring in about 20% of survivors below 60 yr of age and 7% of all older survivors. Two other disorders-polygenic hypercholesterolemia and sporadic hypertriglyceridemia-each affected about 6% of survivors in both age groups. The most common genetic form of hyperlipidemia identified in this study has hitherto been poorly defined and has been designated as familial combined hyperlipidemia. Affected family members characteristically had elevated levels of both cholesterol and triglyceride. However, increased cholesterol or increased triglyceride levels alone were also frequently observed. The combined disorder was shown to be genetically distinct from familial hypercholesterolemia and familial hypertriglyceridemia for the following reasons: (a) the distribution pattern of cholesterol and triglyceride levels in relatives of probands was unique; (b) children of individuals with combined hyperlipidemia did not express hypercholesterolemia in contrast to the finding of hypercholesterolemic children from families with familial hypercholesterolemia; and (c) analysis of informative matings suggested that the different lipid phenotypes owed their origin to variable expression of a single autosomal dominant gene and not to segregation of two separate genes, such as one elevating the level of cholesterol and the other elevating the level of triglyceride. Heterozygosity for one of the three lipid-elevating genes identified in this study may have a frequency in the general population of about 1%, constituting a major problem in early diagnosis and preventive therapy.
1,409 citations
TL;DR: The need for prevention of cardiovascular disease by following Dietary Guidelines for Americans and increasing physical activity is reemphasized and the need for pharmacologic agents and indications for treating dyslipidemia in children are reviewed.
Abstract: This clinical report replaces the 1998 policy statement from the American Academy of Pediatrics on cholesterol in childhood, which has been retired. This report has taken on new urgency given the current epidemic of childhood obesity with the subsequent increasing risk of type 2 diabetes mellitus, hypertension, and cardiovascular disease in older children and adults. The approach to screening children and adolescents with a fasting lipid profile remains a targeted approach. Overweight children belong to a special risk category of children and are in need of cholesterol screening regardless of family history or other risk factors. This report reemphasizes the need for prevention of cardiovascular disease by following Dietary Guidelines for Americans and increasing physical activity and also includes a review of the pharmacologic agents and indications for treating dyslipidemia in children.
1,091 citations
TL;DR: Lower statin doses than those currently advised reduced the risk of coronary heart disease to a greater extent than anticipated in patients with familial hypercholesterolaemia.
Abstract: Objective To determine the efficacy of statin treatment on risk of coronary heart disease in patients with familial hypercholesterolaemia. Design Cohort study with a mean follow-up of 8.5 years. Setting 27 outpatient lipid clinics. Subjects 2146 patients with familial hypercholesterolaemia without prevalent coronary heart disease before 1 January 1990. Main outcome measures Risk of coronary heart disease in treated and “untreated” (delay in starting statin treatment) patients compared with a Cox regression model in which statin use was a time dependent variable. Results In January 1990, 413 (21%) of the patients had started statin treatment, and during follow-up another 1294 patients (66%) started after a mean delay of 4.3 years. Most patients received simvastatin (n=1167, 33 mg daily) or atorvastatin (n=211, 49 mg daily). We observed an overall risk reduction of 76% (hazard ratio 0.24 (95% confidence interval 0.18 to 0.30), P Conclusion Lower statin doses than those currently advised reduced the risk of coronary heart disease to a greater extent than anticipated in patients with familial hypercholesterolaemia. With statin treatment, such patients no longer have a risk of myocardial infarction significantly different from that of the general population.
649 citations
TL;DR: The clinical phenotype of heterozygous familial hypercholesterolemia (FH) is characterized by increased plasma levels of total cholesterol and low density lipoprotein cholesterol, tendinous xanthomata, and premature symptoms of coronary heart disease.
Abstract: The clinical phenotype of heterozygous familial hypercholesterolemia (FH) is characterized by increased plasma levels of total cholesterol and low density lipoprotein cholesterol, tendinous xanthomata, and premature symptoms of coronary heart disease. It is inherited as an autosomal dominant disorder with homozygotes having a more severe phenotype than do heterozygotes. FH can result from mutations in the low density lipoprotein receptor gene (LDLR), the apolipoprotein B-100 gene (APOB), and the recently identified proprotein convertase subtilisin/kexin type 9 gene (PCSK9). To date, over 700 variants have been identified in the LDLR gene. With the exception of a small number of founder populations where one or two mutations predominate, most geographically based surveys of FH subjects show a large number of mutations segregating in a given population. Studies of the prevalence of FH would be improved by the use of a consistent and uniformly applied clinical definition. Because FH responds well to drug treatment, early diagnosis to reduce atherosclerosis risk is beneficial. Cascade testing of FH family members is cost effective and merits further research. For screening to be successful, public health and general practitioners need to be aware of the signs and diagnosis of FH and the benefits of early treatment.
604 citations
TL;DR: These guidelines have been elaborated by a group of international experts with the intention to answer the main questions about heterozygous FH (heFH) subjects that physicians worldwide face in the diagnosis and management of these patients.
486 citations