Triagem Direcionada da Hipercolesterolemia Familiar em 11 Pequenas Cidades Brasileiras: Uma Abordagem Eficaz para Detectar Agrupamentos de Indivíduos Afetados (original) (raw)
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Familial hypercholesterolemia in Brazil: Cascade screening program, clinical and genetic aspects
Atherosclerosis, 2015
Background: There is little knowledge about familial hypercholesterolemia in Brazil. This study presents the first results of genetic cascade screening performed in the city of Sao Paulo. Material and methods: Two-hundred and forty-eight suspected index cases were initially included. DNA was extracted from peripheral blood and the complete coding sequence of low-density lipoprotein receptor, exon 7 of proprotein convertase subtilisin/kexin type 9 gene and part of exon 26 of apolipoprotein B genes were sequenced. Multiplex Ligation-dependent Probe Amplification was performed on cases where a causal mutation was not identified through sequencing. After the identification of a causal mutation screening in first-degree relatives was pursued. Results: From 248 index cases, a mutation was found in 125 individuals (50.4%). 394 relatives were included in the cascade screening program and a mutation was identified in 59.4%. Seventy different causal mutations in the low-density lipoprotein receptor gene (97.2%) and 2 in the apolipoprotein B gene (2.8%) were found. No mutations were encountered in the proprotein convertase subtilisin/kexin type 9 gene. Mutations in exons 14 and 4 were the most prevalent and, 10 cases of true homozygotes (8 index cases and 2 relatives) and 1 compound heterozygote were identified. The most frequent mutation found was of Lebanese origin, the p.(Cys681*) mutation in exon 14 (8.5%). Conclusion: Genetic familial hypercholesterolemia cascade screening is feasible in Brazil and leads to identification of a mutation in approximately half of the index cases with higher rates of success in their relatives.
The panorama of familial hypercholesterolemia in Latin America: a systematic review
Journal of Lipid Research, 2016
penetrance. Autosomal dominant FH is attributed to mutations in three different genes: LDL receptor (LDLR), APOB, and proprotein convertase subtilisin/kexin type 9 (PCSK9) (1, 3-5). Other FH genes have been searched for using exome sequencing without success (2). FH caused by mutations in LDLR adaptor protein (LDLRAP) is known as autosomal recessive FH (2). FH is the most common monogenic disorder leading to premature CHD; despite this fact, it is notoriously underdiagnosed and undertreated worldwide (6). Homozygous FH (HoFH) is characterized by extremely high levels of LDL-C (460-1,160 mg/dl) and early onset coronary artery disease (typically by the second decade of life) (7). Mean LDL-C concentration in untreated patients is close to 615 mg/dl (7, 8). Patients are classified into two groups based on the level of LDLR activity, either <2% (receptor negative) or 2-25% (receptor defective). Receptor defective patients have a better prognosis than receptor negative cases (9-11). Heterozygous FH (HeFH) is caused by a single inherited copy of a mutation. The frequency of a heterozygous mutation is >90, 5, and <1% in the LDLR, APOB, and PCSK9 genes, respectively (5). A causal mutation in one of these genes is identified in 60-80% of cases. Affected individuals are characterized by LDL-C levels two to three times greater than normal (190-400 mg/dl). The mean untreated LDL-C concentration is 199.9 mg/dl (12). HeFH is suspected Abstract The burden caused by familial hypercholesterolemia (FH) varies among countries and ethnic groups. The prevalence and characteristics of FH in Latin American (LA) countries is largely unknown. We present a systematic review (following the PRISMA statement) of FH in LA countries. The epidemiology, genetics, screening, management, and unique challenges encountered in these countries are discussed. Published reports discussing FH in Hispanic or LA groups was considered for analysis. Thirty studies were included representing 10 countries. The bulk of the data was generated in Brazil and Mexico. Few countries have registries and there was little commonality in FH mutations between LA countries. LDL receptor mutations predominate; APOB and PCSK9 mutations are rare. No mutation was found in an FH gene in nearly 50% of cases. In addition, some country-specific mutations have been reported. Scant information exists regarding models of care, cascade screening, cost, treatment effectiveness, morbidity, and mortality. In conclusion, FH is largely underdiagnosed and undertreated in the LA region. The genetic admixture with indigenous populations, producing mestizo's groups, may influence the mutational findings in Latin America. Potential opportunities to close gaps in knowledge and health care are identified.
Atherosclerosis, 2017
Aim: To evaluate early patients with clinical/laboratory findings suggestive of Familial Hypercholesterolemia (FH) in a public hospital. Moreover, to identify individuals with high cardiovascular risk. Methods: We used the Dutch MEDPED score for selection of the patients. Initially ten patients were selectioned, 90% women, aged 22 to 73, average 53 years. The Dutch MEDPED score to identify supected individuals is: possible diagnosis (3-5 points), probable diagnosis (6-8 points) and definitive diagnosis (> 8 points). Confirmation of FH by genetic analysis is the gold standard, but cost is a limiting fator in our service. The patients were selectioned in Dyslipidemia ambulatory. Results: The mean total cholesterol was 317 mg/dL, LDL-c 194 to 260, average 230 mg/dL. Of the selected patients, 20% had history of early CAD. Family history of FH was identified in 40%; 20% of patients had xanthomas and corneal arch before 45 years at physical examination. In statin treatment: 90% with atorvastatin (mean dose 47mg/day), 20% in combination with ezetimibe; 10% using simvastatin 40 mg/day alone. No patient underwent genetic analysis. By the Dutch MEDPED score, 60% had possible diagnosis (3-5 points), 20% probable diagnosis (6-8 points) and 20% definitive diagnosis (> 8 points). Conclusions: The small number of patients so far may be a limiting factor, but this study will serve a better and more specific treatment for FH carriers. The premature identification of these patients is beneficial to prevent cardiovascular events.
Atherosclerosis, 2018
Familial hypercholesterolaemia (FH) is an autosomal dominant lipoprotein disorder characterized by significant elevation of low-density lipoprotein cholesterol (LDL-C) and markedly increased risk of premature cardiovascular disease (CVD). Because of the very high coronary artery disease risk associated with this condition, the prevalence of FH among patients admitted for CVD outmatches many times the prevalence in the general population. Awareness of this disease is crucial for recognizing FH in the aftermath of a hospitalization of a patient with CVD, and also represents a unique opportunity to identify relatives of the index patient, who are unaware they have FH. This article aims to describe a feasible strategy to facilitate the detection and management of FH among patients hospitalized for CVD. A multidisciplinary national panel of lipidologists, cardiologists, endocrinologists and cardio-geneticists developed a three-step diagnostic algorithm, each step including three key aspe...
American Heart Journal, 2019
Background There is a paucity of data on the distribution of cardiovascular risk factors in patients with familial hypercholesterolemia (FH) as compared to the general population. The aim of the study was to compare cardiovascular risk factors in a cohort of FH patients to the representative sample of adults in Poland who represent a high-cardiovascular risk European region. Methods We compared the distribution of risk factors in 1,382 individuals with FH phenotype referred for genetic testing between 2006 and 2014 to the National Centre of Familial Hypercholesterolemia in Gdansk, Poland. The cohort was comprised of 637 positive FH(+) and 745 negative FH(−) patients who were compared to a nationally representative sample of 2,413 adults age 18-79, standardized by age and sex, from the NATPOL 2011 study (NATPOL). We analyzed patients' distribution of history of atherosclerotic cardiovascular disease (ASCVD) and standard risk factors including total cholesterol, low-density lipoprotein cholesterol (LDL-C), high-density lipoprotein cholesterol, triglycerides, systolic and diastolic blood pressure (SBP, DBP), body mass index, smoking, and diabetes. Results FH(+) patients (mean age 45.6 years) had the highest LDL-C of 241.7 mg/dL (95% CI 234.8-248.5) compared to 206.1 mg/dL (200.5-211.7) in FH(−) patients (mean age 48.2) and 126.2 mg/dL (124.8-127.6) in NATPOL. Mean SBP was the lowest in FH(+) patients at 128.7 mm Hg (126.7-130.7) compared to 133.4 mm Hg (132.6-134.3) in NATPOL and 134.4 mm Hg (132.3-136.5) in FH(−). No differences were found in the prevalence of diabetes and body mass index. Smoking was less common in FH(+) at 12.4% (9.4-15.4) compared to both FH(−) and NATPOL: 20.4% (16.6-24.1) and 28.4% (26.6-30.2), respectively. The prevalence of individuals with a history of ASCVD in both FH(+) and FH(−) was nearly 3fold higher compared to NATPOL: 26% (21.8-30.1) and 26.6% (22.2-30.9) versus 9.5% (8.3-10.7), respectively. Conclusions The FH(+) patients had significantly higher mean LDL-C, but the levels of nonlipid factors were lower or similar compared to the other groups. Both FH(+) and FH(−) were characterized by a heavy burden of ASCVD. This suggests that cholesterol, and no other risk factors, is a key contributor to cardiovascular risk in patients with FH, especially those with genetic mutation.
Cascade screening program for familial hypercholesterolemia
Endocrinologia, diabetes y nutricion, 2018
Early detection of heterozygous familial hypercholesterolemia (HFH) is needed to prevent premature cardiovascular events. Our aim isto describe the course of an HFH screening detection day in the Northern Cadiz Health Area in Spain and to analyze the data recorded. Descriptive study of an FH cascade screening program. Index cases (ICs) and their 1st and 2nd grade relatives were appointed during a weekend by the FH Foundation. Venous blood samples were taken from the subjects for genetic, blood, and chemistry tests; specialized medical consultation and physical examination were performed. The study sample consisted of 132 subjects: 21 ICs and 111 relatives (16 under 18years old), with a mean age of 11.4years (SD4.57). Mean age of subjects over 18years was 45.2years. A gene mutation was found in 90 relatives. Mean age at diagnosis was 25years (SD17.7) for relatives and for 36.4years (SD17.2; P=.01) for ICs. Smoking rate was higher in relatives than in ICs (26.3% vs 4.8%; P=.02) and co...