03399nas a2200541 4500000000100000008004100001653001000042653001100052653001100063653000900074653000900083653001500092653001600107653001500123653001900138653001500157653001600172653001400188653002100202653002200223653001600245653002600261653001600287653001300303653001500316653002000331653003300351653002100384653002600405653002100431653002400452653001300476100001500489700001900504700001700523700002000540700002000560700001300580700001700593700001700610700001800627700001700645700002600662245010100688490000700789520204700796022001402843 2017 d10aAdult10aFemale10aHumans10aAged10aMale10aOdds Ratio10aMiddle Aged10aAdolescent10aCohort Studies10aPrevalence10aAge Factors10aROC Curve10aArea Under Curve10aAged, 80 and over10aYoung Adult10aRetrospective Studies10aSex Factors10aGenotype10aTroponin T10aCardiac Myosins10aCardiomyopathy, Hypertrophic10aCarrier Proteins10aDisease-Free Survival10aHeart Ventricles10aMyosin Heavy Chains10aPedigree1 aBriffa Tom1 aPuranik Rajesh1 aIngles Jodie1 aBurns Charlotte1 aBagnall Richard1 aLam Lien1 aYeates Laura1 aSarina Tanya1 aAtherton John1 aDriscoll Tim1 aSemsarian Christopher00aNonfamilial Hypertrophic Cardiomyopathy: Prevalence, Natural History, and Clinical Implications.0 v103 a
BACKGROUND: Yield of causative variants in hypertrophic cardiomyopathy (HCM) is increased in some probands, suggesting different clinical subgroups of disease occur. We hypothesized that a negative family history and no sarcomere mutations represent a nonfamilial subgroup of HCM. We sought to determine the prevalence, natural history, and potential clinical implications of this nonfamilial subgroup of HCM.
METHODS AND RESULTS: Four hundred and thirteen unrelated probands with HCM seen in a specialized HCM center between 2002 and 2015 and genetic testing performed were included in this retrospective cohort study. There were 251 (61%) probands with no reported family history of HCM, including 166 (40% of total) probands with no sarcomere mutation, that is, nonfamilial HCM. Quantified family pedigree data revealed no difference in mean number of first-degree relatives screened between nonfamilial and sarcomere-positive groups. Adjusted predictors of nonfamilial status were older age (odds ratio, 1.04; 95% confidence interval, 1.02-1.06; P=0.0001), male sex (odds ratio, 1.96; 95% confidence interval, 1.11-3.45; P=0.02), hypertension (odds ratio, 2.80; 95% confidence interval, 1.57-5.00; P=0.0005), and nonasymmetric septal morphology (odds ratio, 3.41; 95% confidence interval, 1.64-7.08; P=0.001). They had a less severe clinical course with greater event-free survival from major cardiac events (P=0.04) compared with sarcomere-positive HCM probands. Genotype prediction scores showed good performance in identifying genotype-positive patients (area under the curve, 0.71-0.75) and, in combination with pedigree characteristics, were further improved.
CONCLUSIONS: Approximately 40% of HCM probands have a nonfamilial subtype, with later onset and less severe clinical course. We propose a revised clinical pathway for management, highlighting the role of genetic testing, a detailed pedigree, and refined clinical surveillance recommendations for family members.
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