Background: There is no acceptable maximum wall thickness (MWT) threshold for diagnosing apical hypertrophic cardiomyopathy (ApHCM), with guidelines referring to ≥15 mm MWT for all hypertrophic cardiomyopathy subtypes. A normal myocardium naturally tapers apically; a fixed diagnostic threshold fails to account for this. Using cardiac magnetic resonance, "relative" ApHCM has been described with typical electrocardiographic features, loss of apical tapering, and cavity obliteration but also with MWT <15 mm.
Objectives: The authors aimed to define normal apical wall thickness thresholds in healthy subjects and use these to accurately identify ApHCM.
Methods: The following healthy subjects were recruited: healthy UK Biobank imaging substudy subjects (n = 4,112) and an independent healthy volunteer group (n = 489). A clinically defined disease population of 104 ApHCM subjects was enrolled, with 72 overt (MWT ≥15 mm) and 32 relative (MWT <15 mm but typical electrocardiographic/imaging findings) ApHCM subjects. Cardiac magnetic resonance-derived MWT was measured in 16 segments using a published clinically validated machine learning algorithm. Segmental normal reference ranges were created and indexed (for age, sex, and body surface area), and diagnostic performance was assessed.
Results: In healthy cohorts, there was no clinically significant age-related difference for apical wall thickness. There were sex-related differences, but these were not clinically significant after indexing to body surface area. Therefore, segmental reference ranges for apical hypertrophy required indexing to body surface area only (not age or sex). The upper limit of normal (the largest of the 4 apical segments measured) corresponded to a maximum apical MWT in healthy subjects of 5.2 to 5.6 mm/m with an accuracy of 0.94 (the unindexed equivalent being 11 mm). This threshold was categorized as abnormal in 99% (71/72) of overt ApHCM patients, 78% (25/32) of relative ApHCM patients, 3% (122/4,112) of UK Biobank subjects, and 3% (13/489) of healthy volunteers.
Conclusions: Per-segment indexed apical wall thickness thresholds are highly accurate for detecting apical hypertrophy, providing confidence to the reader to diagnose ApHCM in those not reaching current internationally recognized criteria.
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http://dx.doi.org/10.1016/j.jcmg.2023.07.012 | DOI Listing |
Eur Heart J Case Rep
January 2025
Xijing Hypertrophic Cardiomyopathy Center, Department of Ultrasound, Xijing Hospital, Airforce Military Medical University, Xi'an, Shaanxi 710032, China.
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January 2025
Division of Cardiac Surgery, Beth Israel Deaconess Medical Center, Boston, Massachusetts, USA.
Pol J Vet Sci
September 2024
Department of Biostatistics, Faculty of Veterinary Medicine, Hatay Mustafa Kemal University, 31060, Hatay, Turkey.
The aim of this study was to evaluate the association between spontaneous echocardiographic contrast (SEC) and left atrial (LA) parameters such as size, volume, and function in cats with hypertrophic cardiomyopathy (HCM). Cats were assigned into following groups: clinically healthy cats (n=8), HCM without SEC (n=12), and HCM with SEC (n=8). Left atrial shortening fraction (LAFS%) and left atrial fractional area change (LAFAC) had statistical significance between groups.
View Article and Find Full Text PDFJACC Adv
January 2025
Hypertrophic Cardiomyopathy Center, Heart Vascular Thoracic Institute, Cleveland Clinic, Cleveland, Ohio, USA.
Cureus
November 2024
Department of Medical Genetics, Institute of Science Tokyo, Tokyo, JPN.
Filamin C (FLNC), recently identified as a causative gene of cardiomyopathy, is widely expressed in cardiomyocytes and is involved in signal transduction between the sarcomere and the plasma membrane. In general, the FLNC truncating variant causes severe dilated cardiomyopathy. A 70-year-old female was referred to our hospital with advanced conduction defects and underwent pacemaker implantation.
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