Muller Steven A, Asatryan Babken, Gasperetti Alessio, Cramer Maarten J, Amin Ahmad S, Loh Peter, Carrick Richard T, Cox Moniek G P J, van der Harst Pim, Oerlemans Marish I F J, Tichnell Crystal, Yap Sing-Chien, Murray Brittney, Zimmerman Stefan L, van Tintelen J Peter, Calkins Hugh, Te Riele Anneline S J M, James Cynthia A
Division of Cardiology, Department of Medicine, Johns Hopkins University School of Medicine, Baltimore, MD (S.A.M., B.A., A.G., R.T.C., C.T., B.M., S.L.Z., H.C., C.A.J.).
Department of Cardiology, University Medical Center Utrecht, Netherlands (S.A.M., M.J.C., P.L., P.v.d.H., M.I.F.J.O., A.S.J.M.t.R.).
Circulation. 2025 Jun 17. doi: 10.1161/CIRCULATIONAHA.125.074058.
Penetrance and risk of ventricular arrhythmias (VAs) in arrhythmogenic right ventricular cardiomyopathy (ARVC) are increasingly recognized as being genotype specific. Therefore, genotype-informed family screening protocols may lead to safer and more personalized recommendations than the current one-size-fits-all screening recommendations. We aimed to develop a safe, evidence-based plakophilin-2 ()-specific longitudinal screening algorithm.
We included 295 relatives (41% male; age 30.9 years [18.0-47.7 years]) with a pathogenic or likely pathogenic variant from 145 families. Phenotype was ascertained with ECG, Holter monitoring, and cardiac imaging and classified by the 2010 Task Force Criteria. VA was defined as a composite of sudden cardiac arrest or death, spontaneous sustained ventricular tachycardia, ventricular fibrillation, or appropriate implantable cardioverter defibrillator intervention. We performed Cox regression to determine predictors of ARVC development and multistate modeling to assess the probability of ARVC development and occurrence of VA.
At baseline, 110 relatives (37%) had definite ARVC. During 8.5 years (4.2-12.9 years) of follow-up, 62 of 185 relatives (34%) without definite ARVC at baseline progressed to definite ARVC diagnosis, and 35 of 295 of all relatives (12%) had VA. VAs occurred only in relatives who previously fulfilled definite ARVC diagnosis. Relatives with borderline ARVC (fulfillment of one minor criterion plus the major family history criterion) progressed 5 times faster in the multistate model to definite ARVC diagnosis and compared with genotype-positive/phenotype-negative (G+/P-) relatives (ie, major family history criterion alone). Relatives 20 to 40 years of age had increased risk for developing definite ARVC (hazard ratio, 2.23; =0.012) compared with those ≥40 years of age. New Task Force Criteria fulfillment most commonly occurred first on ECGs, followed by Holter monitoring and cardiac imaging. Consequently, 3 risk profiles were identified, and appropriate screening protocols were derived: relatives with borderline ARVC (annual ECG and Holter monitoring; complete evaluation [ie, ECGs, Holter monitoring, and imaging] every 2 years), younger (<40 years of age) or symptomatic G+/P- relatives (every 2 years an ECG and Holter monitoring; complete evaluation every 4 years), and older (≥40 years of age) and asymptomatic G+/P- relatives (complete evaluation every 5 years).
An evidence-based longitudinal screening algorithm that integrates age, symptoms, and baseline clinical phenotype may improve patient care and improve efficiency of clinical resource allocation.
致心律失常性右室心肌病(ARVC)中心室心律失常(VA)的外显率和风险越来越被认为具有基因型特异性。因此,与当前一刀切的筛查建议相比,基于基因型的家族筛查方案可能会带来更安全、更个性化的建议。我们旨在开发一种安全的、基于证据的盘状球蛋白2(PKP2)特异性纵向筛查算法。
我们纳入了来自145个家庭的295名亲属(41%为男性;年龄30.9岁[18.0 - 47.7岁]),他们携带致病性或可能致病性的PKP2变异。通过心电图、动态心电图监测和心脏成像确定表型,并根据2010年工作组标准进行分类。VA被定义为心脏骤停或死亡、自发性持续性室性心动过速、心室颤动或合适的植入式心脏复律除颤器干预的综合情况。我们进行Cox回归以确定ARVC发生的预测因素,并进行多状态建模以评估ARVC发生和VA出现的概率。
基线时,110名亲属(37%)患有明确的ARVC。在8.5年(4.2 - 12.9年)的随访期间,185名基线时无明确ARVC的亲属中有62名(34%)进展为明确的ARVC诊断,295名亲属中有35名(12%)发生VA。VA仅发生在先前已确诊为明确ARVC的亲属中。在多状态模型中,边缘性ARVC(满足一项次要标准加主要家族史标准)的亲属进展为明确ARVC诊断的速度比基因型阳性/表型阴性(G + /P -)亲属(即仅满足主要家族史标准)快5倍。与≥40岁者相比,20至40岁的亲属发生明确ARVC的风险增加(风险比,2.23;P = 0.012)。新工作组标准的满足情况最常首先出现在心电图上,其次是动态心电图监测和心脏成像。因此,确定了3种风险概况,并得出了适当的筛查方案:边缘性ARVC亲属(每年进行心电图和动态心电图监测;每2年进行全面评估[即心电图、动态心电图监测和成像])、年龄较小(<40岁)或有症状的G + /P -亲属(每2年进行一次心电图和动态心电图监测;每4年进行全面评估)以及年龄较大(≥40岁)且无症状的G + /P -亲属(每5年进行全面评估)。
一种整合年龄、症状和基线临床表型的基于证据的纵向筛查算法可能会改善患者护理并提高临床资源分配效率。
