Challenging of ECMO application in pediatric restrictive cardiomyopathy: case report of a novel TNNI3 variant

Frontiers in Cardiovascular Medicine Pub Date : 2024-05-24 DOI:10.3389/fcvm.2024.1365209

Yuxi Jin, Juan Xu, Y. Hua, Haiyang Zhang, Yifei Li

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Abstract

Restrictive cardiomyopathy (RCM) represents a rare cardiovascular disorder stemming from filament-associated genes. Nonetheless, treating RCM presents considerable challenges, particularly concerning device implantation and mechanical support. Furthermore, elucidating the molecular function of specific variants holds promise in benefiting patients and enhancing prognosis, given the significant heterogeneity among RCM variants.The proband, an eight-year-old female, was admitted to our hospital post cardiopulmonary resuscitation due to sudden cardiac arrest. Echocardiography revealed bilateral atrial enlargement. Whole-exome sequencing uncovered a novel heterozygous mutation (c.509G>A, p.R170Q) in TNNI3. Evaluation using the MutationTaster application deemed c.509G>A pathogenic (probability = 0.99). Following clinical manifestations, imaging assessments, and genetic screening, the proband received an RCM diagnosis. ECMO was recommended along with continuous renal replacement therapy. However, persistent atrial flutter ensued post-ECMO withdrawal. Attempts to restore cardiac rhythm with cardioversion, metoprolol, and amiodarone proved futile. Subsequent heart failure led to the patient's demise due to cardiac shock. Based on crystal protein structural analysis, we observed that cTnI-R170Q and R170W exerted similar impacts on protein structural stability and formation. However, both differed significantly from cTnI-R170G, primarily influencing amino acid regions 32–79 and 129–149, involved in TnC and actin binding. Therefore, cTnI-R170Q was revealed to induce RCM via the same molecular mechanism as cTnI-R170W.Managing RCM remains a critical challenge. This study underscores the discouragement of device implantations for cardiac pump functional support in RCM, particularly for non-short-term scheduled HTx. Additionally, considering catheter ablation for atrial fibrosis-induced AFs is recommended. Mechanistically, cTnI-R170Q primarily diminishes troponin-actin interactions and destabilizes thin filaments.

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小儿局限性心肌病的 ECMO 应用挑战：新型 TNNI3 变异病例报告

限制性心肌病（RCM）是一种罕见的心血管疾病，源于纤丝相关基因。尽管如此，RCM 的治疗仍面临相当大的挑战，尤其是在设备植入和机械支持方面。此外，鉴于 RCM 变体之间存在显著的异质性，阐明特定变体的分子功能有望造福患者并改善预后。超声心动图显示双侧心房增大。全外显子组测序发现 TNNI3 存在一个新的杂合突变（c.509G>A，p.R170Q）。使用 MutationTaster 应用程序进行的评估认为 c.509G>A 具有致病性（概率 = 0.99）。经过临床表现、影像学评估和基因筛查，该患者被确诊为 RCM。建议进行 ECMO 以及持续的肾脏替代治疗。然而，撤除 ECMO 后出现了持续性心房扑动。试图通过心脏电复律、美托洛尔和胺碘酮来恢复心律的努力均无果而终。随后的心力衰竭导致患者因心脏休克而死亡。根据晶体蛋白质结构分析，我们观察到 cTnI-R170Q 和 R170W 对蛋白质结构的稳定性和形成产生了类似的影响。然而，二者与 cTnI-R170G 有明显差异，主要影响涉及 TnC 和肌动蛋白结合的 32-79 和 129-149 氨基酸区。因此，cTnI-R170Q 与 cTnI-R170W 通过相同的分子机制诱导 RCM。这项研究强调，不鼓励在 RCM 中植入用于心泵功能支持的设备，尤其是非短期计划 HTx。此外，建议考虑对心房纤维化诱发的房颤进行导管消融。从机理上讲，cTnI-R170Q 主要减少肌钙蛋白与肌动蛋白的相互作用并破坏细丝的稳定性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Frontiers in Cardiovascular Medicine

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