医学
心脏病学
内科学
心室
心室重构
耐力训练
血流动力学
运动员
肥厚性心肌病
心肌病
劳累
心力衰竭
最大VO2
肺动脉高压
运动不耐症
肺栓塞
磁共振成像
病态的
心源性猝死
心脏磁共振成像
静脉回流曲线
优秀运动员
舒张期
容量过载
心功能曲线
心输出量
充血
多普勒超声心动图
冲程容积
缺氧(环境)
作者
Jonathan S. Ahn,Elizabeth H Dineen,Kristina H. Haugaa,BASSAM YAGHMOUR,Jennifer Xu
标识
DOI:10.1093/ehjcr/ytaf598
摘要
Abstract Background Distinguishing physiological cardiac adaptation from pathological remodeling in endurance athletes is challenging. While the athletic heart typically demonstrates balanced biventricular enlargement, extreme exercise may rarely trigger disproportionate right ventricular (RV) changes that challenge diagnostic classification. Case Summary A 47-year-old male ultra-endurance athlete presented with exertional symptoms three months after recovery from a pulmonary embolism (PE). Initial post-PE echocardiography was normal. After resuming extreme training, he developed severe RV dilation (basal diameter 5.7 cm on echocardiography; RV volume index 92 cc/m² on cardiac magnetic resonance imaging) disproportionate to the left ventricle, with preserved systolic function and no late gadolinium enhancement. Cardiopulmonary exercise testing revealed significant chronotropic incompetence with below-expected peak oxygen uptake for his elite training status. Symptoms and ventricular ectopy improved with detraining, but severe RV dilation persisted. Evaluation excluded arrhythmogenic cardiomyopathy and significant pulmonary vascular sequelae. Discussion This case illustrates disproportionate RV remodeling precipitated by the resumption of extreme exercise in a susceptible athlete post-PE. The temporal dissociation from the PE and absence of residual clot burden implicate exercise-related hemodynamic stress as the primary driver, challenging the boundary between physiological adaptation and maladaptation. These findings highlight a potential maladaptive response to extreme exercise, possibly potentiated by a prior vascular insult, and underscore the value of integrated functional assessment and monitored detraining in athletes with borderline findings.
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