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RESEARCH PRODUCT
Special Article - Exercise-induced right ventricular injury or arrhythmogenic cardiomyopathy (ACM): The bright side and the dark side of the moon.
Mark HorlitzBirgit DworrakGiuseppe LippiFernando De La Guía-galipiensoMarcus StraussMarco V PerezRoman LeischikFabian Sanchis-gomarFabian Sanchis-gomarCarl J. LavieHelios Pareja-galeanosubject
medicine.medical_specialtySports medicineVentricular Dysfunction RightCardiomyopathy030204 cardiovascular system & hematologyRisk AssessmentBoth ventriclesSudden cardiac death03 medical and health sciences0302 clinical medicineInternal medicinemedicineGenetic predispositionHumansGenetic Predisposition to Disease030212 general & internal medicineCardiomegaly Exercise-InducedPathologicalExerciseArrhythmogenic Right Ventricular DysplasiabiologyVentricular Remodelingbusiness.industryAthletesMyocardiummedicine.diseasebiology.organism_classificationAdaptation PhysiologicalFibrosismedicine.anatomical_structureDeath Sudden CardiacVentricleAthletesHeart Disease Risk FactorsCardiologyPhysical EnduranceVentricular Function RightCardiology and Cardiovascular Medicinebusinessdescription
There is still debate on the range of normal physiologic changes of the right ventricle or ventricular (RV) function in athletes. Genetic links to arrhythmogenic cardiomyopathy (ACM) are well-established. There is no current consensus on the importance of extensive exercise and exercise-induced injury to the RV. During the intensive exercise of endurance sports, the cardiac structures adapt to athletic load over time. Some athletes develop RV cardiomyopathy possibly caused by genetic predisposition, whilst others develop arrhythmias from the RV. Endurance sports lead to increased volume and pressure load in both ventricles and increased myocardial mass. The extent of volume increase and changes in myocardial structure contribute to impairment of RV function and pose a challenge in cardiovascular sports medicine. Genetic predisposition to ACM may play an important role in the risk of sudden cardiac death of athletes. In this review, we discuss and evaluate existing results and opinions. Intensive training in competitive dynamic/power and endurance sports leads to specific RV adaptation, but physiological adaptation without genetic predisposition does not necessarily lead to severe complications in endurance sports. Discriminating between physiological adaptation and pathological form of ACM or RV impairment provoked by reinforced exercise presents a challenge to clinical sports cardiologists.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-03-22 | Progress in cardiovascular diseases |