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Tissue characteristics of the athlete"s heart: differentiation of physiological and pathological hypertrophy using parametric T1 and T2 mapping

Vago, H ; Dohy, Z ; Szabo, L ; [et al.]

Oxford University Press (OUP) ; 2021

In: European Heart Journal - Cardiovascular Imaging Vol. 22, No. Supplement_1 ( 2021-02-08)

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In: European Heart Journal - Cardiovascular Imaging, Oxford University Press (OUP), Vol. 22, No. Supplement_1 ( 2021-02-08)

Abstract: Type of funding sources: Public grant(s) – National budget only. Main funding source(s): National Research, Development and Innovation Fund of Hungary Background Intensive physical exercise leads to structural and functional cardiac adaptation termed athlete’s heart. Cardiac magnetic resonance (CMR) has an important role in the differentiation of physiological adaptation and pathological conditions. Beside the precise measurement of the ventricular volumes, mass, and function, it provides tissue specific information. Recently, native T1 mapping technique has been applied as a non-contrast method to detect myocardial fibrosis. Previous studies suggested that native T1 mapping can identify myocardial pathology before other CMR imaging techniques. T2 mapping values are elevated in case of myocardial edema. Purpose The aim of our study was to investigate the differences in CMR characteristics especially the native T1 and T2 mapping values of highly trained healthy athletes, healthy controls and patients with hypertrophic cardiomyopathy (HCM). Methods A total of 43 healthy athletes (water polo, swimming, football, 22 ± 8 training hours/week), 27 non-athlete healthy control and 25 HCM patients were involved in the study. Our inclusion criteria were: age & gt;18 years, in the athlete group & gt;7 training hours per week . We evaluated the left ventricular (LV) end-systolic, end-diastolic (EDVi) and stroke volume (SVi) index, mass index (LVMi), ejection fraction (EF) and maximal end-diastolic wall thickness (EDWT). In a basal short axis slice the native T1 and T2 mapping values were evaluated. Results Athletes had significantly higher LV volumes compared to the control and HCM group (LVEDVi 114 ± 13 vs. 86 ± 11; 84 ± 15 ml/m2, LVSVi 64 ± 7 vs. 51 ± 7; 54 ± 10 ml/m2, respectively, p & lt; 0.0001). HCM patients had the highest LVMi (72 ± 14 g/m2) and EDWT (18 ± 4 mm) compared to athletes and controls, athletes had higher LVMi (60 ± 11 vs. 42 ± 8 g/m2) and EDWT (10 ± 2 vs. 8 ± 1 mm) compared to the controls (p & lt; 0.001). The native T1 mapping values differed significantly in the three groups, athletes had the lowest, HCM patients had the highest T1 values (athletes: 956 ± 19 ms, controls: 971 ± 20 ms, HCM patients: 993 ± 39 ms; p & lt; 0.0001). There was no difference in the T2 mapping values between athletes and controls (44 ± 2 vs. 43 ± 2 ms), HCM patients had higher T2 values (45 ± 2 ms) compared to the other two groups (p & lt; 0.01). Conclusion Intensive and regular training may lead to tissue specific changes of the myocardium. T1 and T2 mapping are potentially useful tools for differentiating between athlete"s heart and patients with hypertrophic cardiomyopathy. Abstract Figure. T1 mapping in HCM and athlete

Type of Medium: Online Resource

ISSN: 2047-2404 , 2047-2412

URL: Article

DOI: 10.1093/ehjci/jeaa356.317

Language: English

Publisher: Oxford University Press (OUP)

Publication Date: 2021

detail.hit.zdb_id: 2042482-6

detail.hit.zdb_id: 2647943-6

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How native T1 and T2 mapping is influenced by sex and training load? Cardiac magnetic resonance imaging in young elite athletes and less active individuals

Szabo, L ; Dohy, Z ; Juhasz, V ; [et al.]

Oxford University Press (OUP) ; 2022

In: European Journal of Preventive Cardiology Vol. 29, No. Supplement_1 ( 2022-05-11)

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In: European Journal of Preventive Cardiology, Oxford University Press (OUP), Vol. 29, No. Supplement_1 ( 2022-05-11)

Abstract: Type of funding sources: Other. Main funding source(s): This study was financed by the Ministry of Innovation and Technology NRDI Office within the framework of the Artificial Intelligence National Laboratory Program. LS is supported by the EACVI Research Grant 2021. Introduction Cardiac adaptation due to regular and intense exercise is a well-known phenomenon. Cardiac magnetic resonance (CMR) imaging is a well suited, highly reproducible technique that has a vital role in differentiating physiological adaptation and pathological alterations. Native T1 and T2 mapping enable the quantitative assessment of tissue characteristics without the administration of contrast material. These techniques are increasingly used in studies aiming to consider subtle differences. However, the sex-and training-dependence of native T1 and T2 mapping values remains incompletely understood. Purpose We aimed to describe the differences in native T1 and T2 mapping among healthy athletes and less active individuals. Methods We enrolled healthy elite athletes (n=88, 56 male, 25±5 years) and healthy volunteers (n=82, 46 male, 25±3 years) to undergo CMR examinations at our Centre. Healthy elite athletes performed high sports activity levels ( & gt;10 hours/week) and competed nationally or internationally. Sex- and age-matched healthy volunteers engaged in ≤6 hours/week of sports activity. Standardized CMR protocol included short- and long-axis cine images covering the entire left (LV) and right (RV) ventricle and native T1 and T2 mapping in basal, midventricular and apical slices. Results Athletes had consistently higher LV and RV volumes and mass indexes compared to healthy volunteers (p & lt;.001 for all). Native T1 mapping was lower in athletes than in the control group (T1: 954±24 ms vs 970±23 ms; p & lt;.001). T1 mapping showed a moderately strong negative correlation to markers of cardiac adaptation, including LV mass, end-diastolic volume and stroke volume indexes (p & lt;.001 for all). Moreover, we found a negative correlation between native T1 and training hours (Rho: -0.302; p & lt;.001). On the other hand, native T2 mapping showed no difference between athletes and less active controls. Furthermore, T2 correlated with LV shape features but not with training hours. We found that mapping values differed between sexes, both in the athletic and control groups. Females showed slightly higher values compared to their male counterparts (T2: 46±2 vs 43±2; p & lt;.001). Finally, native T1 mapping was associated with training hours and sex in our multiple linear regression model, adjusted for age, resting heart rate, body mass index, body surface area and LVM (p & lt;.001). While T2 mapping was associated only with sex considering the same covariates. Conclusion Our study demonstrates the importance of sex-matched controls in CMR studies evaluating mapping parameters. Moreover, the consideration of exercise load seems paramount in the case of T1 mapping.

Type of Medium: Online Resource

ISSN: 2047-4873 , 2047-4881

URL: Article

DOI: 10.1093/eurjpc/zwac056.266

Language: English

Publisher: Oxford University Press (OUP)

Publication Date: 2022

detail.hit.zdb_id: 2646239-4

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