Cardiac Remodeling in Response to 1 Year of Intensive Endurance Training

Arbab‐Zadeh, Armin; Perhonen, Merja; Howden, Erin J.; Peshock, Ronald M; Zhang, Rong; Adams‐Huet, Beverley; Haykowsky, Mark J.; Levine, Benjamin D.

doi:10.1161/circulationaha.114.010775

Cited by 263 publications

(227 citation statements)

References 55 publications

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“…Alternatively, athletes with MF may be more prone to cardiac remodelling. Several cross sectional (George et al, 2011;Pelliccia, Maron, Spataro, Proschan, & Spirito, 1991) and longitudinal studies (Arbab-Zadeh et al, 2014; 10 ± 1 12 ± 2 PWd (mm) 9 ± 1 11 ± 1 Diastolic function (Echo) E (cm/s) 65 ± 6 62 ± 10 A (cm/s) 60 ± 11 58 ± 5 E/A ratio 1.1 ± 0.3 1.1 ± 0.2 Septal E (cm/s) 10 ± 2 10 ± 2 A (cm/s) 11 ± 2 11 ± 1 Lateral E (cm/s) 11 ± 1 14 ± 3 A (cm/s) 11 ± 2 11 ± 1 Average E (cm/s) 11 ± 1 12 ± 2 A (cm/s) 11 ± 2 11 ± 1 E/E 6 ± 1 5 ± 2 Longitudinal strain (Echo) 2CH (%) −22.7 ± 1.9 −21.9 ± 4.4 4CH (%) −21.7 ± 2.9 −22.6 ± 3. 2CH: apical two chamber view; 4CH: apical four chamber view; APLAX: apical parasternal long axis view; E: early diastolic filling (E-wave); A: late diastolic filling (A-wave); E (cm/s): early diastolic velocity of mitral annulus; A (cm/s): late diastolic velocity of mitral annulus; S (l/s): systolic strain rate; E (l/s): early diastolic strain rate; A (l/s): late diastolic strain rate.…”

Section: Discussionmentioning

confidence: 99%

Global and regional cardiac function in lifelong endurance athletes with and without myocardial fibrosis

Eijsvogels

Oxborough

O’Hanlon

et al. 2017

European Journal of Sport Science

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The aim of the present study was to compare cardiac structure as well as global and regional cardiac function in athletes with and without myocardial fibrosis (MF). Cardiac magnetic resonance imaging with late gadolinium enhancement was used to detect MF and global cardiac structure in nine lifelong veteran endurance athletes (58 ± 5 years, 43 ± 5 years of training). Transthoracic echocardiography using tissue-Doppler and myocardial strain imaging assessed global and regional (18 segments) longitudinal left ventricular function. MF was present in four athletes (range 1-8 g) and not present in five athletes. MF was located near the insertion points of the right ventricular free wall on the left ventricle in three athletes and in the epicardial lateral wall in one athlete. Athletes with MF demonstrated a larger end diastolic volume (205 ± 24 vs 173 ± 18 ml) and posterior wall thickness (11 ± 1 vs 9 ± 1 mm) compared to those without MF. The presence of MF did not mediate global tissue velocities or global longitudinal strain and strain rate; however, regional analysis of longitudinal strain demonstrated reduced function in some fibrotic regions. Furthermore, base to apex gradient was affected in three out of four athletes with MF. Lifelong veteran endurance athletes with MF demonstrate larger cardiac dimensions and normal global cardiac function. Fibrotic areas may demonstrate some co-localised regional cardiac dysfunction, evidenced by an affected cardiac strain and base to apex gradient. These data emphasize the heterogeneous phenotype of MF in athletes.

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Section: Discussionmentioning

confidence: 99%

Global and regional cardiac function in lifelong endurance athletes with and without myocardial fibrosis

Eijsvogels

Oxborough

O’Hanlon

et al. 2017

European Journal of Sport Science

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“…[20][21][22] Likewise, it is often present in elite athletes in the absence of cardiovascular disease. 20,21 This increase in volume load triggers a remodeling response, which consists mainly of LV geometric changes and spherical dilatation along the LV short axis. This remodeling response increases myocardial contractility, as demonstrated by an increase in SV, heart rate, and cardiac output.…”

Section: Cardiac Adaptation From the First To Early Third Trimester Omentioning

confidence: 99%

“…The constellation of findings at term-reduced SV index, diastolic dysfunction, and eccentric remodeling-have been described in other volume overload states as maladaptation occurs, such as mitral regurgitation. 21 One year was chosen as the appropriate postpregnancy time point for assessment given the previous finding of persistent postpartum cardiac findings in preeclampsia.2 At 1 year postpartum in the study participants, all geometric and hemodynamic indices returned to baseline. Septal Em/Am 2.0 (1.6-2.8) 2.1 (1.8-2.8) 2.1 (1.6-2.8) 1.6 (1.2-2.0)* † § 1.3 (1.1-1.9)* † §║ 2.1 (1.6-3.0) ‡║ <0.001…”

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confidence: 99%

Maternal Cardiovascular Function in Normal Pregnancy

et al. 2016

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Abstract-The aim of this study was to investigate cardiac functional status in pregnancy using a comprehensive approach taking into account the simultaneous changes in loading and geometry, as well as maternal age and anthropometric indices. This was a prospective cross-sectional study of 559 nulliparous pregnant women assessed at 4 time points during pregnancy and at 1 year postpartum. All women underwent conventional echocardiography and tissue Doppler velocities and strain rate analysis at multiple cardiac sites. Mean arterial pressure and total vascular resistance index significantly decreased (both P<0.001) during the first 2 trimesters of pregnancy and increased thereafter. Stroke volume index and cardiac index showed the opposite trend compared with mean arterial pressure and total vascular resistance index (both P<0.05). Myocardial and ventricular function were significantly enhanced in the first 2 trimesters but progressively declined thereafter. By the end of pregnancy, significant chamber diastolic dysfunction and impaired myocardial relaxation was evident in 17.9% and 28.4% of women, respectively, whereas myocardial contractility was preserved. There was full recovery of cardiac function at 1 year postpartum. Cardiovascular changes during pregnancy are thought to represent a physiological adaptation to volume overload. The findings of a drop in stroke volume index, impaired myocardial relaxation with diastolic dysfunction, and a tendency toward eccentric remodeling in a significant proportion of cases at term are suggestive of cardiovascular maladaptation to the volume-overloaded state in some apparently normal pregnancies. These unexpected cardiovascular findings have important implications for the management of both normal and pathological pregnancy states. Melchiorre et al Cardiac Function and Geometry in Pregnancy 755changes in maternal loading conditions, cardiac geometry, as well as age and anthropometric indices. MethodsThis was a prospective cross-sectional study performed over a 5-year period from June 2008 to February 2013. Healthy nulliparous women with singleton viable pregnancy were recruited consecutively from the routine antenatal clinic at St George's Hospital, University of London. The local institutional review committee approved the study, and all participants provided written informed consent. Women who subsequently developed adverse maternal complications, such as diabetes mellitus, preeclampsia, peripartum cardiomyopathy, pregnancy complication, or any other medical comorbidity, were excluded from the analysis. Women were recruited at 4 time points during pregnancy (11-14, 20-23, 28-32, and 37-39 weeks' gestation) and at 1 year postpartum after pregnancy care in our institution. A group of 50 nonpregnant healthy volunteer nulliparous women matched for age was also assessed to derive baseline echocardiographic values. All groups were matched for ethnicity and maternal age. To ensure that we recruited optimally healthy women, we also excluded women with a prepregnancy body mass...

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“…CWI at rest was not significantly different in long-distance runners and sprinters. CWI at 50 W, 100 W, and 150 W was lower in long-distance runners than in sprinters (at 50 W, long-distance runners: 1.02 ± 0.07 vs. sprinters: 1.21 ± 0.06 W · m -2 , p < 0.05, 1-β = 0.45; at 100 W, long-distance runners: 1.46 ± 0.06 vs. sprinters: 1.96 ± 0.14 W · m -2 , p < 0.05, 1-β = 0.77; at 150 W, long-distance runners: 2.11 ± 0.07 vs. sprinters: 2.87 ± 0.18 W · m -2 , p < 0.01, 1-β = 0.91), but CWI at maximal exercise was not significantly different between the two groups (long-distance runners: distensible ventricles which enable a steeper slope of the Frank-Starling curve 3) and lower left ventricular filling pressure to stroke volume during exercise 4) . In endurancetrained athletes, an enhanced diastolic function allows for a more complete filling during the later stages of vigorous exercise 5) .…”

Section: Resultsmentioning

confidence: 81%

“…Endurance sports athletes, such as long-distance runners, have been reported to have an increased heart volume and superior cardiac function compared to healthy controls [1][2][3][4] . Although several previous studies measured cardiac output and/or stroke volume during exercise in long-distance runners [5][6][7][8][9] , there has only been one study which measured cardiac output during exercise in both long-distance runners and sprinters 7) .…”

Section: Introductionmentioning

confidence: 99%

Stroke work progressively increased until maximal exercise in long distance runners, but plateaued at submaximal exercise in sprinters

Fukuda

Matsumoto

Kurano

et al. 2018

JPFSM

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The possible difference in the pattern of cardiac work and stroke work response during exercise between long-distance runners and sprinters remains unclarified. The present study was conducted to elucidate the difference in these responses during exercise between long-distance runners and sprinters. A total of 11 female college athletes (5 long-distance runners and 6 sprinters) performed incremental bicycle exercise testing with respiratory gas exchange measurement. Cardiac index and stroke volume index were continuously measured during exercise by a thoracic impedance method (Physioflow). Cardiac work index (CWI) and stroke work index (SWI) were calculated as the product of cardiac index and mean blood pressure, and the product of stroke volume index and mean blood pressure, respectively. CWI progressively increased from rest to maximal exercise both in long-distance runners and sprinters. SWI progressively increased until maximal exercise in long-distance runners (at 150W: 89.5 ± 3.3 vs. at maximal exercise: 109.3 ± 6.8 g · m · m -2 , p < 0.005), but plateaued at 150W in sprinters (at 150W: 107.9 ± 7.6 vs. at maximal exercise: 109.8 ± 6.7 g · m · m -2 , p = N.S.). In conclusion, SWI progressively increased until maximal exercise in long-distance runners, but plateaued at submaximal exercise in sprinters. Judging from SWI response during exercise, long-distance runners might have a superior cardiac function compared to sprinters.

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Cardiac Remodeling in Response to 1 Year of Intensive Endurance Training

Cited by 263 publications

References 55 publications

Global and regional cardiac function in lifelong endurance athletes with and without myocardial fibrosis

Global and regional cardiac function in lifelong endurance athletes with and without myocardial fibrosis

Maternal Cardiovascular Function in Normal Pregnancy

Stroke work progressively increased until maximal exercise in long distance runners, but plateaued at submaximal exercise in sprinters

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