Kamphuis Arwen S J, Hirsch Alexander, Rizopoulos Dimitris, Budde Ricardo P J, Roest Arno A W, Jaddoe Vincent W V, Gaillard Romy
The Generation R Study Group Erasmus MC, University Medical Center Rotterdam The Netherlands.
Department of Pediatrics, Sophia Children's Hospital Erasmus MC, University Medical Center Rotterdam The Netherlands.
J Am Heart Assoc. 2025 Jul 15;14(14):e039685. doi: 10.1161/JAHA.124.039685. Epub 2025 Jul 14.
Abnormal birth weight and infant weight gain are recognized as risk factors for cardiovascular diseases. Underlying mechanisms remain unclear. Exercise testing can detect subtle differences in cardiovascular function not present at rest. We examined associations of fetal and infant growth with the cardiovascular stress response in adolescence.
We examined a subsample of 207 children from a population-based prospective cohort from fetal life onwards. Fetal and infant growth were assessed from the second trimester to 2 years. At 16 years, participants performed an isometric handgrip exercise with continuous heart rate and blood pressure monitoring and cardiovascular magnetic resonance imaging.
Children showed a clear peak in heart rate and systolic and diastolic blood pressure during exercise, followed by a decrease below baseline after exercise cessation, before stabilizing. Higher gestational age was associated with lower systolic blood pressure throughout the exercise (differences per SD score increase in gestational age: rest, -2.24 mm Hg [95% CI, -4.23 to -0.25 mm Hg], peak exercise (-2.37 mm Hg [95% CI, -4.70 to -0.04 mm Hg]), recovery (-2.57 mm Hg [95% CI, -4.72 to -0.42 mm Hg])) but not with heart rate or CMR outcomes. No consistent associations were present for birth weight or infant growth with the cardiovascular stress response.
A lower gestational age at birth is associated with an altered response to exercise in systolic blood pressure. Fetal or infant growth is not associated with differences in cardiovascular response to exercise-induced stress in adolescence in a relatively healthy population. Follow-up of children born preterm is important to enable early identification and prevention of cardiovascular disease development.
出生体重异常和婴儿体重增加被认为是心血管疾病的危险因素。其潜在机制尚不清楚。运动测试可以检测出静息时不存在的心血管功能细微差异。我们研究了胎儿和婴儿生长与青少年心血管应激反应之间的关联。
我们从一个基于人群的前瞻性队列中选取了207名儿童作为子样本,从胎儿期开始进行研究。从孕中期到2岁评估胎儿和婴儿的生长情况。在16岁时,参与者进行等长握力运动,并持续监测心率和血压,同时进行心血管磁共振成像。
儿童在运动期间心率、收缩压和舒张压出现明显峰值,运动停止后降至基线以下,然后趋于稳定。较高的孕周与整个运动过程中较低的收缩压相关(孕周每增加1个标准差得分的差异:静息时为-2.24 mmHg[95%CI,-4.23至-0.25 mmHg],运动峰值时为-2.37 mmHg[95%CI,-4.70至-0.04 mmHg],恢复时为-2.57 mmHg[95%CI,-4.72至-0.42 mmHg]),但与心率或心血管磁共振成像结果无关。出生体重或婴儿生长与心血管应激反应之间没有一致的关联。
较低的出生孕周与运动时收缩压反应改变有关。在相对健康的人群中,胎儿或婴儿生长与青少年运动诱导应激的心血管反应差异无关。对早产儿进行随访对于早期识别和预防心血管疾病发展很重要。
