Clinical Physiology Laboratory, Capital Institute of Pediatrics, Graduate School of Peking Union Medical College, Beijing, China.
Cardiac Intensive Care Unit, Heart Center, Guangzhou Women and Children's, Guangzhou Medical University, Guangzhou, Guangdong Province, China.
JPEN J Parenter Enteral Nutr. 2021 Mar;45(3):553-566. doi: 10.1002/jpen.1863. Epub 2020 Jun 4.
Nutrition therapies in children with congenital heart disease (CHD) after cardiopulmonary bypass (CPB) is crucial, but energy and protein requirements remain undefined. We assessed energy and protein requirements, with nitrogen kinetics and clinical outcomes, in infants with complex CHD following CPB.
Infants were randomized to control (1.3 g/kg/d), moderate protein (MP, 2.5 g/kg/d), or high protein (HP, 4 g/kg/d) groups. Resting energy expenditure (REE) was measured 6 hours post-CPB and then at 24-hour intervals, using indirect calorimetry to formulate energy intakes. Enteral formula feeding was initiated 6 hours post-CPB and continued for 5 days. Nitrogen balance (NB); urea nitrogen waste and nitrogen retention; serum prealbumin level; and hepatic, renal, and cardiac function were measured daily. Mid-upper arm circumference and triceps skinfold were measured preoperatively and 5 days after CPB. Adverse outcomes (bacterial infection, reintubation, and cardiac intensive care unit (CICU) stay > 8 days) were recorded.
REE was not different across the 3 groups (P = .37). It declined from 62 ± 6 to 57 ± 7 kcal/kg/d over 5 days post-CPB (P = .02). NB and nitrogen retention became positive by day 3 in the HP group but remained negative in the other 2 groups (P = .045-.003), despite higher urea nitrogen waste in the HP group (P < .0001). The HP group had a greater increase in serum prealbumin level and anthropometric measures (P = .009-.03). Other measures were not significantly different across the 3 groups.
In infants with complex CHD in the first 5 days post-CPB, protein and energy intakes of ≈4 g/kg/d and 60 kcal/kg/d, respectively, led to improved nutrition outcomes without increased adverse events.
体外循环(CPB)后先天性心脏病(CHD)患儿的营养治疗至关重要,但能量和蛋白质需求仍未确定。我们评估了 CPB 后复杂 CHD 婴儿的能量和蛋白质需求、氮动力学和临床结局。
婴儿随机分为对照组(1.3 g/kg/d)、中等蛋白组(MP,2.5 g/kg/d)和高蛋白组(HP,4 g/kg/d)。CPB 后 6 小时测量静息能量消耗(REE),然后每 24 小时测量一次,使用间接热量法制定能量摄入量。CPB 后 6 小时开始肠内配方喂养,持续 5 天。测量氮平衡(NB);尿素氮废物和氮潴留;血清前白蛋白水平;以及肝、肾和心功能。术前和 CPB 后 5 天测量中上臂围和肱三头肌皮褶厚度。记录不良结局(细菌感染、再插管和心脏重症监护病房(CICU)停留>8 天)。
三组之间 REE 无差异(P=.37)。CPB 后 5 天,REE 从 62±6 降至 57±7 kcal/kg/d(P=.02)。HP 组第 3 天 NB 和氮潴留转为正值,但其他两组仍为负值(P=.045-.003),尽管 HP 组尿素氮废物较高(P<.0001)。HP 组血清前白蛋白水平和人体测量指标增加较大(P=.009-.03)。三组之间其他指标无显著差异。
CPB 后第 1-5 天,复杂 CHD 婴儿的蛋白质和能量摄入量分别约为 4 g/kg/d 和 60 kcal/kg/d,可改善营养结局,且不良事件无增加。
