Letton R W, Chwals W J, Jamie A, Charles B
Department of Surgery, Bowman Gray School of Medicine, Wake Forest University, Winston-Salem, NC 27157-1095, USA.
J Pediatr Surg. 1995 Jul;30(7):988-92; discussion 992-3. doi: 10.1016/0022-3468(95)90327-5.
Energy needs in infants are decreased after surgery because of growth inhibition (resulting from catabolic stress metabolism), decreased insensible losses, and inactivity. Using standardized formulas that account for growth, activity, and insensible losses during this stress period can lead to overfeeding in excess of 200% of the actual measured requirement. Overfeeding during this acute injury period can result in increased CO2 production from lipogenesis. This study determined the effects of a reduced rate of mixed caloric repletion on infant energy use during the early postoperative period.
C-reactive protein (CRP), oxygen consumption (VO2), carbon dioxide production (VCO2), measured energy expenditure (MEE), and total urinary nitrogen (TUN) were measured serially in seven infants (average age, 78 days) during the first 72 hours after abdominal or thoracic surgery. Nonprotein respiratory quotient (RQnp), and values for oxidation of carbohydrate (Ce) and fat (Fe) were calculated. Injury severity was stratified based on serum CRP concentrations of > or = 6.0 mg/dL (high stress) or < 6.0 mg/dL (low stress). Recovery from acute stress was analyzed by comparing studies in which CRP had decreased to < or = 2.0 mg/dL (resolving stress group) with those in which CRP values were greater than 2.0 mg/dL (acute stress group).
Average total caloric intake (64.56 +/- 18.51 kcal/kg/d; approximately 50% of predicted energy requirement) exceeded average MEE (42.90 +/- 9.98 kcal/kg/d) by approximately 50%. Average TUN was 0.18 +/- 0.07 g/kg/d (high stress 0.2 +/- 0.05 versus low stress 0.16 +/- 0.09 g/kg/d). Average RQnp was 1.05 +/- 0.13 and average Ce was 37.28 +/- 16.86 kcal/kg/d. The average calculated Fe was 0.0 +/- 12.27 kcal/kg/d, reflecting approximately equal amounts of fat oxidized compared with fat generated from excess glucose (lipogenesis). When individual studies were analyzed at a CRP cutpoint of 2.0 mg/dL, overfeeding (RQ > 1.0) was significantly less likely in the resolving (2/6 studies, 33.4%) versus acute stress (9/13 studies, 69.2%, Z test P < .001) group. Five of seven (5/7) patients (9/19 individual studies) had negative Fe values (average -9.89 +/- 10.02) reflecting net lipogenesis. The RQnp for these nine studies was 1.14 +/- 0.11 versus 0.97 +/- 0.09 for the remaining 10, and this difference was significant (P < .01). A significant correlation existed between carbohydrate intake and VCO2 (Pearson r = .6951, P < .01). In addition, there was a good correlation between carbohydrate intake and VCO2 (Pearson r = .6591, P < .01). The coefficient of variation for MEE was 8.0% (low stress) versus 30.2% (high stress).
Lipogenesis with increased CO2 production is substantial, even at reduced caloric delivery rates that exceeded MEE by only 50%, during the early postoperative acute metabolic stress period in infants. These data suggest that caloric requirements during stress are likely equal to or only minimally in excess of actual MEE. Intersubject variability, especially in more severely stressed infants, underscores the importance of serial measurements of energy expenditure to enable precise caloric delivery and avoid overfeeding. In the absence of calorimetric measurement, the data suggest that PBMR (predicted basal metabolic rate) should be used to estimate caloric delivery until CRP values are < or = 2.0 mg/dL.
由于生长抑制(分解代谢应激代谢所致)、不显性失水量减少和活动减少,婴儿术后能量需求降低。在此应激期使用考虑生长、活动和不显性失水的标准化配方可能导致喂养过量,超过实际测量需求量的200%。在这个急性损伤期喂养过量可导致脂肪生成增加二氧化碳产生。本研究确定了术后早期混合热量补充速率降低对婴儿能量利用的影响。
在7名婴儿(平均年龄78天)腹部或胸部手术后的头72小时内,连续测量C反应蛋白(CRP)、耗氧量(VO2)、二氧化碳产生量(VCO2)、测量的能量消耗(MEE)和总尿氮(TUN)。计算非蛋白呼吸商(RQnp)以及碳水化合物氧化值(Ce)和脂肪氧化值(Fe)。根据血清CRP浓度≥6.0mg/dL(高应激)或<6.0mg/dL(低应激)对损伤严重程度进行分层。通过比较CRP降至≤2.0mg/dL的研究(应激缓解组)和CRP值大于2.0mg/dL的研究(急性应激组)分析急性应激的恢复情况。
平均总热量摄入(64.56±18.51kcal/kg/d;约为预测能量需求的50%)比平均MEE(42.90±9.98kcal/kg/d)高出约50%。平均TUN为0.18±0.07g/kg/d(高应激组0.2±0.05,低应激组0.16±0.09g/kg/d)。平均RQnp为1.05±0.13,平均Ce为37.28±16.86kcal/kg/d。计算得出的平均Fe为0.0±12.27kcal/kg/d,表明氧化的脂肪量与过量葡萄糖产生的脂肪量(脂肪生成)大致相等。当在CRP切点为2.0mg/dL时分析个体研究时,应激缓解组(2/6项研究,33.4%)比急性应激组(9/13项研究,69.2%,Z检验P<.001)发生喂养过量(RQ>1.0)的可能性显著降低。7名患者中有5名(5/7)(19项个体研究中的9项)Fe值为负(平均-9.89±10.02),反映了净脂肪生成。这9项研究的RQnp为1.14±0.11,其余10项为0.97±0.09,差异有统计学意义(P<.01)。碳水化合物摄入量与VCO2之间存在显著相关性(Pearson相关系数r=.6951,P<.01)。此外,碳水化合物摄入量与VCO2之间也有良好的相关性(Pearson相关系数r=.6591,P<.01)。MEE的变异系数在低应激组为8.0%,在高应激组为30.2%。
在婴儿术后早期急性代谢应激期,即使热量输送速率降低,仅比MEE高出50%,脂肪生成及二氧化碳产生增加的情况仍很显著。这些数据表明应激期间的热量需求可能等于或仅略高于实际MEE。个体间的变异性,尤其是在应激更严重的婴儿中,凸显了连续测量能量消耗以实现精确热量输送并避免喂养过量的重要性。在没有热量测定的情况下,数据表明在CRP值≤2.0mg/dL之前,应使用预测基础代谢率(PBMR)来估计热量输送。
