McClave S A, Lowen C C, Kleber M J, Nicholson J F, Jimmerson S C, McConnell J W, Jung L Y
Department of Medicine, University of Louisville School of Medicine, Kentucky 40292, USA.
JPEN J Parenter Enteral Nutr. 1998 Nov-Dec;22(6):375-81. doi: 10.1177/0148607198022006375.
Specific morbidity related to underfeeding and overfeeding necessitates the design of nutrition support regimens that provide calories equal to those required on the basis of energy expenditure. This prospective multicenter trial was designed to determine what percent of patients in long-term acute care facilities receive feeding appropriate to their needs and whether accuracy of feeding has an impact on patient clinical status.
Patients on mechanical ventilation who were hospitalized at 32 Vencor Hospitals over a 9-week period and who were receiving only enteral nutrition by continuous infusion at a presumed goal rate were evaluated once by indirect calorimetry (IC) while on feeding. Caloric intake over the preceding 24 hours was determined by physician orders and by patient intake/output (I/O) record. Caloric requirements were defined by measured resting energy expenditure (REE) + 10% for activity. Degree of metabolism was defined by the ratio: (measured REE/Harris-Benedict predicted REE) x 100, and the degree of feeding by the ratio: (calories provided/calories required) x 100.
IC was performed on 335 patients (mean, 11.2 patients per center; range, 1 to 32), of which 72 were excluded for nonphysiological results or failure to achieve steady state, 21 for receiving parenteral nutrition, and 29 for not being on mechanical ventilation at time of testing. The 213 study patients were 58.7% male with mean age 70.1 years (range, 20 to 90 years). Measured REE was <25 kcal/kg in 66.2% of patients and 25 to 35 kcal/kg in 28.6%. Barely half (48.4%) of this patient population was hypermetabolic. Based on physician orders, the majority of patients (58.2%) were overfed, receiving >110% of required calories, and 12.2% were underfed, receiving <90% of requirements. Discrepancies based on I/O records, however, suggested that 36.1% of patients received <90% of those calories ordered. By either basis, only about 25% of patients received feeding within 10% of required calories. The percent of patients being overfed varied between centers, ranging from 32.2% to 92.8%, and was not affected by years of facility IC experience or volume of IC studies per month. The pattern of caloric provision as measured by degree of feeding correlated inversely to degree of metabolism (p < .0001, R2 = .24). Accuracy of feeding had an impact on ventilatory status, as degree of feeding correlated inversely with minute ventilation (p = .001, R2 = .05). Degree of overfeeding also led to significant increases in azotemia (p = .033, R2 = .02). Extrapolating study data over 1 year, reduction in excess volume of enteral formula would have resulted in a cost savings of up to $1.3 million for the Vencor system.
Because energy expenditure is difficult to predict on the basis of conventional equations, patients in long-term acute care facilities routinely are overfed and underfed, with only 25% receiving calories within 10% of required needs. Measuring a patient's energy requirement at least once by IC is important, because the degree of metabolism predicts how easily a patient will be underfed or overfed. The amount of infused calories should be compared with caloric requirements measured by IC, because the accuracy or degree of underfeeding or overfeeding has an impact on ventilatory status and the likelihood for developing azotemia. Although physician practice or bias may reduce the optimal clinical effect, the use of IC to determine caloric requirements may result in significant cost savings.
与喂养不足和喂养过度相关的特定发病率使得有必要设计营养支持方案,以提供与基于能量消耗所需热量相等的热量。这项前瞻性多中心试验旨在确定长期急性护理机构中接受适当需求喂养的患者比例,以及喂养的准确性是否对患者的临床状况有影响。
在9周期间,对32家Vencor医院住院的接受机械通气且仅通过持续输注接受肠内营养的患者,按照假定的目标速率进行评估,在喂养期间通过间接测热法(IC)测量一次。前24小时的热量摄入由医生医嘱和患者的摄入量/输出量(I/O)记录确定。热量需求通过测量的静息能量消耗(REE)+10%的活动量来定义。代谢程度由以下比率定义:(测量的REE/哈里斯-本尼迪克特预测的REE)×100,喂养程度由以下比率定义:(提供的热量/所需热量)×100。
对335例患者进行了IC测量(平均每个中心11.2例患者;范围为1至32例),其中72例因非生理结果或未达到稳定状态而被排除,21例因接受肠外营养而被排除,29例因测试时未进行机械通气而被排除。213例研究患者中男性占58.7%,平均年龄70.1岁(范围为20至90岁)。66.2%的患者测量的REE<25千卡/千克,28.6%的患者为25至35千卡/千克。该患者群体中仅有一半多一点(48.4%)处于高代谢状态。根据医生医嘱,大多数患者(58.2%)喂养过度,接受的热量超过所需热量的110%,12.2%的患者喂养不足,接受的热量低于需求的90%。然而,根据I/O记录的差异表明,36.1%的患者接受的热量低于医嘱热量的90%。无论依据哪种标准,只有约25%的患者接受的热量在所需热量的10%范围内。各中心喂养过度的患者比例有所不同,范围从32.2%至92.8%,且不受机构IC经验年限或每月IC研究数量的影响。通过喂养程度测量的热量供应模式与代谢程度呈负相关(p<.0001,R2=.24)。喂养的准确性对通气状态有影响,因为喂养程度与分钟通气量呈负相关(p=.001,R2=.05)。喂养过度程度也导致氮质血症显著增加(p=.033,R2=.02)。将研究数据推算一年,减少肠内配方奶的过量供应可为Vencor系统节省高达130万美元的成本。
由于基于传统公式难以预测能量消耗,长期急性护理机构中的患者经常出现喂养过度和喂养不足的情况,只有25%的患者接受的热量在所需热量的10%范围内。至少通过IC测量一次患者的能量需求很重要,因为代谢程度可预测患者出现喂养不足或喂养过度的难易程度。应将输注的热量与通过IC测量的热量需求进行比较,因为喂养不足或喂养过度的准确性或程度会对通气状态和发生氮质血症的可能性产生影响。尽管医生的做法或偏见可能会降低最佳临床效果,但使用IC确定热量需求可能会带来显著的成本节省。
