Foye O T, Ferket P R, Uni Z
Department of Poultry Science, North Carolina State University, Raleigh 27695-7608, USA.
Poult Sci. 2007 Nov;86(11):2343-9. doi: 10.3382/ps.2007-00110.
In ovo feeding, injecting nutrients into the amnion of the avian embryo, may enhance jejunal nutrient uptake, activity of the intestinal enzymes, and posthatch growth. This hypothesis was tested in the following in ovo feeding (IOF) experiments. In experiment 1, 400 eggs were evenly distributed among 4 nutritional treatments at 23 d of embryonic development (23E) and administered 1 of 4 treatments as a 2 x 2 factorial arrangement of arginine (ARG 0, 0.7%) and beta-hydroxy-beta-methyl-butyrate (HMB 0, 0.1%). Tissues were assayed for maltase, sucrase, and leucine aminopeptidase (LAP) at 25E, hatch, and 3, 7, and 14 d. In experiment 2, all IOF procedures were repeated and treatments were administered at 21E: injected or noninjected control, 21% egg white protein (EWP), 21% EWP + 0.1% HMB. In experiment 3, two hundred eggs were evenly distributed among the following treatments at 23E: noninjected control or 0.7% ARG + 0.1% HMB + 21% EWP. Jejunal samples were assayed for glucose or alanine uptake at 23E, 25E, and hatch (experiment 2), and hatch and 7 d (experiment 3), respectively. All poults were fed a turkey starter diet ad libitum immediately upon hatching. There was a highly significant HMB x ARG interaction on jejunal sucrase, maltase, and LAP activities at 25E and 14 d. Poults in ovo (IO) fed HMB + ARG had approximately a 2- to 3-fold increase in jejunal sucrase, maltase, and LAP activities at 25E, and a 3-fold increase at 14 d, over other treatments. Poults IO fed EWP + HMB (experiment 2) had enhanced glucose uptake at 25E, whereas poults IO fed ARG + HMB + EWP (experiment 3) had enhanced alanine uptake at hatch and 7 d. These studies demonstrate that IOF ARG, HMB, and EWP may enhance jejunal nutrient uptake and digestion in turkeys.
卵内饲喂,即将营养物质注入禽类胚胎的羊膜腔,可能会增强空肠对营养物质的吸收、肠道酶的活性以及出壳后的生长。在以下卵内饲喂(IOF)实验中对这一假设进行了验证。在实验1中,400枚鸡蛋在胚胎发育23天(23E)时被均匀分配到4种营养处理组中,按照精氨酸(ARG 0、0.7%)和β-羟基-β-甲基丁酸酯(HMB 0、0.1%)的2×2析因设计安排给予4种处理中的1种。在25E、出壳时以及3、7和14日龄时对组织进行麦芽糖酶、蔗糖酶和亮氨酸氨肽酶(LAP)的测定。在实验2中,重复所有IOF程序,并在21E时给予处理:注射或未注射对照、21%蛋清蛋白(EWP)、21% EWP + 0.1% HMB。在实验3中,200枚鸡蛋在23E时被均匀分配到以下处理组中:未注射对照或0.7% ARG + 0.1% HMB + 21% EWP。分别在23E、25E和出壳时(实验2)以及出壳时和7日龄时(实验3)对空肠样本进行葡萄糖或丙氨酸吸收的测定。所有雏禽出壳后立即自由采食火鸡育雏日粮。在25E和14日龄时,HMB×ARG对空肠蔗糖酶、麦芽糖酶和LAP活性有极显著的交互作用。与其他处理相比,卵内饲喂HMB + ARG的雏禽在25E时空肠蔗糖酶、麦芽糖酶和LAP活性大约增加2至3倍,在14日龄时增加3倍。卵内饲喂EWP + HMB的雏禽(实验2)在25E时葡萄糖吸收增强,而卵内饲喂ARG + HMB + EWP的雏禽(实验3)在出壳时和7日龄时丙氨酸吸收增强。这些研究表明,卵内饲喂ARG、HMB和EWP可能会增强火鸡空肠对营养物质的吸收和消化。
