Rw. Rosebrough et Jp. Mcmurtry, ENERGY REPLETION AND LIPID-METABOLISM DURING COMPENSATORY GAIN IN BROILER-CHICKENS, Growth, development and aging, 57(2), 1993, pp. 73-83
Ross male broiler chickens were used to determine the effect of dietar
y energy on metabolism following a 6-day dietary energy restriction. C
hickens were fed an amount of food (10 g) from 6 to 12 days of age cal
culated to only maintain body weight (maintenance energy) and not supp
ort appreciable growth. The chickens were then fed 1, 2, or 4x this am
ount of food for the period from from 13 to 21 days of age. Another gr
oup of chickens were also restricted from 6 to 12 days of age, but on
an ad libitum basis from days 12 to 21. A control group was fed ad lib
itum throughout the experiment. All chickens were fed ad libitum from
21 to 54 days of age. Chickens were sacrificed at 12, 15, 17, 19, 22,
28, and 54 days. In vitro lipogenesis (IVL) and enzyme activities (iso
citrate dehydrogenase; ICD, malic enzyme; ME, and glutamic oxaloacetic
aminotransferase (GOT) were determined during the 12 to 28-day period
and at 54 days. All restriction groups were lighter (P<0.05) than con
trols at 28 days. Only chickens given 1x and 2x maintenance energy fro
m 12 to 21 days were lighter (P<0.05) than controls at 54 days. The 6-
day energy restriction decreased (P<0.05) IVL and ME and refeeding 2x
and 4x maintenance restored IVL as did refeeding ad libitum. The great
est response was noted between 2 and 4 days following refeeding, surpa
ssing controls at both periods. The significance of the present study
lies in the findings that lipogenesis can be dosed against the energy
intake following restriction and that changes in lipogenesis are very
rapid, reaching steady state within 2 to 3 days. Furthermore, the grow
th data suggest that restriction regimens shift normal growth curves a
nd compensatory growth may be an artifact of expressing data because s
maller, younger birds have less fat than older birds.