Richard P. Chapple scite author profile

1989

The influence of glucocorticoid administration and limited nursing on piglet carbohydrase enzyme development and subsequent growth was examined in three experiments using 371 piglets. Treatments in the first two experiments were formed by the factorial arrangement of hydrocortisone (-HYD or +HYD) and limited nursing (-LN or +LN) imposed form d 14 to weaning (d 28). Hydrocortisone was replaced by adrenocorticotropic hormone (ACTH) in the third experiment. Growth rates were severely depressed by HYD (P less than .01), LN (P less than .001) and to a lesser extent (P less than .06) by ACTH during the last 2 wk of lactation. During the first 14 d postweaning, piglets continued to grow more slowly following HYD treatment (P less than .01), whereas LN piglets grew more rapidly than those allowed to suckle normally. Although piglets were smaller at weaning after HYD injection (P less than .01), relative weights of liver, pancreas and small intestine were increased (P less than .05). Only adrenal weights were increased by ACTH (P less than .09). Pancreatic and intestinal amylase activities were increased two- to three-fold by HYD injection (P less than .05) but were unaffected by ACTH or LN (P greater than .10). Sucrase and maltase activity increased linearly with age (P less than .001). This rate of increase was numerically enhanced by glucocorticoid treatment and LN. The normal decrease in lactase activity was accelerated by LN and HYD injection, with the greatest depression caused by the combination of LN and either HYD or ACTH administration (P less than .05). Glucocorticoid administration to nursing piglets can evoke premature elevation of the carbohydrase enzymes necessary for initiating the hydrolysis of starch.

Applied Animal Behaviour Science

Productivity, time budgets and social aspects of eating in pigs penned in groups of five or individually

Gonyou

Chapple²,

Frank³

1992

Effect of Lysine and Threonine Supplementation of Sorghum Gestation Diets on Nitrogen Balance and Plasma Constituents in First-Litter Gilts

1984

Fifteen gravid, crossbred gilts were utilized in an experiment to measure the effect of five isonitrogenous dietary treatments (12% crude protein, sorghum-soybean meal; sorghum; sorghum + lysine; sorghum + threonine; sorghum + lysine + threonine) on N balance, colostrum composition and plasma constituents (protein, urea N and IgG). All gilts were fed a standard corn-soybean meal diet from breeding until switched to the sorghum basal diet, on d 60 of gestation. Treatment diets were imposed at d 70. Nitrogen retention, measured between d 103 and 113 of gestation, was improved (P less than .002) by lysine addition. Nitrogen retention was similar (P greater than .10) for gilts fed either the 12% crude protein, sorghum-soybean meal diet or the lysine + threonine-supplemented diet. Plasma protein levels at farrowing were depressed (P less than .06) in those gilts fed sorghum diets without supplemental lysine and plasma urea N was elevated (P less than .10). Plasma protein and plasma urea N were not affected by threonine supplementation (P greater than .10). In contrast, the depression of plasma IgG was ameliorated (P less than .03) by threonine and unaffected by lysine supplementation. These results confirm the hypothesis that lysine is the first limiting amino acid in sorghum protein for gravid gilts as determined by N retention but indicate that threonine is likely the first limiting amino acid for the production of the specific protein, IgG.

Temporal Changes in Carbohydrate Digestive Capacity and Growth Rate of Piglets in Response to Glucocorticoid Administration and Weaning Age

1989

Two experiments were conducted that demonstrated that a single injection of hydrocortisone 21-acetate (HYD, 25 mg/kg BW) administered to 6-d-old nursing piglets resulted in a twofold elevation (P less than .02) of pancreatic amylase within 2 d; activity was unaffected by an injection of 15 IU adrenocorticotropic hormone (ACTH)/kg BW (P greater than .20). Intestinal sucrase and maltase activity tended to be elevated (P less than .20) 2 and 4 d postinjection with HYD but returned to normal (uninjected) levels by 14 d of age. The normal decline of intestinal lactase activity was delayed by at least 4 d in response to both hormones (P less than .10). Organ weights were not affected by either hormone. In a separate experiment, postweaning mortality was reduced (12 vs 27%) and growth rate was substantially improved by administration of HYD to piglets 4 and 2 d prior to weaning at 14 d of age. Hydrocortisone resulted in a faster rate of gain the 1st wk postweaning for pigs weaned at 21 or 28 d. Subsequent gain by control and HYD piglets weaned on d 21 was similar, but HYD subsequently impaired growth rate of piglets weaned at 28 d of age. Growth rates of control and ACTH piglets were similar at each postweaning period regardless of weaning age (weaning age [lin.] x week postweaning [quad.] x treatment, P less than .07). This differential treatment response of daily gain may be due in part to effects on feed intake (weaning age [lin.] x week postweaning [lin.] x treatment, P less than .10). We conclude that a single injection of HYD to 6-d-old piglets precociously induces pancreatic amylase and that the sensitivity of piglets to HYD is age-dependent.

Response of Digestive Carbohydrases and Growth to Graded Doses and Administration Frequency of Hydrocortisone and Adrenocorticotropic Hormone in Nursing Piglets

1989

Graded levels of hydrocortisone 21-acetate (HYD) (0, 18, 16 and 24 mg/kg BW) were injected into nursing piglets every other day (Exp. 1) or 24 mg of HYD/kg BW was administered 0, 2, 4 or 6 times during the treatment period (12 d) with equal time (6 d, 3 d or 2 d) between subsequent injections (Exp. 2). Adrenocorticotropic hormone (ACTH) was injected to provide 0, 5, 10 or 15 IU/kg BW (Exp. 3), or 15 IU ACTH/kg BW was injected 0, 1, 2 or 3 times (Exp. 4). The injection treatment periods were from d 14 to d 26 postpartum. Pancreatic and intestinal amylase activity was maximized by the highest dosage of HYD (24 mg) and ACTH (15 IU) when given at 2- or 4-d intervals, respectively (P less than .10). However, four injections of HYD administered 3 d apart optimized the activity of this enzyme in Exp. 2 (P less than .05). Intestinal sucrase and maltase were unresponsive to ACTH regardless of dosage or injection frequency (P greater than .10). The response of these two enzymes to HYD was inconsistent. Maltase activity was elevated (P less than .10) by the two most frequent injection treatments, and sucrase activity was simultaneously depressed. Lactase activity tended (P less than .15) to be depressed by the highest treatment level in all four experiments. Both dosage and frequency methods of increasing HYD administration resulted in hepatic and pancreatic hypertrophy.(ABSTRACT TRUNCATED AT 250 WORDS)