Jennifer A. Eastwood scite author profile

An experiment involving 35 White Leghorn hens was conducted to study the influence of graded levels of supplemental yellow grease on rate of food passage (transit time). Seven experimental diets (0, 5, 10, 15, 20, 25, and 30% supplemental fat) were formulated. Transit time was determined by utilizing either Cr2O3 or 144Ce as indicators. First appearance of the markers in the excreta and percentages of the markers ingested that were recovered in excreta 10 hr after feeding were criteria used to determine transit time. There was a significant (P less than .01) linear effect of fat on transit time of Cr2O3 whereby the time required for the marker to appear in the excreta increased with increments of supplemental fat. Average first appearance time of Cr2O3 was 193, 219, 214, 227, 251, 250, and 270 min for the diets containing 0, 5, 10, 15, 20, 25, and 30% supplemental fat, respectively. Transit time of 144Ce also was increased slightly (P less than .10) by fat supplementation. Transit time, measured as percentage of marker recovered in excreta 10 hr after feeding, was faster for the control than for the fat-supplemented diets, although the linear effects of fat were not statistically significant (P greater than .10). The results show that supplemental fat increased transit time of ingesta in chickens. This observation may be helpful in understanding the nature of the extrametabolic effect of fat in poultry diets. By increasing transit time, supplemental fats may improve digestibility of other dietary constituents and thereby increase the utilization of dietary energy.

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The concept of substantial equivalence

Eastwood¹,

McIntyre²,

Mayers³

et al. 2002

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Chemical and biological monitoring of chronic lead poisoning in the rat. Implications to the assessment of hazard of low‐level lead

Wigfield¹,

Chakrabarti²,

Wright³

et al. 1986

J of Applied Toxicology

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A study on rats of the effects of lead on delta-aminolevulinate dehydratase (ALA-D) activity, and its pH-dependent maximal enzyme activity is reported. Over a 5-week period, the lead burden and ALA-D activity in kidney, liver and brain are documented. Lead concentrations in the organs, expressed as micrograms/g protein are in the sequence kidney greater than liver greater than brain and reach essentially a constant level after 3 days of exposure. This is consistent with the existence of an efficient mechanism removing lead from these organs. Lead affects the ALA-D in all three organs by reducing the activity and shifting the pH of maximum enzyme activity to more acidic values. In common with the lead levels, the ALA-D activity does not deteriorate beyond the levels reached after 3 days of exposure. The existence of a mechanism removing lead from the organs is further supported in a recovery study on blood and kidney, in which both lead level and ALA-D activity return essentially to normal values after 7 days of no exposure to lead.

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