Your search keyword '"Glucosinolates toxicity"' showing total 5 results

1. Toxicity of canola-derived glucosinolates in pigs fed resistant starch-based diets.

Author

Lee JW, Wang S, Huang Y, Seefeldt T, Donkor A, Logue BA, and Woyengo TA

Subjects

Animals, Cecum drug effects, Cecum physiology, Diet veterinary, Female, Gastrointestinal Tract drug effects, Gastrointestinal Tract physiology, Liver drug effects, Liver physiology, Male, Organ Size drug effects, Organ Size physiology, Glycine max, Zea mays, Animal Feed analysis, Brassica napus chemistry, Glucosinolates toxicity, Starch metabolism, Swine physiology

Abstract

A study was conducted to determine effects of reducing hindgut pH through dietary inclusion of high-amylose cornstarch (HA-starch) on growth performance, organ weights relative to live body weight (BW), blood thyroid hormone levels, and glucosinolate degradation products of nursery pigs fed cold-pressed canola cake (CPCC). A total of 240 pigs (initial BW: 7.1 kg), which had been weaned at 21 d of age, were housed in 40 pens (6 pigs per pen) and fed 4 diets (10 pens per diet) in a randomized complete block design for 28 d. Four diets were a basal diet with CPCC at 0 or 40%, and with HA-starch at 0 or 40% in a 2 × 2 factorial arrangement. The diets were fed in two phases: Phase 1 from day 0 to 14 and Phase 2 from day 14 to 28 and were formulated to have the same net energy, standardized ileal digestible AA, Ca, and standardized total tract digestible P contents. Dietary inclusion of CPCC and HA-starch was achieved by a partial or complete replacement of corn, soybean meal, and soy protein. At the end of the study, one pig from each pen was euthanized to determine organ weights, blood parameters, hindgut pH, and glucosinolate degradation products. Dietary CPCC reduced (P < 0.05) overall average daily gain (ADG) by 15%; increased (P < 0.05) relative weights of liver and thyroid gland by 27% and 64%, respectively; and reduced (P < 0.05) serum tetraiodothyronine (T4) level from 30.3 to 17.8 ng/mL. Heart, kidney, and gastrointestinal tract weights; serum triiodothyronine level; and hindgut pH of pigs were unaffected by dietary CPCC. Dietary HA-starch reduced (P < 0.05) overall ADG, relative weight of thyroid gland, cecal, and colonic pH; but increased (P < 0.05) relative weight of colon; tended to increase (P = 0.062) serum T4 level. Dietary CPCC and HA-starch interacted (P = 0.024) on relative weight of thyroid gland such that dietary CPCC increased (P < 0.05) weight of thyroid gland for HA-starch-free diet (120 vs. 197 mg/kg of BW) but not for HA-starch-containing diet (104 vs. 130 mg/kg of BW). Dietary CPCC and HA-starch interacted (P = 0.001) on cecal isothiocyanate content such that dietary CPCC increased (P < 0.05) level of isothiocyanates for HA-starch-containing diet but not for HA-starch-free diet. In conclusion, dietary CPCC reduced growth performance, increased liver, size and interfered with thyroid gland functions of pigs. However, the negative effects of dietary CPCC on thyroid gland functions of nursery pigs were alleviated by dietary HA-starch., (© The Author(s) 2020. Published by Oxford University Press on behalf of the American Society of Animal Science. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

2. [Testing of rapeseed with different glucosinolate contents in growing swine--a contribution for the evaluation of native harmful substances in food].

Author

Schöne F

Subjects

Animals, Brassica chemistry, Eating drug effects, Female, Iodine pharmacology, Male, Thyroid Gland drug effects, Vitamin A blood, Animal Feed toxicity, Brassica toxicity, Glucosinolates toxicity, Swine growth & development

Abstract

Glucosinolates are present in kale but also in rapeseed meal. Rapeseed meal diets with 0.2 to 8 g (0.5-19 mmol) glucosinolates/kg were tested with a total of 197 growing pigs. The iodine supply was different. In case of lacking iodine pigs consumed less of feed with rapeseed meal. The growth was strongly lowered. Clinical hypothyroidism had occurred. In the serum T4 was not detectable. The strongly enlarged thyroid contained only little iodine. The Zn status was impaired. The serum vitamin A concentration was increased and Cu has been accumulated in the liver. Giving iodine the glucosinolates were without any effect or the effects were weakened. In case of < 2 g glucosinolates/kg diet the feed intake was not impaired. 1 g glucosinolates/kg diet had not affected thyroid weight (reference range: 80-120 mg/kg body weight). However iodine dosage was above requirement. In people an estimated daily intake of 0.1 g glucosinolates may be a health risk only under iodine deficiency conditions.

Published

1993

3. Role of glucosinolates in the causation of liver haemorrhages in laying hens fed water-extracted or heat-treated rapeseed cakes.

Author

Wight PA, Scougall RK, Shannon DW, Wells JW, and Mawson R

Subjects

Animals, Chemical and Drug Induced Liver Injury, Female, Hemorrhage chemically induced, Hemorrhage pathology, Liver Diseases pathology, Poultry Diseases pathology, Animal Feed, Brassica, Chickens, Glucosinolates toxicity, Hemorrhage veterinary, Liver Diseases veterinary, Poultry Diseases chemically induced, Thioglycosides toxicity

Abstract

Glucosinolates were removed from whole rapeseed by a hot-water extraction procedure or depleted by heat treatment. When laying hens were maintained for three months on diets containing about 300 g kg-1 of these rapeseed cakes, the incidence of liver haemorrhages detected at post mortem examination was similar to that in birds maintained on 300 g kg-1 commercial rapeseed meal and significantly greater than in control birds fed soya-based diets. The effectiveness of glucosinolate extraction or depletion was determined by chemical analysis and by histological examination of the thyroid glands. Histologically the haemorrhages were similar after feeding extracted and commercial rapeseed meals. Diets containing mixtures of nitriles and glucosinolates severely depressed food intake and egg production but did not cause a greater incidence of haemorrhages than the other rapeseed products tested. Mortality from causes other than liver haemorrhage was higher with the diets containing rapeseed and this suggests that rapeseed has a more generalised effect on the body's defence mechanisms. These observations suggest that other factors in rapeseed meal, alone or acting with glucosinolates, may be responsible for inducing liver haemorrhages in laying hens.

Published

1987

4. A review of the 'toxic' effects of rapeseed meals with observations on meal from improved varieties.

Author

Hill R

Subjects

Animals, Glucosinolates toxicity, Saponins toxicity, Tannins toxicity, Animal Feed toxicity, Brassica analysis, Chickens, Poultry Diseases etiology

Published

1979

5. Nutrients and toxicants in rapeseed meal: a review.

Author

Bell JM

Subjects

Amino Acids analysis, Animals, Dietary Carbohydrates analysis, Dietary Fiber analysis, Dietary Proteins analysis, Digestion, Eggs analysis, Energy Metabolism, Glucosinolates analysis, Glucosinolates toxicity, Goiter chemically induced, Goiter veterinary, Meat analysis, Milk analysis, Minerals analysis, Nitrogen analysis, Nutritive Value, Plant Proteins analysis, Vitamins analysis, Animal Feed adverse effects, Animal Feed analysis, Antithyroid Agents toxicity, Brassica analysis

Abstract

The composition of rapeseed meal and hulls is reviewed with emphasis on components of nutritional interest. Carbohydrates in rapeseed meal are mainly pectins, pentosans and cellulose and comprise nearly one-half the gross energy. The digestibility of energy is lower for rapeseed than for soybean meal. Protein is well digested, but the protein digestion coefficient and the availability of amino acids are lower than for soybean meal. Data on digestible and metabolizable energy are summarized. The kinds of glucosinolates present in high (HG) and low (LG) glucosinolate rapeseed meal and the nature of their hydrolytic products are discussed. The toxic effects of oxazolidinethione , isothiocyanates, thiocyanates and nitriles, and their relationship to their parent glucosinolates , to myrosinase action and to conditions during rapeseed processing are reviewed briefly. The effects of glucosinolates in animal tissues and products and the effects of converting to LG rapeseed meal are presented. Finally, a brief review is given of the responses of swine and cattle to the feeding of HG and LG rapeseed meal. The nutritional advantages of LG rapeseed meal, over the older type HG meal, are clearly evident from the feeding trials.

Published

1984