FIBER COMPOSITION AND LIPID PEROXIDATION IN NATURAL-INGREDIENT AND PURIFIED DIETS FOR LABORATORY ANIMALS
Transcription
FIBER COMPOSITION AND LIPID PEROXIDATION IN NATURAL-INGREDIENT AND PURIFIED DIETS FOR LABORATORY ANIMALS
FIBER COMPOSITION AND LIPID PEROXIDATION IN NATURAL-INGREDIENT AND PURIFIED DIETS FOR LABORATORY ANIMALS Valentina Caprarulo, Matteo Ottoboni, Carlotta Giromini, Eleonora Fusi, Federica Cheli, Luciano Pinotti Department of Health, Animal Science and Food Safety, VESPA University of Milan Physical form of diets • Pelletted • NATURAL INGREDIENT DIETS (NID): – Raw materials and by products • PURIFIED DIETS (PD): – Pure ingrendients, such as casein • CHEMICALLY DIETS (CDD): – Aminoacidas, essential (EFAs), vitamins DEFINED fatty • Extruded acids • Liquid http://keyflowfeeds.com/key-nutrition/key-feed-technologies/wet-steam-extrusion/ Types of diets http://www.liverini.it/mangimi_per_bovini_carne_1.html Introduction 1/3 Fiber (NRC 1995) • Dietary fiber has not been shown to be required by the rat. • Its inclusion in diets may be potentially beneficial. • The effects elicited by fiber depend on the properties of the fiber source (i.e., viscosity, solubility, fermentability). http://nasirrofiq.blogspot.it/2012/11/title-review-energy-equation-in.html Introduction 2/3 Introduction 3/3 Essential Fatty Acids (EFAs) Lipid (NRC 1995) • Lipids are required by rodents to provide Essential Fatty Acids (EFAs). • Dietary fat is an energy source and a carrier for fat-soluble vitamins. • Diet acceptability. Aim • The aim of this study was to evaluate nutritional value fiber composition (CF, NDF “Neutral Detergent Fiber”) fat quality (Peroxide value) in rodent diets. Materials and Methods • 10 Samples • NATURAL INGREDIENT DIETS (NID) • PURIFIED DIETS (PD) • Source • Biomedicine research inst. • Feed industry (involved in FEEDNEEDS project) Materials and Methods: ingredient list Wheat, Soybean Meal, Corn, fish meal, corn gluten feed, wheat bran, milk whey powder, alfalfa meal, 1 NID Yeast, Calcium Carbonate, Soybean Oil, Sodium Chloride, Dicalcium Phosphate, Magnesium Oxide Flour hazelnut skins. 2 NID 3 NID 4 NID 5 NID Wheat, corn, wheat bran, soybean meal, corn gluten meal, soybean oil, calcium carbonate, dicalcium phosphate, yeast, sodium chloride, corn gluten meal, Magnesium oxide. Wheat, corn, wheat bran, soybean meal, corn gluten meal, soybean oil is, Calcium Carbonate, Dicalcium Phosphate, Yeast, Sodium Chloride, Corn Gluten Meal, Magnesium Oxide. Wheat, milk powder, potato starch, soybean meal, soybean oil Dicalcium Phosphate, Sodium Bicarbonate, Calcium Carbonate, Magnesium Oxide, Flour hazelnut skins. , Wood Epicea, Wheat, corn, soybean meal, corn gluten feed, straw, wheat, fish meal, alfalfa meal, Dicalcium Phosphate, Calcium Carbonate, Sodium Chloride, Whey Powder, Soybean Oil, Flour skins hazelnut. Materials and Methods: ingredient list 6 NID Wheat, corn, wheat bran, soybean meal, wheat bran, corn gluten meal, soybean oil, calcium carbonate, dicalcium phosphate, yeast, sodium chloride, hazelnut flour skins. Wheat, Corn, Menadione sodium bisulfite, corn gluten meal, sulphate of copper, wheat middlings, Priridossina Hydrochloride, Soybean Oil, Riboflavin, Calcium Carbonate, Thiamin monohydrate, 7 NID calcium phosphate, vitamin A, Yeast, Calcium iodate , L-lysine, vitamin B 12, iodized Salt, folic Acid, Magnesium oxidised, Biotin, Choline Chloride, Vitamin D3, dl-methionine, cobalt carbonate, calcium propionate, l-tryptophan, vitamin E. EXTRUDED 8 PD 9 PD 10 PD Sucrose, casein powder, Corn Starch, Corn Oil, Dicalcium Phosphate, Sodium Chloride, Potassium Sulphate, Magnesium oxide Corn Starch, Maltodextrin, Casein powder, sucrose, soybean oil, calcium carbonate, monopotassium phosphate, sodium chloride, potassium sulfate, magnesium oxide Corn Starch, Maltodextrin, Casein powder, Olive Oil, Sucrose, Calcium Carbonate, Sodium Chloride, Magnesium Oxide NATURAL INGREDIENT DIETS PURIFIED DIETS ENERGY SOURCE • Wheat • Corn • Corn Starch PROTEIN SOURCE • Soy • Animal meal (milk or fish meal) • Casein • Soy oil • Corn oil • Soy oil • Olive oil LIPID SOURCE ANALYSIS Dry Matter AOAC 930.15 ed 18 th 2005 Crude Protein (CP) Ether Extract (EE) Ash AOAC 2001.11 ed18th 2005 DM 21/12/1998 GU n 31 08/02/1999 Suppl. 13 AOAC 942.05 and 18 2005 FIBER ANALYSIS Crude Fiber (CF) NDF AOAC Approved Procedure Ba 6a-2005 AOAC 2002.04 ed 20th 2003 LIPID ANALYSIS Peroxide Value NGD 35 del 1976 and AOAC 965.33 Results: CHEMICAL ANALYSIS NID *Expressed on Dry Matter Results: CHEMICAL ANALYSIS PD *Expressed on Dry Matter COMPARISON BETWEEN CRUDE FIBER AND NDF Average CF NID 4,5% PD 2,3% Average NDF NID 19,9% PD 3,5% Discussion 1/1 CRUDE FIBER & NDF: • NID diets: big distance CF 4,5%; NDF 20%. • PD diets: values very closed CF 2,3%; NDF 3,5%. • CF and NDF suggest different information and in NID diet is recommended to get both values. Ether Extract • Average EE NID 5,4% and PD 7,6% (5-6%). • Range 3,4 – 12,5 different ingredients and quality inclusion. Peroxide Value 25,9 - 187,6 meq O2/ Kg fat Discussion 1/2 LIPID: • Lipid content did not affected systematically peroxidases values. • In both groups high peroxide values (>100 meq O2/Kg fat) have been measured in low fat content diets (2.81 up to 5% of ether extract). • Peroxide value was lower in PDs diet than in NIDs one (25.90 vs 120.60 meq O2/Kg fat). Discussion 2/2 • Low fat content do not prevent lipid peroxidation. • Fat sources (olive oil vs soybean oil) as well as technological treatments (i.e. extrusion, radiation and sterilisation) may affect fat quality and stability. CONCLUSION NID vs PD • Not easy to compare. • NID and PD value is in line with NRC (1995). FIBER • NID > PD. • Quantitative and qualitative (e.g. NDF) evaluation is recommended. LIPID • Lipid sources have to be considered (e.g. corn oil, soybean oil, olive oil). • Technological treatments • Peroxides value can provide further information. • The lipid oxidation and rancidity can reduce diet acceptability. • Quantitative and qualitative evaluation is recommended • Inclusion of antioxidant maybe required. TBA Value mg malondialdehyde (MDA)/ 100 g Valutazione del grado di ossidazione attraverso la formazione dei prodotti secondari dell’ossidazione