Ácido linoléico conjugado e perfil de ácidos graxos no músculo e na capa de gordura de novilhos bubalinos alimentados com diferentes fontes de lipídios Linoleic conjugated acid and fatty acids profile in the muscle and fat layer of water buffalo steers fed different fat sources

Avaliaram-se o teor de ácido linoléico conjugado (CLA) e o perfil de ácidos graxos no músculo e na capa de gordura de novilhos bubalinos alimentados com diferentes fontes de lipídios. Utilizaram-se 12 animais castrados, da raça Murrah, com peso vivo de 306&plusmn;8kg, submetidos aos tratamentos sem lipídeo adicional, grão de soja e óleo de soja, confinados durante 84 dias. Após o abate a carcaça foi resfriada a 5ºC, durante 24 horas. Foi feita secção entre a nona e a 11ª costelas da meia carcaça direita, de onde se separou músculo e capa de gordura, analisadas as concentrações de CLA e de ácidos graxos, por cromatografia gasosa. O fornecimento de óleo de soja resultou em maior concentração de CLA no músculo e na capa de gordura, e a adição de óleo de soja menores concentrações de ácidos graxos saturados, principalmente os ácidos mirístico e palmítico. Os animais que receberam a dieta com grão de soja integral também apresentaram menor teor de CLA e redução nas concentrações de mirístico e palmítico. Esses efeitos foram observados somente na capa de gordura e em menor intensidade.<br>The effect of different fat sources on fatty acid concentrations in the muscle and in the fat layer of water buffalo steers was studied. Twelve water buffalo steers weighting 306&plusmn;8kg, fed without additional fat, soybean grain or soybean oil and confined during 84 days were used. The animals were slaughtered after 16-hours-fasting and the carcass was cooled at 5ºC, for 24 hours. A section was extracted between 9th and 11th ribs from the right half carcass and this section was separated in bone, muscle and fat layer. In the last two fractions, the fatty acids, including conjugated linoleic acid (CLA), were quantified by gaseous chromatography. The soybean oil provided higher CLA concentrations in the steers muscle and fat layer. Moreover, the soybean oil inclusion promoted lower saturated fatty acids contents, mainly miristic and palmitic acids. There was also increase in CLA concentrations and decrease in miristic and palmitic acids contents in the fat layer of the animals fed soybean grain diet. However, these effects were more moderate than those observed for the diet with soybean oil

Physical Chemistry of Milk Fat Globules

Many properties of milk and dairy products are determined by the behaviour and physical chemistry of milk fat globules. Allowed to stand, raw milk quickly separates into fat-enriched and fat-depleted phases, i.e. cream and skim milk, respectively. This is partly due to simple density differences between the emulsified fat globules and milk serum, but gravitational separation occurs at a rate ultimately determined by a complex series of colloidal interactions mediated by the milk fat globule membrane (MFGM) that lead to aggregation of fat globules, particularly at low temperatures (i.e. so-called cold agglutination). Creaming properties of milk differ between mammalian species, and processing of milk can profoundly alter the creaming properties of bovine milk, particularly homogenization and centrifugal separation, but also heat treatment. In this chapter, the principal physical properties of bovine milk fat globules are discussed, along with methods for their analysis and the impact of common dairy processes on their stability