• Journal of Dairy Science and Biotechnology
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• v.16 no.2
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• pp.119-136
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• 1998

The lipids of milk provide energy and many essential nutrients for the newborn animal. They also have distinctive physical properties that affect the processing of dairy products. Milk fat globules mainly consist of neutral lipids like triacylglycerols, whereas the globule membranes contain the complex lipids mostly, Phospholipids are a small but important fraction of the milk lipids and are found mainly in the milk fat globule membrane and other membranous material in the skim-milk phase. The milk fats of ruminant animals are characterized by the presence of relatively high concentrations of short-chain fatty acids, especially butyric and hexanoic acids, which are rarely found in milks of non-ruminants. The fatty acids of milk lipids arise from de novo synthesis in the mammary gland and uptake from the circulating blood. The fatty acid compositions of milks are usually complex and distinctive, depending on the nature of the fatty acids synthesized de novo in the mammary gland and those received from the diet in each species. The content and composition of milks from different species vary widely; presumably, these are evolutionary adaptations to differing environments. The actual process by which these globules are formed is unkonwn, but there are indications that triglyceride-containing vesicles which bleb from endoplasmic reticulum may serve as nucleation sites for globules. Recent studies on milk have centred on the manipulation of milk lipids to increase specific fatty acids, i.e. 20-carbon omega-3 fatty acids (eicosapentaenoic acid 20:5n3, decosahexaenoic acid 22:6n3) from marine sources because the fatty acids are closely associated with a decreased risk of coronary heart disease.

• Journal of Nutrition and Health
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• v.23 no.3
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• pp.157-169
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• 1990

This study was designed to investigate the effect of supplementation of fish oil on serum apoprotein and platelet function in healthy young females. Eighteen female college students were divided into 3 groups. Each group fed a typical Korean diet supplemented with 15g, 12g, and 9g of fish oil respectively for 1-week. Blood samples were obtained 4 times, before supplementation, immediately after, 1-week after and 3-week after stopping supplementation. After 6-week break, the doses of fish oil were interchanged among 3 groups and the experiment was repeated to reduce interindividual variation. The concentration of apoprotein A, apoprotein B in the serum samples and the platelet adhesion, the platelet aggregation and bleeding time were determined immediately after supplementation of fish oil, 1-week after and 3-week after stopping supplementation and then the value compared with those of before supplementation period. The results obtained are summarized as follows: Serum apoprotein A levels decreased significantly(p<0.05), immediately after supplementation of fish oil in the 15g group. The serum apoprotein B levels did not show significant change. The platelet adhesion decreased significantly(p<0.05) 1-week after supplementation of fish oil in the 15g group. The platelet aggregation decreased significantly(p<0.01) immedeately after supplementation of fish oil in the 15g group.