This study aimed to produce new generation of fats or oils, known as specialty lipids, from enzymatic reaction of fish oil rich in Omega-3 fatty acids, serving as a source of essential fatty acids, and a medium-chain ...This study aimed to produce new generation of fats or oils, known as specialty lipids, from enzymatic reaction of fish oil rich in Omega-3 fatty acids, serving as a source of essential fatty acids, and a medium-chain fatty acid (Capric acid, C10:0), for rapid energy release, using self-designed bioreactor. The beneficial aspects of the resultant specialty lipids (SL) on blood lipid chemistry were evaluated using animal models. Serum lipids were analyzed for lipid profile. Animals in the three treatments: Group 1 fed with corn oil, Group 2 fed with a physical blend (PB) of fish oil (FO) and capric acid (CA);and Group 3 fed with specialty lipids (SL) showed a significant (p 0.05) in HDL-c level after 60 days of treatment. Although SL caused an increase in HDL-c level but lower than CO. Animals in CO group showed insignificant increase (p > 0.05) in the level of LDL-c, whereas SL did not cause any change in LDL-c level. On the other hand, the level of low-density lipoprotein cholesterol (LDL-c) is considerably (p 0.05) concerning TAG, TC, and LDL-c levels, but the only difference between these two groups was in the HDL-c level. The weight of animals was increasing with time in animals fed CO, while it was decreasing with time for animals fed PB and SL. The difference in percent body change between SL and CO was significant (p < 0.05) after 8 weeks of treatment.展开更多
文摘This study aimed to produce new generation of fats or oils, known as specialty lipids, from enzymatic reaction of fish oil rich in Omega-3 fatty acids, serving as a source of essential fatty acids, and a medium-chain fatty acid (Capric acid, C10:0), for rapid energy release, using self-designed bioreactor. The beneficial aspects of the resultant specialty lipids (SL) on blood lipid chemistry were evaluated using animal models. Serum lipids were analyzed for lipid profile. Animals in the three treatments: Group 1 fed with corn oil, Group 2 fed with a physical blend (PB) of fish oil (FO) and capric acid (CA);and Group 3 fed with specialty lipids (SL) showed a significant (p 0.05) in HDL-c level after 60 days of treatment. Although SL caused an increase in HDL-c level but lower than CO. Animals in CO group showed insignificant increase (p > 0.05) in the level of LDL-c, whereas SL did not cause any change in LDL-c level. On the other hand, the level of low-density lipoprotein cholesterol (LDL-c) is considerably (p 0.05) concerning TAG, TC, and LDL-c levels, but the only difference between these two groups was in the HDL-c level. The weight of animals was increasing with time in animals fed CO, while it was decreasing with time for animals fed PB and SL. The difference in percent body change between SL and CO was significant (p < 0.05) after 8 weeks of treatment.
