• Fisheries and Aquatic Sciences
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• v.4 no.4
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• pp.261-264
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• 2001

Seasonal variation in fatty acid profiles was examined in the visceral mass and the posterior adductor muscle of the female pen shell, Atrina pectinata. Total percentages of saturated fatty acids were similar between the two organs, and there was not a prominent seasonal change in both tissues. While the percentages of highly unsaturated fatty acids (HUFAs) in the visceral mass were higher than those in the posterior adductor muscle, monounsaturated fatty acids (MUFAs) were high in the posterior adductor muscle. HUFA contents, especially in $20: 5\omega3$, $22: 5\omega3$ and $22: 6\omega3$, markedly decreased in September in the visceral mass, and this decrease was associated with a corresponding total MUFAs in the same organ. A similar pattern of change in September was noted in the posterior adductor muscle MUFAs and HUFAs. These results indicate that $20:\omega3$ and $22:\omega3$ HUFA changes in the visceral mass and posterior adductor muscle reflect the reproductive stages in pen shell.

• Korean Journal of Food Science and Technology
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• v.19 no.3
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• pp.181-187
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• 1987

The lipids of ten major fishes caught in Korean seas were analyzed for fatty acid composition and for the content of $\omega-3$ polyunsaturated fatty acids. The major fatty acids present were hexadecanoic acid $(14{\sim}24%)$, hexadecenoic acid $(4{\sim}13%)$, octadecenoic acid $(8{\sim}29%)$, eicospentaenoic acid $(4{\sim}18%)$ and docosahexenoic acid $(6{\sim}33%)$. The ${\omega}-3$ polyunsturated fatty acids ranged from 18% to 48% of the total fatty acids depending on the species. The content of eicosapentaenoic acid was relatively high in sardine, gizzard shad and atka fish on the basic of fresh body weight, while that of docosahexaenoic acid was highest in hair tail and followed by atka fish and sardine.

• Journal of the Korean Applied Science and Technology
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• v.13 no.3
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• pp.15-24
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• 1996

Essentiality was proposed in the field of lipid by Burr and Burr in 1929. When rats were raised on the fat-free diet, their growth retarded and their skin and tails showed the characteristic deficient symptoms, which were relieved by the addition of ${\omega}6(n-6)$ polyunsaturated fatty acids as linoleic(LA) and arachidonic(AA) acids to the basal diet. LA is dehydrogenated to ${\gamma}-linolenic$ acid(GLNA) by ${\Delta}6$ desaturase, then GLNA is 2 carbon chain elongated by elongase to $dihomo-{\gamma}-linolenic$ acid(DGLNA), which is desaturated by ${\Delta}5$ desaturase to AA. These acids are called LA family or ${\omega}6(n-6)$ polyunsaturated fatty acids(PUFA). ${\alpha}-Linolenic$ acid(ALNA) is converted through the series of desaturation and elongation steps to docosahexaenic acid(DHA) via eicosapentaenoic acid(EPA). These acids belong to ALNA family or ${\omega}3(n-3)$PUFA. Human who consume large amounts of EPA and DHA, which are present in fatty fish and fish oils, have increased levels of these two fatty acids in their plasma and tissue lipids at the expense of LA and AA. Alternately, vegetarians, whose intake of LA in high, have more elevated levels of LA and AA and lower levels of EPA and DHA in plasma lipids and in cell membranes than omnivores. AA and EPA are metabolized to substances called eicosanoids. Those derived form AA are known as prostanocids(prostaglandins and prostacyclins) of the 2-types and leukotrienes of the 4-series, whereas those derived from EPA are known as prostanoids of the 3-types and leukotrienes of the 5-series. DGLNA is a precursor of the 1-types of prostaglandins. The metabolites of AA and EPA have competitive functions. Ingestion of EPA from fish or fish oil replaces AA from membrane phospholipids in practically all cells. So this leads to a more physiological state characterized by the production of proatanoids and leukotrienes that have antithrombic, antichemotactic, antivasoconstrictive and antiinflammatory properties. It is evident that ${\omega}3$ fatty acids can affect a number of chronic diseases through eicosanoids alone.

• Journal of the East Asian Society of Dietary Life
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• v.4 no.1
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• pp.57-70
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• 1994

The present study was carried out in normal and atherosclerotic New Zealand white(NZW) rabbits, to evaluate the effect of dietary supplementation with Korean pinenut oil, on the total fatty acid composition of red blood cell membranes. Erythrocyte fatty acids of chain lengths ranging fro 12 : 0 to 22 : 6$\omega$3 were identified. In study I, palmitic acid(16 : 0) was found to be the main erythrocyte membranes fatty acid, followed in turn by stearic(18 : 0), oleic(18 : 1), and linoleic acids(18 : 2$\omega$6). There was a large increase in the proportion of 20 : 4$\omega$6 in 10% pinenut oil group on days 40 and 80(compared with control), although the increase was not statistically significant. Most erythrocyte fatty acids were less affected by the types or levels of oils supplemented for periods fo 40 and 80days. In study II,at the end of the dietary treatment, the levels of 12 : 0, 14 : 0, 15 : 0 and 18 : 0 were significantly decreased in the 5% soybean oil/cholesterol group, whereas those of 12 : 0, 14 : 0 and 18 : 0 were significantly decreased, but that of 18 : 2$\omega$6 was significantly increased in the 10% soybean oil/cholesterol group, compared to the cholesterol group. No significant differences in fatty acid composition were seen between the pinenut oil/cholesterol group, whereas the 10% soybean oil/cholesterol group had significantly elevated 18 : 2$\omega$6, compared to the cholesterol group. The proportion of 18 : 4$\omega$6 was significantly raised in the 5% soybean oil/cholesterol and 5% pinenut oil/cholesterol group, and the content of 16 : 1$\omega$7 was significantly lowered in the 5% and 10% soybean/cholesterol groups, compared to the cholesterol group at 10 weeks supplementation. In studies I,II and III, the total proportions of saturated fatty acids were not significantly affected by the types of levels of oils supplemented throughout the study period.

• The Korean Journal of Food And Nutrition
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• v.25 no.4
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• pp.1027-1032
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• 2012

We investigate the changes of fatty acids in blood for an evaluation of the effects of soft and enteric coated capsules containing omega 3 fatty acids. Fish oil, which contained 62.87 g/100 g of sum of EPA (eicosapentaenoic acid) and DHA (docosahexaenoic acid), was used as nutracueticals for omega 3 fatty acids. Lipid releasing amount in soft capsule was 70% in stomach condition. However, there was 10% of releasing amount of lipid observed in enteric coated capsule in stomach condition. In intestinal condition, 50% of lipid releasing amount in enteric coated capsule showed until 6 hr, but soft capsule until 90 min. EPA and DHA contents in soft capsule administration showed higher level than those in enteric coated capsule until 8 hr. However, the administration of enteric coated capsule showed higher level of EPA and DHA in blood after 8 hr. After 24 hr, mono-, poly-unsaturated and saturated fatty acids contents with enteric coated capsule showed higher level than those with soft capsule. The enteric coated capsule containing omega 3 fatty acids was expected to sustain omega 3 fatty acids.

• Journal of Nutrition and Health
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• v.34 no.7
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• pp.754-761
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• 2001

Effects of dietary fatty acids and vitamin E on antioxidant vitamin status were studied in rat brain sections. Sources of dietary fat(10t%) were safflower oil(SO) poor in $\omega$3 fatty acid and mixed oil (MO) with computer-adjustd fatty acid ratios(AA/DHA=1.4, $\omega$6/$\omega$3=6.3, P/M/S=1.0/1.5/1, AA=2.%)with (ME) and without(MO) vitamin E(500mg/kg diet). Rats were fed the three kinds of diet from 3-4 wks prior to the conception. At the age of 3 & 9wks of the 2nd generation rat, antioxidant vitamins were measured in frontal cortex(FC), corpus striatum (CS), cerebellum(CB) and hippocampus(HP) using a multiwavelength, reverse phase gradient HPLC system. The levels of antioxidant vitamins converged to the similar value in all groups at 9 wks of age. Retinol, lycopene and cryptoxanthin levels of all experimental groups were found to be the highest in hippocampus at both 3 & 9wks of age. The levels of vitamin E appeared to be higher in the order of HP>CS-CB>FC in MO & ME. Beta-carotene and retinol showed the lowest level in hippocampus of vitamin E supplemented groups, even though vitamin E level tended to be higher in other sections. It seemed that vitamin E has an inhibitory action on the uptake of beta-carotene or acts as a preferred antioxidant to beta-carotene in certain section of the brain. By improving fatty acid balance (AA/DHA = 1.4, $\omega$6/$\omega$3=6.3, P/M/S=1.0/1.5/1, AA = 2%), the levels of vitamin E, retinol, lycopene & beta=carotene tended to be higher in MO than in SO, although crytoxanthin became lower at 3wks of age. In short, dietary fatty acids and vitamin E have different influence on antioxidant vitamin status in different rat brain sections. The higher levels of antioxidant vitamins in hippocampus should be pursued further in relation to behavioral development of rats.

• Journal of Nutrition and Health
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• v.35 no.1
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• pp.60-68
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• 2002

Purpose of this study was to compare serum phospholipid fatty acid composition of obese children with that of normal weight children reside in Kangnung area. Subjects were consisted of 56(41 boys and 15 girls) moderately or severely obese elementary school children, and age and sex-matched normal weight children as a control group. Level of serum phospholipid fatty acids was measured by thin layer chromatography(TLC) followed by gas chromatography(GLC). for male subjects, serum triglyceride(121 $\pm$ 4.7mg/dl) and total cholesterol(180 $\pm$ 37.1mg/dl) concentrations were significantly(p < 0.05) higher in obese group than those for control group(81.5 $\pm$ 2.5mg/dl and 161 $\pm$ 32.0mg/dl, respectively). Obese group showed significantly higher percentage of serum phospholipid myristic acid(C14:0) than the value for control group in both male and female subjects. Obese male subjects had significantly higher percentages of palmitoleic acid(16 : 1), oleic acid(18 : 1), dihomo-${\gamma}$-linoleic acid(20 : 3, $\omega$6) and docosatetraenoic acid(22 : 4, $\omega$6), and lower percentages of eicosenoic acid(20 : 1, $\omega$6), docosapentaenoic acid(22 : 5, $\omega$6), EPA(22 : 5, $\omega$3) and DHA (22 : 6, $\omega$3) compared to values for control male subjects. For male subjects, obese group showed significantly higher ratios of 16 : 1($\omega$9)/16 : 0 and 18 : 1($\omega$9)/18 : 0, and significantly lower ratios of 22 : 5($\omega$6)/22 4($\omega$6), and 22 : 6($\omega$3)/22 : 5($\omega$3) compacted to values for the control group. But there was not significant differences in elongation and desaturation indices of serum phospholipids fatty acid metabolism between obese and control group in female subjects. Most of anthropometric measurements related to obesity were negatively correlated with the percentages of PUFA, $\omega$3 fatty acids or DHA(22 : 6, $\omega$3), and positively correlated with the percentage of myristic acid(14 : 0) or $\omega$6/$\omega$3 ratio in serum phospholipids. Serum triglyceride concentration was negatively correlated with the percentage of PUFA or $\omega$3 fatty acids, and positively correlated with $\omega$6/$\omega$3 ratio in serum phospholipids. These results indicate that obesity related changes in blood lipid levels and metabolism are more significant in male subjects than in female subjects. Also changes in serum phospholipid fatty acid composition observed in obese children appear to demonstrate the increased susceptibility of these children to cardiovascular disease and other related chronic diseases.

• Asian-Australasian Journal of Animal Sciences
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• v.33 no.2
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• pp.305-312
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• 2020

Objective: The present trial was conducted to determine the influence of different dietary fatty acid (omega-3 and omega-6) sources on reproductive performance of female broiler breeders and growth performance and carcass traits of their progeny. Methods: Two hundred and twenty, 25 weeks old Ross-308 male (20) and female (200) broiler breeders were used in the experiment for the period of 6 weeks. All birds were randomly divided into four dietary treatments (containing 2% soybean oil, 2% sunflower oil, 2% flaxseed oil, and 2% fish oil) each with five replicates of one male and ten females. Throughout this experiment hatching performance of broiler breeders, progeny growth performance and carcass parameters were recorded. Results: The results showed that the inclusion of different fatty acid sources in female broiler breeders diet had no significant effects (p>0.05) on number of fertile eggs, post-hatch mortality, and fertility rate. The soybean oil supplemented group had significantly (p<0.05) higher late embryonic mortality compared to other three treatments. Conclusion: It was concluded that inclusion of 2% of different sources of omega-3 and omega-6 fatty acids (especially 2% flax seed oil) in broiler breeders' diet can reduce late embryonic mortality. The other reproductive characteristics of parents and growth and carcass characteristics of progeny remained unaltered by dietary sources of omega-3 and omega-6 fatty acids.

• Journal of Nutrition and Health
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• v.26 no.6
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• pp.661-671
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• 1993

The change in fatty acid composition in brain tissue of the second generation rats(Sprague-Dawley strain) was studied using four different fat diets(Corn oil=CO, Soybean oil=SO, Perilla oil=PO, Fish oil=FO, 10% by Wt). The experimental diets were started from pregnancy in four different groups, each consisting of 9 rats. The seound generation rats were fed the same diet as their mothers. Animals were anesthetized with ether at 0, 3, 9 & 16 weeks of age. Whole brains were dissected out, brain tissues were, then, homogenized and lipids were extracted from brain tissues. The fatty acid compositions were measured after methylation by gas-liquid chromatography at 0, 3, 9 and 16 weeks of age of offspring. The changes in the relative concentrations of polyunsaturated fatty acids(PUFA) or more specifically docosahexaenoic acid(22 : 6, $\omega$3, DHA), the major $\omega$3 fatty acid component in rat brain at different age were similar to changes in the amount of DNA in brain tissue showing the maximum value during the lactation. The changes in saturated fatty acid(SFA) content showed a contrasting patten to those of PUFA, while monounsaturated fatty acid(MUFA) increased steadily throughout the experimental period. At birth, the relative concentrations of $\omega$3 series fatty acids the relative concentrations of PUFA, MUFA and SFA converged to very similar values respectively regardless of the dietary fatty acid compositions. In brain tissue, it is of value to note that while changes in relative concentrations of linoleic acid (18 : 2, $\omega$6, LA) and arachidonic acid(20 : 4, $\omega$6, AA) showed a precursor-product-like relationship, $\alpha$-linolenic acid(18 : 3, $\omega$3, $\alpha$-LnA) and DHA showed a different pattern. Even when the $\omega$3 fatty acid content in very low in maternal diet(CO), the second generation rat brain tissues appeared to secure DHA content, suggesting an essential role of this fatty acid in the brain. The fact that a large amount of $\alpha$-LnA in the maternal diet did not have a significant effect on the second generation rat brain $\alpha$-LnA content, indicated that DHA seemed essential component for the brain development in our experimental condition. In all groups, the relative content of $\alpha$-LnA in the brain tissues remained relatively constant throughout the experimental period at the very low level. The study of the specific concentrations and essential role(s) of DHA in each parts of brain tissue is needed in more details.

• Journal of Marine Bioscience and Biotechnology
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• v.14 no.1
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• pp.43-50
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• 2022

Squid is a sustainable source of long-chain omega 3 fatty acids. This study aims to assess the safety and triglyceride-lowering efficacy of refined oil derived from the squid(Todarodes pacificus) viscera. Male and female participants with elevated fasting serum lipids (i.e., total cholesterol of ≥5.2 mmol/L or fasting serum triglyceride of ≥1.65 mmol/L) were randomly allocated to the control (n = 52) or squid oil group (n = 52), and participants in the latter group were instructed to consume 3 g of squid oil daily for 60 days. None of the subjects reported adverse events associated with the consumption of squid oil. Baseline clinical chemistry and hematological parameter values and those toward the end of the treatment period were similar, and all values were within the normal range. Fasting cholesterol and triglyceride levels in the control and squid oil groups were similar; however, toward the end of the 60 day study period, these levels significantly reduced in the squid oil group relative to those in the control group (P< 0.01). However, high-density lipoprotein-cholesterol remained unchanged in both groups. Thus, it can be inferred that squid oil is a safe source of long-chain omega-3 fatty acids and has beneficial effects on the blood lipid levels. This is the first clinical study on squid oil usage, and suggests that it could be a sustainable source of omega 3 fatty acids.