• Fisheries and Aquatic Sciences
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• v.6 no.4
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• pp.172-179
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• 2003

The safety of pufferfish (Lagocephalus gloveri) liver oil and the contents of some nutritional components were examined to obtain important information on their use as high valued functional foods. Pufferfish liver oil was extracted by the hot-water method using $1\%$ NaOH solution to remove toxic compounds, and then purified using a general purifying method of fish oil. Any extraordinary clinical symptoms were not observed from all groups administrated with pufferfish liver oil throughout the test period. None of the rats died when administrated the highest concentration of 10 mL/kg of the pufferfish liver oil. Vitamin A content was 114.2 ppm, as a retinal equivalent in the oil extracted using hot-water, but the content was higher (169.3 ppm) in oil extracted using n-hexane. Vitamin D and E were not detected in ppm in oil extracted using hot-water. Vitamin D in the pufferfish liver oil extracted using n-hexane was also undetected, but vitamin E was at 32.5 ppm. Among the 18 minerals detected, the sodium content was the highest at 253.5 ppm, followed by 13.9 ppm ofpotassium, 1.5 ppm of calcium, 0.2 ppm of magnesium, and other trace minerals. The contents of EPA and DHA were $0.8\%\;and\;14.8\%$, respectively, in the pufferfish liver oil extracted using hot-water. Considering these results, there is potential that pufferfish liver oil could be used as a functional food.

• Journal of Life Science
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• v.10 no.2
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• pp.115-124
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• 2000

The present study was undertaken to separate the available components effectively, such as tetrodotoxin(TTX), docosahexaenoic acid(DHA, C22:6,ω-3) and eicosapentaenoic acid (EPA, C20:5,ω -3) from pufferfish liver waste, which are known to have high values as bioactive materials. By using ultrafiltration, it was possible to separate high contents of 68mg TTX from pufferfish liver waste. In contrast, by activated charcoal column, it was to obtain about 54mg TTX. The recovering ratios were 65.3% and 45.0% in the two different methods of ultrafiltration and activated charcoal column, respectively. From the results of HPLC and gas chromatography-mass spectrometry(GC-MS), the obtained toxins were identified to be TTX and its derivatives. In addition, it was also possible to obtain 72.3g DHA and 11.4g EPA from 1kg of pufferfish liver by high performance liquid chromatography (HPLC). These amounts of DHA and EPA were also 17.70% and 1.04% in the total lipid of pufferfish liver oil from analysis of gas chromatography(GC), respectively.

• The Korean Journal of Food And Nutrition
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• v.12 no.2
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• pp.113-118
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• 1999

Ten specimens of pufferfish Lagocephalus gloveri(called Gumeun-mibog in Korean) were purchased at a fish market in Pusan Korea. The pufferfishes were immediately frozen packed in ice boxes transpor-ted to our laboratory and then dissected in to four parts. The tissues were homoginized after adding with chloroform: methanol mixture solution and storaged at cool and dark place to extract total lipid. The total lipid contents were 29,34∼36.54% in liver 4.95∼6.11% in intestine 1.08∼1.60% in skin and 0.23∼0.38% in muscle of the pufferfish respectively. The contents of DHA and EPA were higher in the total lipids of livers showing 15.99% DHA and 3.04% EPA. The other fatty acids in the total lipids of liver were mainly composed of palmitic acid(16:0) palmitoleic acid(16:1) stearic acid(18:0) and oliec acid(18:1) Furthermore the contents of neurtral lipids were 95.45% and those of phospholipids and glycolipids were 1.45 and 3.09% respectively. Main fattty acids of the neutral lipid were composed of palmitic acid(16:0) stearic acid(18:0) oleic acid(18:1) oleic acid(18:1) EPA(20:6) and DHA(22:6) The contents of DHA and EPA were 16.62 and 2.41% respectvely. From these results of toxicity in the raw liver the tissue was judged to be nontoxic before and after extracting of total lipid.