본 연구는 축산식품으로부터 식중독균 검출을 위한 시료 전처리법을 확립하기 위해 전처리용액, 균질화 시간, 시료와 전처리용액의 비율에 따른 회수율을 비교하였다. 이를 위하여 햄, 발효유, 소고기에 E. coli O157:H7, S. aureus, S. Typhimurium를 7.0 log CFU/g로 접종하고 PW, SS, BPD, BPW로 처리하였다. 또한 균질화 시간은 30, 60, 90, 120, 300초, 시료와 전처리용액 비율은 1:2, 1:4, 1:9, 1:19로 각각 처리하였다. 그 결과 발효유와 소고기에서는 BPW로 처리하였을 때 전반적으로 식중독균의 회수율이 높았으나(p < 0.05), 햄의 경우에는 전처리 용액에 따른 유의적 차이는 없다. 전처리용액의 최적 비율은 햄, 발효유, 소고기가 각각 1:9, 1:2, 1:4였으며(p < 0.05), 균질화 시간은 모든 시료에서 120초로 처리했을 때 유의적으로 가장 높은 회수율이 나타났다(p < 0.05). 따라서 선정된 최적 전처리 조건에서 식중독균 회수율을 수행한 결과 모든 시료및 균종에서 85%이상의 높은 회수율을 보였다. 이상의 결과를 종합해 볼 때 축산식품으로부터 식중독균 검출을 위한 전처리 용액 및 시료와 전처리용액의 비율은 시료의 종류에 따라 적절한 것으로 사용하는 것이 식중독균 검출의 정확성을 높일 수 있을 것으로 판단되어진다.

The Korean National Residue Program consists of three sampling plans for domestic and imported foods of animal origin : monitoring, surveillance/enforcement and exploratory testing. Monitoring and surveillance/enforcement testing programs are routinely implemented by 17 Provincial Veterinary Services for domestic products and two regional offices of Animal, Plant and Fisheries Quarantine and Inspection Agency (QIA) for imported products, respectively. The exploratory testing is designed to test substances which are not included in the list of monitoring and enforcement testing programs controlled by headquarter of QIA. In 2010, the exploratory testing was carried out in domestic and imported foods of animal origin for 24 veterinary drugs including florfenicol, clavulanic acid, four quinolones (nalidixic acid, difloxacin, marbofloxacin, orbifloxacin), two anthelmintics (closantel, levamisole), two sedatives (azaperone, carazolol), six glucocorticoids (dexamethasone, betamethasone, flumethasone, prednisone, prednisolone, methylprednisolone), eight non-steroidal anti-inflammatory drugs (phenylbutazone, paracetamol, carprofen, flunixin, ketoprofen, meloxicam, tolfenamic acid, acetylsalicylic acid). In the total of 1,153 domestic samples, only florfenicol was detected from 17 pig muscles at levels of 0.2～614 ng/g. Of 17 positive pig muscles, 16 samples were non-violative and one sample was violative. In the total of 1,065 imported samples, florfenicol was detected at 0.4 ng/g in one pork. Also, flunixin was detected at 22 ng/g in one beef.

The average number of total viable counts for the commercial pork tested was 19/g, coliform 1.8/g, psychrophilic bacteria 15/g, heterotrophic bacteria 12/g, fecal streptococcus 6.2/100 g, Pseudomonas aeruginosa 13/100 g and none of heat-resistant bacteria and Staphylococcus was detected. That for the commercial beef tested was 130/g, coliform 5.2/g, psychrophile 140/g, heterotroph 28/g, Staphylococcus 1.2/g, fecal streptococcus 9.5/100 g, Pseud. aeruginosa 1.9/100 g and heat-resistant bacteria was not detected. That for the commercial chicken tested was 8800/g, coliform 53/g, psychrophile 4600/g, heterotroph 4700/g, fecal streptococcus 9.9/100 g, Pseud. aeruginosa 2.5/100 g. That for milk was 4700/ml, psychrophile 120/ml, heterotroph 420/ml and the others were not detected. That for the commercial cheese was 3.2/g, psychrophile 2.3/g, heterotroph 1.6/g, Staphylococcus 1/g, fecal streptococcus 9.1/g. That for fermented milk was 10^7/ml, heatresistant bacteria 10^6/ml, fecal streptococcus 2400/100 ml, lactobacillus 3.2 × 10^(15)/ml, in accordance with lactic acid bacteria and the others were not detected. There was not detected any indicator organisms from ham, sausage, butter, eggs and quails in the commercial fooods tested. SPC, coliform, psychrophile and heterotroph in commercial meats stored at 10℃ were increased rapidly as time goes on but heat-resistant bacteria, staphylococcus, fecal streptococcus and Pseud. aeruginosa were constant. At 20℃, SPC, coliform, psychrophile, heterotroph and fecal streptococcus were the highest at 7 days and heat-resistant bacteria, staphylococcus and Pseud. aeruginosa were increased a little. At 30℃, all indicators were increased rapidly for 3 and 7 days and then decreased rapidly. All indicator organisms were increased at the level of 10/g for 14 days in meat products stored at 10℃, but SPC, psychrophile and heterotroph in meat products stored at 20℃ were increased at the level of 10^5/g. It showed that the indicators in meat products stored at 30℃ had a tendency to increase at the level of l0₂/g relative to those stored at 20℃. SPC, psychrophile and heterotroph in milk stored at 10 increased up to the level of 10₄/ml, but coliform, staphylococcus, fecal streptococcus and Pseud. aeruginosa were not detected. As stored at 20℃ and 30℃, they were increased rapidly for 1 or 3 days and then constant for a long time.

Contents of vitamin D3 and 25-OH-vitamin D3 in marine animal products(20 species) were determined by HPLC. The isomers of vitamin D, D2 and D3, were not clearly separated on a reversed phase, μ Bonda Pak, with 20% methanol-acetonitrile, and on a normal phase, Zorbax SIL. with 0.4% isopropanol-hexane, but 25-OH-vitamin D2 and-D3 were separated on either μ Bonda Pak with 10% methanol-acetonitrile, or on Zorbax SIL with 2.2% isopropanol-hexane, respectively. Although levels of vitamin D3 and 25-OH-vitamin D3 varied remarkably according to species, their average value(fish : l,l87sim36,007 I.U/sample 100g, mussel : 58~1,706 I.U/sample 100g, pickle: 1,208~79,358 I.U/sample 100g) was greatly higher than that of meat(80~100 I.U/sample 100g) and dairy products(400~800 I.U/sample 100g). Fatty tissues of fish and pickled fish intestines contained high level of vitamin D3 and 25-OH-vitamin D3, while the clam and mussel known to have various kinds of sterol including δ7-sterol showed very low levels of vitamin D3 and its derivative.