• 제목/요약/키워드: Urine bioassay

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Gross Beta Screening and Monitoring Procedure using Urine Bioassay for Radiation Workers of Radioisotope Production Facilities (뇨시료 전베타 분석법을 이용한 동위원소 생산시설 종사자 내부오염 스크리닝 및 감시절차 개발)

  • Yoon, Seokwon;Kim, Mee-Ryeong;Park, Seyoung;Pak, Min-Jeong;Yoo, Jaeryong;Jang, Han-Ki;Ha, Wi-Ho
    • Journal of Radiation Protection and Research
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    • v.38 no.2
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    • pp.52-59
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    • 2013
  • The internal contamination screening method using gross beta measurement was performed for radioisotope workers. 24 h and spot urine samples from workers of medical isotope production facilities were collected and measured. Most of the results were similar with the background level of gross beta activity except for a specific worker. Gross beta activity was slightly increased in several hours after finishing work. And the environmental factor of production facilities causing internal contamination were estimated based on screening results. The additional detailed internal dose assessment must be followed after the screening for protection of workers. Moreover, a procedure was established to apply a simple internal contamination assessment for radiation workers.

Pharmacokinetics and Tissue Distribution of DWP20349 and DWP20351, New Quinolones Having 3-Amino-4-methyl thiomethylpyrrolidinyl Group on C7, in Rats (C7위치에 3-아미노-4-메칠치오메칠피로리디닐기를 치환한 신규 퀴놀론계 항생물질 DWP20349 및 DWP20351의 흰쥐에서의 체내동태 및 조직분포)

  • Cho, Jae-Youl;Nam, Kweon-Ho;Yoo, Eun-Sook;Lee, Jae-Wook;Yu, Young-Hyo;Park, Myung-Hwan
    • YAKHAK HOEJI
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    • v.41 no.3
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    • pp.312-320
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    • 1997
  • Pharmacokinetics and tissue distribution of DWP20349 and 20351, new quinolones, were examined in rats after a single intravenous and oral administration. Analyses of DWP20349 an d DWP20351 in plasma, tissue, and urine were determined by both HPLC and bioassay(microbiological assay). The plasma concentrations of the drugs declined biexponentially. The terminal half-lives ($t_{1/2\beta}$) of drugs were about 114 min (DWP20349) and 105 min (DWP20351) after intravenous dosing, and were 77 min (DWP20349) and 79 min (DWP20351) after oral dosing. The volume of distrbution at steady-state ($Vd_{ss}$) and total body clearances ($Cl_t$) of DWP20349 and DWP20351 were 760 ml/kg and 1126 ml/kg, and 5ml/min/kg and 10 ml/min/kg, respectively. The extents of bioavailability if DWP20349 and DWP20351 after oral administration were 29% and 28%, respectively. 24 h urinary recoveries measured by bioassay were 1.8% (DWP20349) and 1.3% (DWP20351) after oral dosing, and 2.4% (DWP20349) and 1.9% (DWP20351) after intravenous dosing. Plasma protein binding ratios ranged from 87%-90% (DWP20349) and 61%-68% (DWP20351). These drugs were highly distrbuted by the order of lung, kidney, liver and plasma (DWP20394), and lung, liver, kidney and plasma (DWP20351) after 1 hour orally administered.

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Pharmacokinetics of Astromicin Following a Single Intravenous Infusion in Healthy Korean Subjects (정상성인 한국인에서 아스트로마이신 1회 점적 주사후 약물동태학적 평가)

  • Bok, Hae Sook;Choi, Kyung Eob;Kim, Yeon Hwa;Peck, Kyong Ran;Song, Jae Hoon
    • Korean Journal of Clinical Pharmacy
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    • v.13 no.2
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    • pp.55-58
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    • 2003
  • Astromicin is an aminoglycoside antiviotic that is structually different from conventional aminoglycosides. Astromicin has been shown to be active against aerobic Gram-negative bacilli. The pharmacokinetics of astromicin were determined in 12 healthy volunteers ($65.5\pm5.23\;kg$ of body weight) following a 30-min continuous intravenous infusion at a dose of 200 mg. The plasma and urine samples were collected up to 24 h and drug concentrations were measured by a bioassay using Bacillus subtilis. Pharmacokinetic parameters were calculated by fitting individual concentration-time curve to a one-exponential decay model. The plasma levels were $16.9\pm1.68\;and\;1.05\pm0.346\l{\mu}g/ml$ at 0 h and 8 h after the infusion, respectively. The elimination half-life of astromicin was $1.86\pm0.360\;h$ The volume of distribution was $0.182\pm0.0164\;L/kg$, and the total body clearance was $5.25\pm1.74\;L/h$. These pharmacokinetic parameters were similar to these of gentamicin, tobramycin, and amikacin. Therefore, it is recommended that therapeutic drug monitoring of astromicin could be conducted in a similar fashion as the other aminoglycosides.

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Gastrointestinal and Hepatic First-pass Effects of Triflusal in Rats (흰쥐에서 트리플루살의 위장관 및 간 초회통과효과)

  • Cho, Hea-Young;Jeong, Tae-Jin;Lee, Yong-Bok
    • Journal of Pharmaceutical Investigation
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    • v.31 no.4
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    • pp.265-271
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    • 2001
  • In order to elucidate the influence of intestinal and hepatic first-pass effect on the pharmacokinetics of triflusal, the biotransformation of triflusal in the gastrointestinal tract and liver was designed. Moreover, we tried to establish an HPLC method applicable for bioassay and available to pharmacokinetics, not only with the simultaneous determination of triflusal and its active metabolite, 2-hydroxy-4-trifluoromethyl benzoic acid (HTB), but also with improving sensitivity. After the administration of triflusal (10 mg/kg) and HTB (10 mg/kg) into femoral vein, portal vein (only triflusal) and oral route (only triflusal), pharmacokinetic parameters were investigated from the plasma concentration-time profiles of triflusal and HTB in rats. An HPLC method was developed for the simultaneous determination of triflusal and HTB in rat plasma, urine and bile. The HPLC analysis was carried out using a C18 column and acetonitrile-methanol-water (25:10:65, v/v/v) as the mobile phase and UV detection at 234 nm. Furosemide was used as the internal standard. The calibration curves were linear over the concentration range $0.05-5.0\;{\mu}g/ml$ for triflusal and $0.2-200.0\;{\mu}g/ml$ for HTB with correlation coefficients greater than 0.999 and with intra-day or inter-day coefficients of variation not exceeding 10.0%. This assay procedure was applied to the study of metabolite pharmacokinetics of triflusal and HTB in rats. It was supposed that triflusal was almost metabolized in vivo because urinary and biliary excreted amounts of triflusal could be ignored as it was lower than 1.2% of the administered dose. According to the gastrointestinal and hepatic biotransformation pathways of triflusal, it was found that triflusal was hydrolyzed by about 5% in intestine and metabolized by about 53% in liver, and that the bioavailability of triflusal after oral administration of triflusal was 0.44, and also that the fraction of total elimination rate of triflusal which formed HTB in liver $(F_{mi},\;%)$ was about 98%. These results showed that triflusal was almost metabolized in liver, and the total elimination of triflusal in the body was dependent to the formation rate of HTB from triflusal in liver.

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Bioassay in BALB/c mice exposed to low dose rate radiation (저선량율 방사선 조사한 BALB/c 마우스에서의 영향평가)

  • Kim, Sung-Dae;Gong, Eun-Ji;Bae, Min-Ji;Yang, Kwang-Mo;Kim, Joong-Sun
    • Journal of Radiation Protection and Research
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    • v.37 no.3
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    • pp.159-166
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    • 2012
  • The present study was performed to investigate the toxicity of low-dose-rate irradiation in BALB/c mice. Twenty mice of each sex were randomly assigned to four groups of five mice each and were exposed to 0 (sham), 0.02, 0.2, or 2 Gy, equivalents to low-dose-rate irradiation to 3.49 $mGy{\cdot}h^{-1}$. Urine, blood, and blood biochemistry were analyzed, and organ weight was measured. The low-dose-rate irradiation did not induce any toxicologically significant changes in mortality, clinical signs, body weight, food and water consumption, urinalysis, and serum biochemistry. However, the weights of reproductive organs including the testis, ovary, and uterus decreased in a dose-dependent manner. Irradiation at 2 Gy significantly decreased the testis, ovary, and uterus weights, but did not change the weights of other organs. There were no adverse effects on hematology in any irradiated group and only the number of neutrophils increased dose dependently. The low-dose-rate irradiation exposure did not cause adverse effects in mice at dose levels of 2 Gy or less, but the reproductive systems of male and female mice showed toxic effects.