• Journal of Pharmaceutical Investigation
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• 제25권4호
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• pp.323-330
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• 1995

Ceftezole pivaloyloxymethyl ester(CFZ-PV) was synthesized to improve oral absorption and bioavailability of parent drug by esterification of ceftezole(CFZ) with chloromethyl pivalate. The successful synthesis of CFZ-PV was conformed by spectroscopic analysis. Partition coefficient studies showed that CFZ-PV is more lipophillic than CFZ. The pharmacokinetic characteristics of CFZ-PV and CFZ were compared following oral administrations of these compounds to rabbits. The amount of CFZ in plasma was determined with an HPLC method. The ester compound (prodrug) was not detected in plasma following oral administration of CFZ-PV, and although CFZ-PV had not microbiological activity in vitro, the plasma taken after oral administration of CFZ-PV had microbiological activity. From above observations, it was noted that CFZ-PV is rapidly hydrolyzed to CFZ in the body. And the oral absorption of CFZ-PV was increased by yielding 2-fold bioavailability rather than CFZ. Therefore, CFZ-PV could be a novel prodrug of CFZ which can improve the oral bioavailability of CFZ.

• 한국임상약학회지
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• 제8권2호
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• pp.133-138
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• 1998

Phthalimidyl ester of ceftezole (CFZ-PT) was synthesized as a prodrug by esterification of ceftezole (CFZ) with N-bromophthalimide. CFZ-PT was more lipophilic than CFZ when the lipophilicity was assessed by partition coefficients between n-octanol and water at various pH. The pharmacokinetic characteristic of CFZ-PT and CFZ preparations were compared following oral administrations of these compounds to rabbits. CFZ-PT is expected to be metabolized rapidly to CFZ in the body. The metabolism process appears to be hydrolysis of the ester to CFZ, the parent drug of CFZ-PT. In vivo metabolism of CFZ-PT to CFZ was confirmed in rabbit by HPLC analysis. CFZ concentration in the serum samples taken after oral administration of CFZ-PT(equivalent amount of CFZ) were released and higher than those of CFZ. Oral bioavailability of CFZ-PT was 1.9 fold higher than at of CFZ in rabbits because of enhanced lipophilicity and absorption. Finally, it was concluded that CFZ-PT appears useful as a prodrug of CFZ to improve the oral bioavailability of CFZ.

• Journal of Pharmaceutical Investigation
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• 제27권2호
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• pp.125-131
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• 1997

Ethoxycarbonyloxyethyl ester of ceftezole (CFZ-ET) was synthesized as a prodrug by esterification of ceftezole (CFZ) with ethoxycarbonyloxyethyl chloride and was confirmed by spectroscopic analyses. CFZ-ET was more lipophillic than CFZ as assessed by n-octanol and water partition coefficients at various pH. CFZ-ET itself did not show any microbiological activity in vitro, but showed substaintial microbiological activity after oral administration of CFZ-ET, indicating that CFZ-ET is converted to microbiologically active metabolite, probably CFZ, in the body. When CFZ-ET was incubated in blood, liver and intestine homogenates of rabbits, liver homogenate showed the fastest conversion of CFZ-ET. CFZ-ET appears rapidly metabolized in the liver when given orally due to the hydrolysis of the ester to CFZ, the parent drug of CFZ-ET. In vivo metabolism of CFZ-ET to CFZ was confirmed in rabbit by HPLC analysis. CFZ-ET were higher than those in the serum samples taken after oral administration of equivalent amount of CFZ. Oral bioavailability of CFZ-ET was 1.5-fold higher than that of CFZ in rabbits because of enhanced lipophilicity and absorption. Based on these findings, CFZ-ET appears useful as a prodrug of CFZ to improve the oral bioavailability of CFZ.

• Journal of Pharmaceutical Investigation
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• 제31권3호
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• pp.143-150
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• 2001

Butyrolactone ester of ceftezole (CFZ-BL) was synthesized by esterification of ceftezole (CFZ) with ${\alpha}-bromo-{\gamma}-butyrolactone$. The synthesis was confirmed by spectroscopic analysis. CFZ-BL was more lipophilic than CFZ when the lipophilicity was assessed by partition coefficients between n-octanol and water at various pH. CFZ-BL itself did not show any microbiological activity in vitro, but serums taken after oral administration of CFZ-BL showed substaintial microbiological activity indicating that CFZ-BL is converted to microbiologically active metabolite, probably CFZ, in the body. The conversion was confirmed by in vitro incubation study, in which CFZ-BL was incubated in some body tissues of rabbit. Liver homogenate showed fastest conversion of CFZ-BL among the tissues tested (blood and intestine). Thus, CFZ-BL appeares to be rapidly metabolized in the liver to CFZ following oral administration. The metabolism process appears to be hydrolysis of the ester to CFZ, the parent drug of CFZ-BL. In vivo metabolism of CFZ-BL to CFZ was confirmed by analying CFZ by HPLC. CFZ concentration in the serum samples taken after oral administration of CFZ-BL were higher than those in the serum samples taken after oral administration of equivalent amount of CFZ. Oral bioavailability of CFZ-BL, a prodrug of CFZ, was 1.45-fold higher than that of CFZ in rabbits possibly due to enhanced lipophility and absorption of the prodrug.

• 한국임상약학회지
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• 제13권2호
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• pp.91-96
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• 2003

Paclitaxel과 cephalosporines(제 1세대인 ceftezole sodium과 cephradine, 제2세대인 cefamandole sodium과 cefmetazole sodium, 제3세대인 cefoperazone sodium과 cefotaxime sodium 그러고 제4세대인 cefepime hydrochloride)을 $5\%$포도당주사액 그리고 $0.9\%$ 염화나트륨주사액과 함께 Y-Site 장치를 써서 환자에게 주입할 때 paclitaxel의 안정성에 관하여 연구하였다. Paclitaxel 0.3 mg/ml 및 1.2 mg/ml과 cephalosporines 20 mg/m을 각각 1 : 1로 혼합한 후 0, 1, 2, 4, 12시간 시점에서 paclitaxel의 농도를 HPLC로 분석하였다. 방해물질에 의한 분석오차를 줄이기 위해 분석법을 여러 상태에서 확인하였으며, 각 농도에서 3차례씩 실험하였고 각 샘플은 2차례 반복하여 HPLC로 분석하였다. 분석전에 각 시료의 투명도, 색의 변화, 침전상태 및 pH를 검사하였다. Paclitaxel 0.3 mg/ml 및 1.2 mg/ml와 cephalosporines 20 mg/ml를 각각 혼합하였을 때 12시간 동안 안정하였으며, 주사액의 혼탁이나 색의 변화 및 침전은 나타나지 않았으며 pH도 변하지 않았다.

• 한국환경보건학회지
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• 제32권5호
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• pp.462-468
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• 2006

Antibiotics are manufactured and used for specific physiological functions, hence they may exert adverse ecological consequences when they are in contact with nontarget organisms. In the last decade, many reports have been made on the occurrences of various antibiotic compounds in surface water, and their potential impact to the environment has become an increasing concern. This study was conducted to prioritize antibiotic substances with potential environment risk in Korea. Human use antibiotics with an EIC (Expected Introduction Concentration) value greater than $1{\mu}g/l$, US FDA's action limit criteria, were selected. In order to calculate a worst-case EIC for each substance, annual production volume (in kg) of each antibiotic substance was derived using the Korea Pharmaceutical Manufacturers Association (KPMA)'s monetary database. Sixteen substances were preliminarily selected. The EICs of the 16 antibiotic substances were refined with the excretion rate of the parent substances. Ten antibiotic substances were identified to have EIC-corrected greater than $1{\mu}g/l$, which include Amoxicillin ($15.8{\mu}g/l$), Cefaclor ($10.1{\mu}/l$), Roxithromycin ($4.2{\mu}g/l$), Cephradine ($4.5{\mu}g/l$), Cefatrizine ($2.6{\mu}g/l$), Cefadroxil ($3.3{\mu}g/l$), Aztreonam ($2.3{\mu}g/l$), Ceftazidime ($2.8{\mu}g/l$), Ribostamycin ($1.3{\mu}g/l$), and Ceftezole ($1.3{\mu}g/l$). Additional risk assessments for these antibiotic substances are suggested.