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      SCIE SCOPUS 국가R&D연구논문

      Marbofloxacin-encapsulated microparticles provide sustained drug release for treatment of veterinary diseases

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      https://www.riss.kr/link?id=A107441653

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      <P>Fluoroquinolone antibiotics with concentration-dependent killing effects and a well-established broad spectrum of activity are used commonly to treat infectious diseases caused by bacteria. However, frequent and excessive administration of these antibiotics is a serious problem, and leads to increased number of drug-resistant bacteria. Thus, there is an urgent need for novel fluoroquinolone antibiotic formulations that minimize the risk of resistance while maximizing their efficacy. In this study, we developed intramuscularly injectable polymeric microparticles (MPs) that encapsulated with marbofioxacin (MAR) and were composed of poly(D,L-lactide-co-glycolic acid) (PLGA) and poloxamer (POL). MAR-encapsulated MP (MAR-MP) had a spherical shape with particle size ranging from 80 mu m to 120 mu m. Drug loading efficiency varied from 55 to 85% (w/w) at increasing amount of hydrophilic agent, POL. Drug release from MAR-MP demonstrated a significant and sustained increase at increased ratios of POL to PLGA. These results indicate that MAR-MP is an improved drug delivery carrier for fluoroquinolone antibiotics, which can reduce the number of doses needed and sustain a high release rate of MAR for 2-3 days. As a novel and highly effective drug delivery platform, MAR-MP has great potential for use in a broad range of applications for the treatment of various veterinary diseases. (C) 2015 Published by Elsevier B.V.</P>
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      <P>Fluoroquinolone antibiotics with concentration-dependent killing effects and a well-established broad spectrum of activity are used commonly to treat infectious diseases caused by bacteria. However, frequent and excessive administration of th...

      <P>Fluoroquinolone antibiotics with concentration-dependent killing effects and a well-established broad spectrum of activity are used commonly to treat infectious diseases caused by bacteria. However, frequent and excessive administration of these antibiotics is a serious problem, and leads to increased number of drug-resistant bacteria. Thus, there is an urgent need for novel fluoroquinolone antibiotic formulations that minimize the risk of resistance while maximizing their efficacy. In this study, we developed intramuscularly injectable polymeric microparticles (MPs) that encapsulated with marbofioxacin (MAR) and were composed of poly(D,L-lactide-co-glycolic acid) (PLGA) and poloxamer (POL). MAR-encapsulated MP (MAR-MP) had a spherical shape with particle size ranging from 80 mu m to 120 mu m. Drug loading efficiency varied from 55 to 85% (w/w) at increasing amount of hydrophilic agent, POL. Drug release from MAR-MP demonstrated a significant and sustained increase at increased ratios of POL to PLGA. These results indicate that MAR-MP is an improved drug delivery carrier for fluoroquinolone antibiotics, which can reduce the number of doses needed and sustain a high release rate of MAR for 2-3 days. As a novel and highly effective drug delivery platform, MAR-MP has great potential for use in a broad range of applications for the treatment of various veterinary diseases. (C) 2015 Published by Elsevier B.V.</P>

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      국가 R&D 연구 과제 정보

      암신생혈관에서 특이적으로 발현하는 PLXDC1을 표적으로 하는 siRNA 기반 항신생혈관 치료제제 개발 (1345239103) / 2015 / 이공학개인기초연구지원 / 한희동 / 건국대학교 GLOCAL(글로컬)캠퍼스 / 교육부 / 49,608,000

      융복합 치료기술을 활용한 표적화된 나노의약의 개발 (1711034920) / 2015 / 한국화학연구원연구운영비지원 / 신병철 / 한국화학연구원 / 미래창조과학부 / 315,902,000

      암신생혈관에서 특이적으로 발현하는 PLXDC1을 표적으로 하는 siRNA 기반 항신생혈관 치료제제 개발 (1345239103) / 2015 / 이공학개인기초연구지원 / 한희동 / 건국대학교 GLOCAL(글로컬)캠퍼스 / 교육부 / 49,608,000

      융복합 치료기술을 활용한 표적화된 나노의약의 개발 (1711034920) / 2015 / 한국화학연구원연구운영비지원 / 신병철 / 한국화학연구원 / 미래창조과학부 / 315,902,000

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