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This study aimed to develop an intravesical delivery system of gemcitabine HCl for superficial bladder cancer in order to provide a controlled release profile, to prolong the residence time, and to avoid drug elimination via urination. For this aim, bioadhesive nanoparticles were prepared with thiolated chitosan (chitosan–thioglycolic acid conjugate) and were dispersed in bioadhesive chitosan gel or in an in situ gelling poloxamer formulation in order to improve intravesical residence time. In addition, nanoparticle-loaded gels were diluted with artificial urine to mimic in vivo conditions in the bladder and were characterized regarding changes in gel structure. The obtained results showed that chitosanthioglycolic acid nanoparticles with a mean diameter of 174.5±3.762 nm and zeta potential of 32.100±0.575 mV were successfully developed via ionotropic gelation and that the encapsulation efficiency of gemcitabine HCl was nearly 20%. In vitro/ex vivo characterization studies demonstrated that both nanoparticles and nanoparticle-loaded chitosan and poloxamer gels might be alternative carriers for intravesical administration of gemcitabine HCl, prolonging its residence time in the bladder and hence improving treatment efficacy. However, when the gel formulations were diluted with artificial urine, poloxamer gels lost their in situ gelling properties at body temperature, which is in conflict with the aimed formulation property. Therefore, 2% chitosan gel formulation was found to be a more promising carrier system for intravesical administration of nanoparticles.

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Mucoadhesive self-emulsifying delivery systems for ocular administration of econazole

Elbahwy

Lupo²,

Ibrahim

et al. 2018

International Journal of Pharmaceutics

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Radiolabeling and cell incorporation studies of gemcitabine HCl microspheres on bladder cancer and papilloma cell line

İlem-Özdemir

Karavana

Şenyiğit

et al. 2016

J Radioanal Nucl Chem

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In the present study incorporation differences between the developed formulations for treatment for bladder cancer was investigated by radioactive cell culture studies. Developed bioadhesive microspheres (MS) and gemcitabinehydrochloride loaded MS (GHCl-MS) were radiolabeled. After observing the optimum labeling conditions, 99m Tc-MS and 99m Tc-GHCl-MS were loaded to the chitosan gel (CG) and poloxamer gel. The in vitro cell incorporation affinity of newly developed formulations to bladder papilloma (RT4) and the carcinoma (T24) cell lines was investigated. Cell culture studies results indicate that the use of prolonged release bioadhesive CG formulation was highly improved the targeting of the GHCl to the cancer cells. Graphical Abstract

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Development and in vitro evaluation of a self-emulsifying drug delivery system (SEDDS) for oral vancomycin administration

Zaichik

Steinbring

Çalışkan

et al. 2019

International Journal of Pharmaceutics

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Gemcitabine hydrochloride microspheres used for intravesical treatment of superficial bladder cancer: a comprehensive in vitro/ex vivo/in vivo evaluation

Karavana¹,

Şenyiğit²,

Çalışkan³

et al. 2018

DDDT

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IntroductionBladder cancer is responsible for more than 130,000 deaths annually worldwide. Intravesical delivery of chemotherapeutic agents provides effective drug localization to the target area to reduce toxicity and increase efficacy. This study aimed to develop an intravesical delivery system of gemcitabine HCl (Gem-HCl) to provide a sustained-release profile, to prolong residence time, and to enhance its efficiency in the treatment of bladder cancer.Materials and methodsFor this purpose, bioadhesive microspheres were successfully prepared with average particle size, encapsulation efficiency, and loading capacity of 98.4 µm, 82.657%±5.817%, and 12.501±0.881 mg, respectively. For intravesical administration, bioadhesive microspheres were dispersed in mucoadhesive chitosan or in situ poloxamer gels and characterized in terms of gelation temperature, viscosity, mechanical, syringeability, and bioadhesive and rheological properties. The cytotoxic effects of Gem-HCl solution, Gem-HCl microspheres, and Gem-HCl microsphere-loaded gel formulations were evaluated in two different bladder cancer cell lines: T24 (ATCC HTB4TM) and RT4 (ATCC HTB2TM).ResultsAccording to cell-culture studies, Gem-HCl microsphere-loaded poloxamer gel was more cytotoxic than Gem-HCl microsphere-loaded chitosan gel. Antitumor efficacy of newly developed formulations were investigated by in vivo studies using bladder-tumor-induced rats.ConclusionAccording to in vivo studies, Gem-HCl microsphere-loaded poloxamer gel was found to be an effective and promising alternative for current intravesical delivery-system therapies.

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