Meltem Çetin scite author profile

Abstract. The aim of this study was to formulate and characterize Eudragit® L100 and Eudragit® L100-poly(lactic-co-glycolic acid) (PLGA) nanoparticles containing diclofenac sodium. Diclofenac generates severe adverse effects with risks of toxicity. Thus, nanoparticles were prepared to reduce these drawbacks in the present study. These nanoparticles were evaluated for surface morphology, particle size and size distribution, percentage drug entrapment, and in vitro drug release in pH 6.8. The prepared nanoparticles were almost spherical in shape, as determined by atomic force microscopy. The nanoparticles with varied size (241-274 nm) and 25.8-62% of entrapment efficiency were obtained. The nanoparticles formulations produced the release profiles with an initial burst effect in which diclofenac sodium release ranged between 38% and 47% within 4 h. The extent of drug release from Eudragit® L100 nanoparticles was up to 92% at 12 h. However, Eudragit®/PLGA nanoparticles showed an initial burst release followed by a slower sustained release. The cumulative release at 72 h was 56%, 69%, and 81% for Eudragit®/PLGA (20:80), Eudragit®/PLGA (30:70) and Eudragit®/PLGA (50:50) nanoparticles, respectively. The release profiles and encapsulation efficiencies depended on the amount of Eudragit in the blend. These data demonstrated the efficacy of these nanoparticles in sustaining the diclofenac sodium release profile.

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Microparticulate and nanoparticulate drug delivery systems for metformin hydrochloride

Çetin

Şahin

2015

Drug Delivery

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Context: Metformin hydrochloride is a biguanide derivative widely used for the treatment of type 2 diabetes, prescribed nearly to 120 million people worldwide. Metformin has a relatively low oral bioavailability (about 50-60%). Although the major effect of metformin is to decrease hepatic glucose output as an antihyperglycemic agent, its inhibitory effects on the proliferation of some cancer cells (e.g. prostate, breast, glioma cells) have been demonstrated in the cell culture studies. Development of novel formulation (e.g. microparticles, nanoparticles) strategies for metformin might be useful to improve its bioavailability, to reduce the dosing frequency, to decrease gastrointestinal side effects and toxicity and to be helpful for effective use of metformin in cancer treatment. Objective: The main aim of this review is to summarize metformin HCl-loaded micro-and nanoparticulate drug delivery systems. Method: The literature was rewieved with regard to the physicochemical, pharmacological properties of metformin, and also its mechanism of action in type 2 diabetes and cancer. In addition, micro-and nanoparticulate drug delivery systems developed for metformin were gathered from the literature and the results were discussed. Conclusion: Metformin is an oral antihyperglycemic agent and also has potential antitumorigenic effects. The repeated applications of high doses of metformin (as immediate release formulations) are needed for an effective treatment due to its low oral bioavailability and short biological half-life. Drug delivery systems are very useful systems to overcome the difficulties associated with conventional dosage forms of metformin and also for its effective use in cancer treatment.

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Preparation and In Vitro Evaluation of bFGF-Loaded Chitosan Nanoparticles

et al. 2007

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Effect of Metformin/Irinotecan-Loaded Poly-Lactic-Co-Glycolic Acid Nanoparticles on Glioblastoma: In Vitro and In Vivo Studies

Taghizadehghalehjoughi

Hacımüftüoğlu

Çetin

et al. 2018

Nanomedicine (Lond.)

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Preparation and characterization of metformin hydrochloride loaded-Eudragit^®RSPO and Eudragit^®RSPO/PLGA nanoparticles

Çetin¹,

Atila

Şahin

et al. 2011

Pharmaceutical Development and Technology

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The aim of the present study was to develop and characterize metformin HCl-loaded nanoparticle formulations. Nanoparticles were prepared by the nanoprecipitation method using both a single polymer (Eudragit(®)RSPO) and a polymer mixture (Eudragit/PLGA). The mean particle size ranged from 268.8 to 288 nm and the nanoparticle surface was positively charged (9.72 to 10.1 mV). The highest encapsulation efficiency was observed when Eudragit®RSPO was used. All formulations showed highly reproducible drug release profiles and the in vitro drug release in phosphate buffer (pH = 6.8) ranged from 92 to 100% in 12 h. These results suggest that Eudragit(®)RSPO or Eudragit/PLGA nanoparticles might represent a promising sustained-release oral formulation for metformin HCl, reducing the necessity of repeated administrations of high doses to maintain effective plasma concentrations, and thus, increasing patient compliance and reducing the incidence of side-effects.

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Meltem Çetin

Formulation and In vitro Characterization of Eudragit® L100 and Eudragit® L100-PLGA Nanoparticles Containing Diclofenac Sodium

Microparticulate and nanoparticulate drug delivery systems for metformin hydrochloride

Preparation and In Vitro Evaluation of bFGF-Loaded Chitosan Nanoparticles

Effect of Metformin/Irinotecan-Loaded Poly-Lactic-Co-Glycolic Acid Nanoparticles on Glioblastoma: In Vitro and In Vivo Studies

Preparation and characterization of metformin hydrochloride loaded-Eudragit^®RSPO and Eudragit^®RSPO/PLGA nanoparticles

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Meltem Çetin

Formulation and In vitro Characterization of Eudragit® L100 and Eudragit® L100-PLGA Nanoparticles Containing Diclofenac Sodium

Microparticulate and nanoparticulate drug delivery systems for metformin hydrochloride

Preparation and In Vitro Evaluation of bFGF-Loaded Chitosan Nanoparticles

Effect of Metformin/Irinotecan-Loaded Poly-Lactic-Co-Glycolic Acid Nanoparticles on Glioblastoma: In Vitro and In Vivo Studies

Preparation and characterization of metformin hydrochloride loaded-Eudragit®RSPO and Eudragit®RSPO/PLGA nanoparticles

Contact Info

Product

Resources

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Preparation and characterization of metformin hydrochloride loaded-Eudragit^®RSPO and Eudragit^®RSPO/PLGA nanoparticles