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Journal of Microencapsulation
Micro and Nano Carriers
Volume 28, 2011 - Issue 8
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Research Article

In vitro physicochemical characterization and short term in vivo tolerability study of ethionamide loaded PLGA nanoparticles: potentially effective agent for multidrug resistant tuberculosis

Gaurav KumarDepartment of Pharmacology, Post Graduate Institute of Medical Education and Research, Chandigarh 160012, India
,
Samir MalhotraDepartment of Pharmacology, Post Graduate Institute of Medical Education and Research, Chandigarh 160012, India
,
Nusrat ShafiqDepartment of Pharmacology, Post Graduate Institute of Medical Education and Research, Chandigarh 160012, India
,
Promila PandhiDepartment of Pharmacology, Post Graduate Institute of Medical Education and Research, Chandigarh 160012, India
,
Gopal Krishan KhullerDepartment of Biochemistry, Post Graduate Institute of Medical Education and Research, Chandigarh 160012, India
&
Sadhna SharmaDepartment of Biochemistry, Post Graduate Institute of Medical Education and Research, Chandigarh 160012, IndiaCorrespondence[email protected]
Pages 717-728 | Received 14 Dec 2010, Accepted 11 Jul 2011, Published online: 10 Oct 2011
 
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Abstract

Purpose: To achieve prolonged drug release for the treatment of multidrug resistant tuberculosis and to improve the patient compliance, ethionamide loaded PLGA nanoparticles were developed.

Material and methods: They were developed by solvent evaporation method and optimized. The optimized formulation was subjected to various physico-chemical characterization, in vitro release studies and in vivo tolerability study.

Results and discussion: There was no significant drug-polymer interaction and drug was encapsulated as crystalline form in nanoparticles. In vitro release was sustained up to 15 days in various media. Ethionamide loaded nanoparticles in mice did not reveal any statistically significant treatment related effects on body weight gain and clinical signs. Likewise, no treatment-related toxic effect was found in hematology, clinical chemistry and histopathology. Our results indicate the development of an orally effective safe formulation of ethionamide with sustained release property.

Conclusion: Hence, ethionamide loaded nanoparticles offer excellent potential for further preclinical and clinical studies.

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