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Pharmaceutical Development and Technology Volume 19, 2014 - Issue 2
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Short Report

Polymeric micelles and vesicles: biological behavior evaluation using radiolabeling techniques

Dimitrios PsimadasDepartment of Medical Instruments Technology, Technological Educational Institute of Athens Egaleo, AthensGreece;Institute of Nuclear and Radiological Sciences and Technology, Energy & Safety, NCSR “Demokritos” Aghia Paraskevi, AthensGreece;Department of Nuclear Medicine, University Hospital of Larissa Mezourlo, LarissaGreeceCorrespondence[email protected]
,
Hugo OliveiraIPB, ENSCBP, University of Bordeaux Pessac CedexFrance;Laboratory of Organic Chemistry Polymers (UMR5629), CNRS Pessac CedexFrance
,
Julie ThevenotIPB, ENSCBP, University of Bordeaux Pessac CedexFrance;Laboratory of Organic Chemistry Polymers (UMR5629), CNRS Pessac CedexFrance
,
Sebastien LecommandouxIPB, ENSCBP, University of Bordeaux Pessac CedexFrance;Laboratory of Organic Chemistry Polymers (UMR5629), CNRS Pessac CedexFrance
,
Penelope BouziotisInstitute of Nuclear and Radiological Sciences and Technology, Energy & Safety, NCSR “Demokritos” Aghia Paraskevi, AthensGreece
,
Alexandra D. VarvarigouInstitute of Nuclear and Radiological Sciences and Technology, Energy & Safety, NCSR “Demokritos” Aghia Paraskevi, AthensGreece
,
Panagiotis GeorgouliasDepartment of Nuclear Medicine, University Hospital of Larissa Mezourlo, LarissaGreece
&
George LoudosDepartment of Medical Instruments Technology, Technological Educational Institute of Athens Egaleo, AthensGreece
 show all
Pages 189-193 | Received 12 Nov 2012, Accepted 27 Dec 2012, Published online: 31 Jan 2013
 
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Abstract

The application of combined diagnosis and therapy through nanotechnology applications is attracting increasing attention worldwide. Polymeric self-assembled nanoparticles (NPs) have been studied for this purpose. Micelles and vesicles with or without a magnetic core can efficiently carry diagnostic and/or therapeutic agents to a desired target. The biological behavior of these NPs has been evaluated in this study, after radiolabeling with 99mTc. In vitro stability, in media that mimic the environment of the living body, was better for vesicles than for micelles at 1 h and decreased for both as time passed. After administration to healthy animals, all NPs presented major uptake at liver and spleen as expected. Biodistribution and imaging studies confirmed the higher uptake in these organs for the hybrid NPs and at higher extent for the ones with larger size, indicating that the magnetic load and size play an important role on in vivo distribution.

Acknowledgements

The authors thank Stavros Xanthopoulos for his expert assistance with the animal studies and Dr Theodoros Tsotakos for constructive discussion.

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