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      Optimized Preparation of Levofloxacin Loaded Polymeric Nanoparticles

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          Abstract

          In this work, poly(lactic- co-glycolic acid) (PLGA) and chitosan (CS) nanoparticles were synthesized with the purpose of encapsulating levofloxacin (LEV). A thorough study has been carried out in order to optimize the preparation of LEV-loaded polymeric nanoparticles (NPs) suitable for parenteral administration. Changes in the preparation method, in the organic solvent nature, in the pH of the aqueous phase, or in the temperature were investigated. To the authors´ knowledge, a systematic study in order to improve the LEV nanocarrier characteristics and the yield of drug encapsulation has not been carried out to date. The physicochemical characterization of the NPs, their encapsulation efficiency (EE), and the in vitro release of LEV revealed that the best formulation was the emulsion-solvent evaporation method using dichloromethane as organic solvent, which renders suitable LEV loaded PLGA NPs. The morphology of these NPs was investigated using TEM. Their antimicrobial activities against several microorganisms were determined in vitro measuring the minimum inhibitory concentration (MIC). The results show that the use of these loaded LEV PLGA nanoparticles has the advantage of the slow release of the antibiotic, which would permit an increase in the time period between administrations as well as to decrease the side effects of the drug.

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          "Nanoantibiotics": a new paradigm for treating infectious diseases using nanomaterials in the antibiotics resistant era.

          Ae Jung Huh, Young Kwon (2011)
          Despite the fact that we live in an era of advanced and innovative technologies for elucidating underlying mechanisms of diseases and molecularly designing new drugs, infectious diseases continue to be one of the greatest health challenges worldwide. The main drawbacks for conventional antimicrobial agents are the development of multiple drug resistance and adverse side effects. Drug resistance enforces high dose administration of antibiotics, often generating intolerable toxicity, development of new antibiotics, and requests for significant economic, labor, and time investments. Recently, nontraditional antibiotic agents have been of tremendous interest in overcoming resistance that is developed by several pathogenic microorganisms against most of the commonly used antibiotics. Especially, several classes of antimicrobial nanoparticles (NPs) and nanosized carriers for antibiotics delivery have proven their effectiveness for treating infectious diseases, including antibiotics resistant ones, in vitro as well as in animal models. This review summarizes emerging efforts in combating against infectious diseases, particularly using antimicrobial NPs and antibiotics delivery systems as new tools to tackle the current challenges in treating infectious diseases. Copyright © 2011 Elsevier B.V. All rights reserved.
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            Formation mechanism of monodisperse, low molecular weight chitosan nanoparticles by ionic gelation technique.

            Wen Fan, Wei Yan, Zushun Xu (2012)
            Chitosan nanoparticles have been extensively studied for drug and gene delivery. In this paper, monodisperse, low molecular weight (LMW) chitosan nanoparticles were prepared by a novel method based on ionic gelation using sodium tripolyphosphate (TPP) as cross-linking agent. The objective of this study was to solve the problem of preparation of chitosan/TPP nanoparticles with high degree of monodispersity and stability, and investigate the effect of various parameters on the formation of LMW chitosan/TPP nanoparticles. It was found that the particle size distribution of the nanoparticles could be significantly narrowed by a combination of decreasing the concentration of acetic acid and reducing the ambient temperature during cross-linking process. The optimized nanoparticles exhibited a mean hydrodynamic diameter of 138 nm with a polydispersity index (PDI) of 0.026 and a zeta potential of +35 mV, the nanoparticles had good storage stability at room temperature up to at least 20 days.
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              PLGA: a unique polymer for drug delivery.

              Deepak Kapoor, Amit Bhatia, Ripandeep Kaur (2015)
              Biodegradable polymers have played an important role in the delivery of drugs in a controlled and targeted manner. Polylactic-co-glycolic acid (PLGA) is one of the extensively researched synthetic biodegradable polymers due to its favorable properties. It is also known as a 'Smart Polymer' due to its stimuli sensitive behavior. A wide range of PLGA-based drug delivery systems have been reported for the treatment or diagnosis of various diseases and disorders. The present review provides an overview of the chemistry, physicochemical properties, biodegradation behavior, evaluation parameters and applications of PLGA in drug delivery. Different drug-polymer combinations developed into drug delivery or carrier systems are enumerated and discussed.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Pharmaceutics
                Journal ID (iso-abbrev): Pharmaceutics
                Journal ID (publisher-id): pharmaceutics
                Title: Pharmaceutics
                Publisher: MDPI
                ISSN (Electronic): 1999-4923
                Publication date (Electronic): 30 January 2019
                Publication date Collection: February 2019
                Volume: 11
                Issue: 2
                Electronic Location Identifier: 57
                Affiliations
                [1 ]Department of Chemical Engineering, Physical Chemistry and Materials Science, Faculty of Experimental Sciences, University of Huelva, Campus de El Carmen, Avda. de las Fuerzas Armadas s/n, 21071 Huelva, Spain; manuel.lopez@ 123456diq.uhu.es
                [2 ]Department of Physical Chemistry, University of Seville, C/Profesor García González 1, 41012 Seville, Spain; angelafd94@ 123456gmail.com (A.F.-D.); moya@ 123456us.es (M.L.M.); danblaare@ 123456gmail.com (D.B.-A.); evabernal@ 123456us.es (E.B.)
                [3 ]Department of Chemical Engineering, University of Seville, C/Profesor García González 1, 41012 Seville, Spain; cecilio@ 123456us.es
                [4 ]Department of Microbiology and Parasitology, University of Seville, C/Profesor García González 2, 41012 Seville, Spain; rrh@ 123456us.es (R.R.d.l.H.); ventosa@ 123456us.es (A.V.)
                Author notes
                [* ]Correspondence: pcornejo@ 123456us.es ; Tel.: +34-95-4557175
                Author information
                https://orcid.org/0000-0001-9060-9554
                https://orcid.org/0000-0002-9661-0051
                https://orcid.org/0000-0002-4615-780X
                https://orcid.org/0000-0002-7573-0556
                https://orcid.org/0000-0002-5825-9483
                Article
                Publisher ID: pharmaceutics-11-00057
                DOI: 10.3390/pharmaceutics11020057
                PMC ID: 6409575
                PubMed ID: 30704034
                SO-VID: 0d84ff17-2a33-4128-b21e-f50b63f4f3a9
                Copyright © © 2019 by the authors.
                License:

                Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( http://creativecommons.org/licenses/by/4.0/).

                History
                Date received : 27 December 2018
                Date accepted : 27 January 2019
                Categories
                Subject: Article

                Keywords: levofloxacin,nanoparticles,plga,chitosan
                Data availability:
                Keywords: levofloxacin, nanoparticles, plga, chitosan

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