Effect of preparation technique on the properties and in vivo efficacy of benzocaine-loaded ethosomes

This study aimed to investigate the influence of the preparation conditions on the performance of an ethosomal formulation for topical delivery of the local anesthetic agent, benzocaine (BZC). Ethosomes were prepared with different techniques, such as thin-layer evaporation, freezing and thawing, re...

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Published in:Journal of liposome research 2009-12, Vol.19 (4), p.253-260
Main Authors: Maestrelli, Francesca, Capasso, Gaetano, González-Rodríguez, Maria L., Rabasco, Antonio M., Ghelardini, Carla, Mura, Paola
Format: Article
Language:English
Subjects:
Anesthetics, Local - administration & dosage
Animals
Benzocaine
Benzocaine - administration & dosage
Drug Stability
ethosomes
FATMLV
in vivo anesthetic efficacy
Liposomes
LUV
Microscopy, Electron, Transmission
MLV
Particle Size
Rabbits
SUV
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cited_by cdi_FETCH-LOGICAL-c405t-7833a24e5af85a36fda8e7c82f20831c5a06a01c867277092190a617ec55aa443
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container_end_page 260
container_issue 4
container_start_page 253
container_title Journal of liposome research
container_volume 19
creator Maestrelli, Francesca
Capasso, Gaetano
González-Rodríguez, Maria L.
Rabasco, Antonio M.
Ghelardini, Carla
Mura, Paola
description This study aimed to investigate the influence of the preparation conditions on the performance of an ethosomal formulation for topical delivery of the local anesthetic agent, benzocaine (BZC). Ethosomes were prepared with different techniques, such as thin-layer evaporation, freezing and thawing, reverse-phase evaporation, extrusion and sonication, obtaining, respectively, multilayer vesicles (MLVs), frozen and thawed MLV (FATMLV), large unilamellar vesicles (LUVs), and small unilamellar vesicles (SUVs). The obtained vesicles were characterized for morphology, size, zeta potential, and entrapment efficiency (EE%), and their stability was monitored during storage at 4°C. In vitro permeation properties from gels incorporating drug ethosomal dispersions were evaluated in vitro by using artificial lipophilic membranes, while their anesthetic effect was determined in vivo on rabbits. The results suggested that the vesicle preparation method plays an important role in affecting the properties and effectiveness of ethosomal formulations. MLVs and LUVs exhibited higher drug EE% and better stability than FATMLV and SUV vesicles. The In vitro drug permeation rate was directly related to the vesicle EE% and varied in the order MLV>LUV FATMLV>SUV. The therapeutic efficacy of BZC ethosomal formulations was significantly improved with respect to the corresponding BZC solution. The best results, in terms of enhanced intensity of anesthetic effect, were given by formulations containing MLVs and LUVs, and the order of effectiveness was MLV LUV>FATMLV SUV, rather similar to that found in permeation studies. On the contrary, unexpectedly, the effectiveness order in increasing the duration of drug action was SUV≥MLV>LUV FATMLV. The highest efficacy of SUVs was probably due to the more intimate contact with the epithelium due to their greatest surface area, which allowed the longest extension of drug therapeutic action. The overall results suggest that a suitably developed ethosomal formulation of BZC can be of actual value for improving its clinical effectiveness in topical anesthesia.
doi_str_mv 10.3109/08982100902788408
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Ethosomes were prepared with different techniques, such as thin-layer evaporation, freezing and thawing, reverse-phase evaporation, extrusion and sonication, obtaining, respectively, multilayer vesicles (MLVs), frozen and thawed MLV (FATMLV), large unilamellar vesicles (LUVs), and small unilamellar vesicles (SUVs). The obtained vesicles were characterized for morphology, size, zeta potential, and entrapment efficiency (EE%), and their stability was monitored during storage at 4°C. In vitro permeation properties from gels incorporating drug ethosomal dispersions were evaluated in vitro by using artificial lipophilic membranes, while their anesthetic effect was determined in vivo on rabbits. The results suggested that the vesicle preparation method plays an important role in affecting the properties and effectiveness of ethosomal formulations. MLVs and LUVs exhibited higher drug EE% and better stability than FATMLV and SUV vesicles. The In vitro drug permeation rate was directly related to the vesicle EE% and varied in the order MLV&gt;LUV FATMLV&gt;SUV. The therapeutic efficacy of BZC ethosomal formulations was significantly improved with respect to the corresponding BZC solution. The best results, in terms of enhanced intensity of anesthetic effect, were given by formulations containing MLVs and LUVs, and the order of effectiveness was MLV LUV&gt;FATMLV SUV, rather similar to that found in permeation studies. On the contrary, unexpectedly, the effectiveness order in increasing the duration of drug action was SUV≥MLV&gt;LUV FATMLV. The highest efficacy of SUVs was probably due to the more intimate contact with the epithelium due to their greatest surface area, which allowed the longest extension of drug therapeutic action. 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The In vitro drug permeation rate was directly related to the vesicle EE% and varied in the order MLV&gt;LUV FATMLV&gt;SUV. The therapeutic efficacy of BZC ethosomal formulations was significantly improved with respect to the corresponding BZC solution. The best results, in terms of enhanced intensity of anesthetic effect, were given by formulations containing MLVs and LUVs, and the order of effectiveness was MLV LUV&gt;FATMLV SUV, rather similar to that found in permeation studies. On the contrary, unexpectedly, the effectiveness order in increasing the duration of drug action was SUV≥MLV&gt;LUV FATMLV. The highest efficacy of SUVs was probably due to the more intimate contact with the epithelium due to their greatest surface area, which allowed the longest extension of drug therapeutic action. 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The In vitro drug permeation rate was directly related to the vesicle EE% and varied in the order MLV&gt;LUV FATMLV&gt;SUV. The therapeutic efficacy of BZC ethosomal formulations was significantly improved with respect to the corresponding BZC solution. The best results, in terms of enhanced intensity of anesthetic effect, were given by formulations containing MLVs and LUVs, and the order of effectiveness was MLV LUV&gt;FATMLV SUV, rather similar to that found in permeation studies. On the contrary, unexpectedly, the effectiveness order in increasing the duration of drug action was SUV≥MLV&gt;LUV FATMLV. The highest efficacy of SUVs was probably due to the more intimate contact with the epithelium due to their greatest surface area, which allowed the longest extension of drug therapeutic action. The overall results suggest that a suitably developed ethosomal formulation of BZC can be of actual value for improving its clinical effectiveness in topical anesthesia.</abstract><cop>England</cop><pub>Informa UK Ltd</pub><pmid>19863160</pmid><doi>10.3109/08982100902788408</doi><tpages>8</tpages></addata></record>
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subjects Anesthetics, Local - administration & dosage
Animals
Benzocaine
Benzocaine - administration & dosage
Drug Stability
ethosomes
FATMLV
in vivo anesthetic efficacy
Liposomes
LUV
Microscopy, Electron, Transmission
MLV
Particle Size
Rabbits
SUV
title Effect of preparation technique on the properties and in vivo efficacy of benzocaine-loaded ethosomes
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