Evaluation of formulation properties and skin penetration in the same additive-containing formulation

The aim of this study is to examine the physicochemical properties of the external preparation, the effect on the skin permeability and the human senses. Miconazole nitrate cream formulation (MCZ-A: bland name and MCZ-B, −C, −D: generics) to measure the physicochemical properties, was performed by t...

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Autores principales: Inoue, Yutaka, Suzuki, Kensuke, Maeda, Rikimaru, Shimura, Arisa, Murata, Isamu, Kanamoto, Ikuo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2014
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4348512/
https://www.ncbi.nlm.nih.gov/pubmed/25756006
http://dx.doi.org/10.1016/j.rinphs.2014.09.003
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author Inoue, Yutaka
Suzuki, Kensuke
Maeda, Rikimaru
Shimura, Arisa
Murata, Isamu
Kanamoto, Ikuo
author_facet Inoue, Yutaka
Suzuki, Kensuke
Maeda, Rikimaru
Shimura, Arisa
Murata, Isamu
Kanamoto, Ikuo
author_sort Inoue, Yutaka
collection PubMed
description The aim of this study is to examine the physicochemical properties of the external preparation, the effect on the skin permeability and the human senses. Miconazole nitrate cream formulation (MCZ-A: bland name and MCZ-B, −C, −D: generics) to measure the physicochemical properties, was performed by the skin permeation test and human sensory test. The flattening, viscoelasticity, and water content of each cream were measured and each cream was subjected to near-infrared (NIR) absorption spectroscopy and human sensory testing. The yield value was calculated based on measured flattening and was 734.8 dynes/cm(2) for MCZ-A, 1198.9 dynes/cm(2) for MCZ-B, 461.3 dynes/cm(2) for MCZ-C and 3112.3 dynes/cm(2) for MCZ-D. Measurement of viscoelasticity and viscosity revealed that MCZ-C had a smaller tanδ than the other 3 creams at 25 °C. NIR absorption spectroscopy revealed that MCZ-A had the highest absorption peak due to hydroxyl groups, followed by MCZ-C, −B, and then −D. Measurement of water content revealed that MCZ-A had a water content of 65.9%, MCZ-B, −C, and −D had a water content of around 56.3%. Human sensory testing revealed differences between MCZ-A and MCZ-C and between MCZ-B and MCZ-D in terms of spreadability and feel. These findings indicate that differences in water and oil content and emulsification resulted in the creams having different physical properties, such as flattening, internal structure, and dynamic viscoelasticity. NIR absorption spectroscopy, which allows non-destructive measurement of a sample’s physicochemical properties, and measurement of viscoelasticity and viscosity, which allows measurement of a sample’s dynamic viscoelasticity, revealed differences in the physical properties of creams. The skin permeation test, skin MCZ amount was 7.48 µg/cm(2) for MCZ-A, 5.11 µg/cm(2) for MCZ-B, 12.08 µg/cm(2) for MCZ-C and 3.75 µg/cm(2) for MCZ-D. In addition, since the drug spread is good about the skin migration, spreadability is affecting the potential dermal transfer.
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spelling pubmed-43485122015-03-09 Evaluation of formulation properties and skin penetration in the same additive-containing formulation Inoue, Yutaka Suzuki, Kensuke Maeda, Rikimaru Shimura, Arisa Murata, Isamu Kanamoto, Ikuo Results Pharma Sci Article The aim of this study is to examine the physicochemical properties of the external preparation, the effect on the skin permeability and the human senses. Miconazole nitrate cream formulation (MCZ-A: bland name and MCZ-B, −C, −D: generics) to measure the physicochemical properties, was performed by the skin permeation test and human sensory test. The flattening, viscoelasticity, and water content of each cream were measured and each cream was subjected to near-infrared (NIR) absorption spectroscopy and human sensory testing. The yield value was calculated based on measured flattening and was 734.8 dynes/cm(2) for MCZ-A, 1198.9 dynes/cm(2) for MCZ-B, 461.3 dynes/cm(2) for MCZ-C and 3112.3 dynes/cm(2) for MCZ-D. Measurement of viscoelasticity and viscosity revealed that MCZ-C had a smaller tanδ than the other 3 creams at 25 °C. NIR absorption spectroscopy revealed that MCZ-A had the highest absorption peak due to hydroxyl groups, followed by MCZ-C, −B, and then −D. Measurement of water content revealed that MCZ-A had a water content of 65.9%, MCZ-B, −C, and −D had a water content of around 56.3%. Human sensory testing revealed differences between MCZ-A and MCZ-C and between MCZ-B and MCZ-D in terms of spreadability and feel. These findings indicate that differences in water and oil content and emulsification resulted in the creams having different physical properties, such as flattening, internal structure, and dynamic viscoelasticity. NIR absorption spectroscopy, which allows non-destructive measurement of a sample’s physicochemical properties, and measurement of viscoelasticity and viscosity, which allows measurement of a sample’s dynamic viscoelasticity, revealed differences in the physical properties of creams. The skin permeation test, skin MCZ amount was 7.48 µg/cm(2) for MCZ-A, 5.11 µg/cm(2) for MCZ-B, 12.08 µg/cm(2) for MCZ-C and 3.75 µg/cm(2) for MCZ-D. In addition, since the drug spread is good about the skin migration, spreadability is affecting the potential dermal transfer. Elsevier 2014-09-23 /pmc/articles/PMC4348512/ /pubmed/25756006 http://dx.doi.org/10.1016/j.rinphs.2014.09.003 Text en © 2014 The Authors http://creativecommons.org/licenses/by-nc-nd/3.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/3.0/).
spellingShingle Article
Inoue, Yutaka
Suzuki, Kensuke
Maeda, Rikimaru
Shimura, Arisa
Murata, Isamu
Kanamoto, Ikuo
Evaluation of formulation properties and skin penetration in the same additive-containing formulation
title Evaluation of formulation properties and skin penetration in the same additive-containing formulation
title_full Evaluation of formulation properties and skin penetration in the same additive-containing formulation
title_fullStr Evaluation of formulation properties and skin penetration in the same additive-containing formulation
title_full_unstemmed Evaluation of formulation properties and skin penetration in the same additive-containing formulation
title_short Evaluation of formulation properties and skin penetration in the same additive-containing formulation
title_sort evaluation of formulation properties and skin penetration in the same additive-containing formulation
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4348512/
https://www.ncbi.nlm.nih.gov/pubmed/25756006
http://dx.doi.org/10.1016/j.rinphs.2014.09.003
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