Usefulness of Rat Skin as a Substitute for Human Skin in the in Vitro Skin Permeation Study

Takeuchi, Hiroyuki; Mano, Yoko; Terasaka, Shuichi; Sakurai, Takanobu; Furuya, Atsushi; Urano, Hidetoshi; Sugibayashi, Kenji

doi:10.1538/expanim.60.373

Cited by 91 publications

(53 citation statements)

References 30 publications

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“…Along with the pig skin model, employed due to its barrier properties comparable to human skin as well as a better availability (Herkenne et al, 2006), rat skin is also used for dermal penetration studies (Takeuchi et al, 2011). Rat skin is mainly employed in the plant protection area, for systemic toxicology studies and in vivo skin absorption studies.…”

Section: General Introductionmentioning

confidence: 99%

Non-animal models of epithelial barriers (skin, intestine and lung) in research, industrial applications and regulatory toxicology

Gordon

Daneshian

Bouwstra

et al. 2015

ALTEX

124

103

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SummaryModels of the outer epithelia of the human body -namely the skin, the intestine and the lung -have found valid applications in both research and industrial settings as attractive alternatives to animal testing. A variety of approaches to model these barriers are currently employed in such fields, ranging from the utilization of ex vivo tissue to reconstructed in vitro models, and further to chip-based technologies, synthetic membrane systems and, of increasing current interest, in silico modeling approaches. An international group of experts in the field of epithelial barriers was convened from academia, industry and regulatory bodies to present both the current state of the art of non-animal models of the skin, intestinal and pulmonary barriers in their various fields of application, and to discuss research-based, industry-driven and regulatory-relevant future directions for both the development of new models and the refinement of existing test methods. Issues of model relevance and preference, validation and standardization, acceptance, and the need for simplicity versus complexity were focal themes of the discussions. The outcomes of workshop presentations and discussions, in relation to both current status and future directions in the utilization and development of epithelial barrier models, are presented by the attending experts in the current report.

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Section: General Introductionmentioning

confidence: 99%

Non-animal models of epithelial barriers (skin, intestine and lung) in research, industrial applications and regulatory toxicology

Gordon

Daneshian

Bouwstra

et al. 2015

ALTEX

124

103

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“…1,14,15) In our previous studies, the in vitro permeation of 3 model drugs was investigated through Sprague-Dawley rat (rat), Yucatan micropig (YMP) and human skin. 16,17) The 3 model drugs were selected because of their different log K o/w values (the logarithm of the octanol/water partition coefficient at 37°C; Table 1). 18) Nicorandil (NR), isosorbide dinitrate (ISDN) and flurbiprofen (FP) were used as hydrophilic, lipophilic and highly lipophilic drugs, respectively. The inter-individual variations in rat and YMP skin permeabilities for the 3 drugs were smaller than the human skin permeability.…”

mentioning

confidence: 99%

“…The inter-individual variations in rat and YMP skin permeabilities for the 3 drugs were smaller than the human skin permeability. 16,17) In addition, in vitro permeation studies using rat and YMP skin were particularly useful for evaluating differences in the skin permeabilities of the model drugs and for predicting human skin permeability. 16,17) Guidelines for a standard experimental protocol for in vitro skin permeation studies were published by the Organization Regular Article * To whom correspondence should be addressed.…”

mentioning

confidence: 99%

“…Nevertheless, we attempted to dermatome the skin using an electric dermatome by a new method established in our previous studies. 16,17) The purpose of this study was to clarify the influence of skin thickness on the in vitro permeabilities of 3 drugs with different physicochemical properties through rat or YMP skin. To accurately determine the permeation rate of drugs through rat or YMP skin, in vitro permeation experiments were performed using split rat and YMP skin of various thicknesses.…”

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confidence: 99%

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Influence of Skin Thickness on the in Vitro Permeabilities of Drugs through Sprague-Dawley Rat or Yucatan Micropig Skin

Takeuchi

Ishida

Furuya

et al. 2012

Biological & Pharmaceutical Bulletin

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The purpose of this study was to clarify the influence of skin thickness on the in vitro permeabilities of 3 model drugs with different physicochemical properties (nicorandil (NR), isosorbide dinitrate (ISDN) and flurbiprofen (FP)) through Sprague-Dawley rat (rat) or Yucatan micropig (YMP) skin. Intact, dermis-split, stratum corneum-stripped or stratum corneum-stripped and dermis-split rat or YMP skin (rat skin thickness: approximately 0.4, 0.9 or 1.2 mm; YMP skin thickness: approximately 0.4, 0.9, 1.8 or 2.8 mm) were set in Franz-type diffusion cells to determine the permeation rate, lag time and resistance ratio of the viable epidermis and dermis against whole skin (R ved /R tot ) of the drugs. The YMP skin permeabilities of the drugs decreased with an increase in the skin thickness, and significant differences were observed in the permeation rates and lag times between intact and dermis-split (0.4 mm) YMP skins. The decreases in the permeabilities of the drugs through the YMP skin were larger than those through the rat skin. The influence of resistances of ISDN and FP through the dermis-split rat or YMP skin was greater at 0.9 mm skin thickness than 0.4 mm skin thickness. The R ved /R tot values for the YMP skins were relatively large for lipophilic drugs (ISDN and FP), and these ratios increased with an increase in the dermis thickness. These results suggest that in vitro skin permeation studies must be done using dermis-split (0.4 mm) skin with the thinnest dermis for predicting in vivo human percutaneous absorption rate.Key words Yucatan micropig; intact skin; stripped skin; split skin; skin permeabilityIn vitro skin permeation studies have been broadly used in the development of transdermal formulations. Animal skins are frequently used as an alternative to human skin in percutaneous absorption studies, because human skin is not always available and the use of human tissues and organs creates ethical problems.1-10) Numerous animal models, including primate, porcine, mouse, rat, guinea pig and pig, have been utilized for skin permeability studies. 1,3,4,[11][12][13] Animal skins with minimal variations in skin permeability may be much better than human skin for determining or estimating the skin permeabilities of drugs and for developing transdermal formulations. 1,14,15) In our previous studies, the in vitro permeation of 3 model drugs was investigated through Sprague-Dawley rat (rat), Yucatan micropig (YMP) and human skin. 16,17) The 3 model drugs were selected because of their different log K o/w values (the logarithm of the octanol/water partition coefficient at 37°C; Table 1). 18) Nicorandil (NR), isosorbide dinitrate (ISDN) and flurbiprofen (FP) were used as hydrophilic, lipophilic and highly lipophilic drugs, respectively. The inter-individual variations in rat and YMP skin permeabilities for the 3 drugs were smaller than the human skin permeability. 16,17) In addition, in vitro permeation studies using rat and YMP skin were particularly useful for evaluating differences in the skin permeabilities o...

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“…The positive as well as negative signs of the coefficient values in the equations acquired following statistical investigation correspond to the agonistic & antagonistic outcome of the self-determining variable whereas the degree of beta coefficient symbolizes the degree of effect of the analogous independent variables [29][30][31].…”

Section: Solubility (S) Y1mentioning

confidence: 99%

Optimization and Formulation Development of Cefixime Complex Using Spray Drying Technique: DOE Approach

Mogal¹,

Derle²

2017

J Appl Pharm

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Cefixime is BCS class 2/4 drug whose oral absorption is limited by its solubility and/or permeability. The use of HPBCD is proved to be better complexing agent for enhancing solubility as well as permeability of drugs. At the same time spray drying is the one step continuous drying process making it attractive technique for industrial application. Therefore, the current study was undertaken to unite the use of HPBCD and spray drying alongside with optimizing it through Design of Experiments (DOE) approach by means of Box-Behnken design for the benefit of drugs like Cefixime that needs to be redeveloped for better therapeutic efficacy. These formulations were evaluated by solubility studies, process yield and total drug content with help of independent variables like air inlet temperature, aspirator rate and pump feed rate. The optimized formulation was also characterized by SEM, FTIR analysis and in vitro dissolution study. Inlet air temperature was found to be the most important parameter for the spray dried material characteristics, followed by the aspirator flow rate whereas Feed flow rate was found less significant. The results indicate that formulation parameters are at least important than process parameters when designing a proper process for spray drying inclusion complex. The optimized formulation was also then compressed into tablet and was compared with marketed formulation where it showed comparable dissolution.

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Usefulness of Rat Skin as a Substitute for Human Skin in the in Vitro Skin Permeation Study

Cited by 91 publications

References 30 publications

Non-animal models of epithelial barriers (skin, intestine and lung) in research, industrial applications and regulatory toxicology

Non-animal models of epithelial barriers (skin, intestine and lung) in research, industrial applications and regulatory toxicology

Influence of Skin Thickness on the in Vitro Permeabilities of Drugs through Sprague-Dawley Rat or Yucatan Micropig Skin

Optimization and Formulation Development of Cefixime Complex Using Spray Drying Technique: DOE Approach

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