Compartmental modeling of skin transport; European Journal of Pharmaceutics and Biopharmaceutics; Vol. 130
| Parent link: | European Journal of Pharmaceutics and Biopharmaceutics Vol. 130.— 2018.— [P. 336-344] |
|---|---|
| Korporativní autor: | |
| Další autoři: | , , , , , |
| Shrnutí: | Title screen The primary objective of this study is to introduce a simple and flexible mathematical approach which models transport processes in skin using compartments. The main feature of the presented approach is that the rate constants for exchange between compartments are derived from physiologically relevant diffusional transport parameters. This allows for better physical interpretation of the rate constants, and limits the number of parameters for the compartmental model. The resulting compartmental solution is in good agreement with previously published solutions for the diffusion model of skin when ten or more compartments are used. It was found that the new compartmental model with three compartments provided a better fit of the previously publish water penetration data than the diffusion model. Two special cases for which it is difficult to implement the diffusion model were considered using our compartmental approach. In both cases the compartmental model predictions agreed well with the diffusion model. |
| Jazyk: | angličtina |
| Vydáno: |
2018
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| Témata: | |
| On-line přístup: | https://doi.org/10.1016/j.ejpb.2018.07.015 |
| Médium: | MixedMaterials Elektronický zdroj Kapitola |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=661353 |
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| 200 | 1 | |a Compartmental modeling of skin transport |f A. A. Amaraha [et al.] | |
| 203 | |a Text |c electronic | ||
| 300 | |a Title screen | ||
| 320 | |a [References: 56 tit.] | ||
| 330 | |a The primary objective of this study is to introduce a simple and flexible mathematical approach which models transport processes in skin using compartments. The main feature of the presented approach is that the rate constants for exchange between compartments are derived from physiologically relevant diffusional transport parameters. This allows for better physical interpretation of the rate constants, and limits the number of parameters for the compartmental model. The resulting compartmental solution is in good agreement with previously published solutions for the diffusion model of skin when ten or more compartments are used. It was found that the new compartmental model with three compartments provided a better fit of the previously publish water penetration data than the diffusion model. Two special cases for which it is difficult to implement the diffusion model were considered using our compartmental approach. In both cases the compartmental model predictions agreed well with the diffusion model. | ||
| 461 | |t European Journal of Pharmaceutics and Biopharmaceutics | ||
| 463 | |t Vol. 130 |v [P. 336-344] |d 2018 | ||
| 610 | 1 | |a электронный ресурс | |
| 610 | 1 | |a труды учёных ТПУ | |
| 610 | 1 | |a skin transport | |
| 610 | 1 | |a compartmental model | |
| 610 | 1 | |a diffusion model | |
| 610 | 1 | |a компартментальные модели | |
| 610 | 1 | |a диффузионные модели | |
| 701 | 1 | |a Amaraha |b A. A. | |
| 701 | 1 | |a Petlin |b D. G. |c physicist |c Techniques of Tomsk Polytechnic University |f 1990- |g Daniil Gennadyevich |3 (RuTPU)RU\TPU\pers\30858 | |
| 701 | 1 | |a Grice |b J. E. |g Jeffrey | |
| 701 | 1 | |a Hadgrafte |b J. | |
| 701 | 1 | |a Roberts |b M. S. | |
| 701 | 1 | |a Anissimov |b Yu. G. |g Yuri German | |
| 712 | 0 | 2 | |a Национальный исследовательский Томский политехнический университет (ТПУ) |b Физико-технический институт (ФТИ) |b Кафедра химической технологии редких, рассеянных и радиоактивных элементов (№ 43) (ХТРЭ) |3 (RuTPU)RU\TPU\col\18733 |
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