Studies on transdermal delivery of ferulic acid through rat skin treated by microneedle arrays.
- Author:
Bing YANG
;
Shou-ying DU
;
Jie BAI
;
Ke-xin SHANG
;
Yang LU
;
Peng-yue LI
- Publication Type:Journal Article
- MeSH:
Administration, Cutaneous;
Animals;
Coumaric Acids;
administration & dosage;
pharmacokinetics;
Male;
Needles;
Rats;
Rats, Sprague-Dawley;
Skin Absorption
- From:
China Journal of Chinese Materia Medica
2014;39(24):4773-4777
- CountryChina
- Language:Chinese
-
Abstract:
In order to investigate the characteristics of transdermal delivery of ferulic acid under the treated of microneedle arrays and the influence on permeability of rat skin capillaries, improved Franz-cells were used in the transdermal delivery experiment with the rat skin of abdominal wall and the length of microneedle arrays, different insertion forces, retention time were studied in the influence of characteristics of transdermal delivery of FA. The amount of FA was determined by HPLC system. Intravenous injection Evans blue and FA was added after microneedle arrays treated. Established inflammation model was built by daubing dimethylbenzene. The amount of Evans blue in the rat skin was read at 590 nm wavelength with a Multiskan Go microplate reader. Compared with passive diffusion group the skin pretreated with microneedle arrays had a remarkable enhancement of FA transport (P <0.01). The accumulation of FA increased with the enhancement of insertion force as to as the increase of retention time. Microneedle arrays with different length had a remarkable enhancement of FA transport, but was not related to the increase of the length. The research of FA on the reduce of permeability of rat skin capillaries indicated that the skin pretreated with microneedle arrays could reduce the content of Evans blue in the skins of rat significantly compared with the untreated group. The permeation rate of ferulic acid transdermal delivery had remarkable increase under the treated of microneedle arrays and the length of microneedle arrays ,the retention time so as to the insertion force were important to the transdermal delivery of ferulic acid.
