a Department of Pharmaceutics, School of Pharmacy , Anhui University of Chinese Medicine , Hefei , China.
b Institute of Pharmaceutics , Anhui Academy of Chinese Medical Sciences , Hefei , China.
Drug Dev Ind Pharm. 2019 Mar;45(3):465-473. doi: 10.1080/03639045.2018.1546317. Epub 2018 Nov 22.
The purpose of this study was to research the mechanism of percutaneous penetration of Ibuprofen (IBU) nanoemulsion.
Transdermal penetration mechanism of IBU nanoemulsion was investigated by using Fourier transform infra-red spectral analysis (FTIR), differential scanning calorimeter thermogram (DSC), and activation energy (Ea) measurement. The in vivo skin penetration test of rats was carried out using Rhodamine B nanoemulsion to simulate the process of drug penetration into the skin, and the frozen section of the skin was observed by confocal laser scanning microscopy (CLSM).
FTIR spectra and DSC thermogram of rat skin treated with IBU nanoemulsion showed that infiltration occurred due to disruption of the stratum corneum (SC) protein-lipid structure and increasing of fluidity, hydration, and disruption of the lipid bilayer structure of the SC. The significant reduce in Ea (1.255 kcal/mol) for IBU permeating rat skin suggested crucial disruption of the SC lipid bilayers (P < 0.05), which is speculated that nanoemulsion may create new pathways to promote drug penetration. CLSM revealed that Rhodamine B penetrated into the SC in a shorter period of time and it accumulated around the sebaceous glands.
The study of skin penetration mechanism indicated that nanoemulsion can be perfectly well used as the transdermal penetration of poorly soluble drugs.
本研究旨在探究布洛芬(IBU)纳米乳经皮渗透的机制。
采用傅里叶变换红外光谱分析(FTIR)、差示扫描量热法(DSC)和活化能(Ea)测量研究 IBU 纳米乳的透皮渗透机制。采用 Rhodamine B 纳米乳进行大鼠体内皮肤渗透试验,模拟药物渗透进入皮肤的过程,并用共聚焦激光扫描显微镜(CLSM)观察皮肤的冷冻切片。
IBU 纳米乳处理大鼠皮肤的 FTIR 光谱和 DSC 图谱显示,由于角质层(SC)蛋白-脂质结构的破坏以及 SC 流动性、水合作用和脂质双层结构的破坏,导致渗透发生。IBU 渗透大鼠皮肤的 Ea(1.255 kcal/mol)显著降低(P<0.05),提示 SC 脂质双层受到了关键破坏,这可能表明纳米乳可以创造新的途径来促进药物渗透。CLSM 显示,Rhodamine B 在更短的时间内渗透进入 SC,并在皮脂腺周围聚集。
皮肤渗透机制的研究表明,纳米乳可完美地用于难溶性药物的经皮渗透。
