Effect of Phospholipid Composition on Intradermal Delivery of Fluorescent Modified Cyclodextrin Liposomes
- VernacularTitle: 磷脂组成对荧光修饰环糊精脂质体皮肤递送效果的影响
- Author:
Ye-Ting SHU
1
Author Information
- Publication Type:Journal Article
- Keywords: Composite phospholipid; Hydroxypropyl-β-cyclodextrin; Liposome; Skin retention
- From: Chinese Pharmaceutical Journal 2020;55(13):1094-1097
- CountryChina
- Language:Chinese
- Abstract: OBJECTIVE: To compare the intradermal delivery effects of composite phospholipid liposomes composed of different proportions of soy phospholipids (SPC) and hydrogenated soy phospholipids (HSPC) on the fluorescent modified hydroxypropyl-β-cyclodextrin(HP-β-CD), and to optimize the phospholipid composition with the best skin retention. METHODS: The fluorescent probe, fluorescein isothiocyanate (FITC), was combined with HP-β-CD to prepare fluorescent modified cyclodextrin FITC-HP-β-CD. FITC-HP-β-CD was encapsulated in different composite phospholipid liposomes. The amount of the permeation in the receiving solution and skin retention of the cyclodextrin after 10 h were determined in the in vitro intradermal delivery experiment. RESULTS: The order of cyclodextrin permeation of liposomes in the receiving solution was SPC > S/H (3:1) > S/H (1:1) > S/H (1:3) > HSPC >FITC-HP-β-CD, while the order of cyclodextrin intradermal retention was S/H (1:1) > S/H (1:3) > HSPC > S/H (3:1) > SPC > FITC-HP-β-CD. CONCLUSION: Using SPC to prepare liposomes is more beneficial to promote the permeation of FITC-HP-β-CD into the skin than HSPC, but the addition of HSPC can increase the skin retention of FITC-HP-β-CD. The S/H(1:1) liposomes have the better intradermal delivery effect on the fluorescent modified cyclodextrin, of which the skin retention effect is the best.
