Your search keyword '"Yuan, Haoyang"' showing total 2 results

1. FRET-based analysis on the structural stability of polymeric micelles: Another key attribute beyond PEG coverage and particle size affecting the blood clearance.

Author

Guo, Chen, Yuan, Haoyang, Yu, Ying, Gao, Zhencheng, Zhang, Yu, Yin, Tian, He, Haibing, Gou, Jingxin, and Tang, Xing

Subjects

*STRUCTURAL stability, *FLUORESCENCE resonance energy transfer, *POLYMERSOMES, *MICELLAR solutions, *POLYETHYLENE glycol, *COPOLYMER micelles, *MICELLES

Abstract

Various attributes of micelles, such as PEG density and particle size, are considered to be related to blood clearance. The structural stability of micelles is another key attribute that will affect the in vivo fate. This study employed fluorescence resonance energy transfer (FRET) analysis to guide the preparation of polymeric micelles with different structural stability. Micelles prepared using copolymers with longer hydrophobic blocks showed higher structural stability; emulsification was a better method than nanoprecipitation to prepare stable micelles. The fast chain exchange kinetics and the high-water content of micellar cores explained the low structural stability of those micelles. Moreover, this study highlighted the importance of structural stability that affected blood clearance in concert with PEG length and particle size. One-third of the small and stable micelles were detected in the blood 24 h after injection. While unstable micelles would be cleared from the circulation within 4 h. Notably, there would be a threshold of structural stability. Micelles with structural stability below this threshold were quickly cleared even if they possessed a longer PEG length and a smaller size. In contrast, higher structural stability allowed polymeric micelles to maintain higher integrity in vivo and enhance tumor accumulation and anti-tumor efficacy. In conclusion, this study systematically analyzed the importance of the structural stability of micelles on the in vivo fate. [Display omitted] • FRET is a suitable method for characterizing micelle stability. • The chain exchange rate and core water content affect the micelle stability. • The key to the rapid clearance of small micelle is rapid dissociation. • Premature dissociation of micelles is detrimental to tumor delivery. [ABSTRACT FROM AUTHOR]

Published

2023

2. Improved Core Viscosity Achieved by PDLLA10kCo-Incorporation Promoted Drug Loading and Stability of mPEG2k-b-PDLLA2.4k Micelles.

Author

Guo, Chen, Zhang, Ying, Yuan, Haoyang, Zhang, Yu, Yin, Tian, He, Haibing, Gou, Jingxin, and Tang, Xing

Subjects

DRUG stability, MICELLES, VISCOSITY, DYNAMIC stability, COPOLYMER micelles, ETHYLENE glycol, LACTIC acid, CYCLODEXTRIN derivatives

Abstract

Purpose: This study aims to investigate the effect of poly(D, L-lactic acid)10K (PDLLA10K) incorporation on the drug loading and stability of poly(ethylene glycol)2K-block-poly(D, L-lactide)2.4K (mPEG2k-b-PDLLA2.4k) micelles. In addition, a suitable lyophilization protector was screened for this micelle to obtain favorable lyophilized products. Methods: The incorporation ratios of PDLLA10k were screened based on the particle size and drug loading. The dynamic stability, core viscosity, drug release, stability in albumin, and in vivo pharmacokinetic characteristics of PDLLA10k incorporated micelles were compared with the original micelles. In addition, the particle size variation was used as an indicator to screen the most suitable lyophilization protectant for the micelles. DSC, FTIR, XRD were used to illustrate the mechanism of the lyophilized protectants. Results: After the incorporation of 5 wt% PDLLA10K, the maximum loading of mPEG2k-b-PDLLA2.4k micelles for TM-2 was increased from 26 wt% to 32 wt%, and the in vivo half-life was increased by 2.25-fold. Various stability of micelles was improved. Also, the micelles with hydroxypropyl-β-cyclodextrin (HP-β-CD) as lyophilization protectants had minimal variation in particle size. Conclusions: PDLLA10k incorporation can be employed as a strategy to increase the stability of mPEG2k-b-PDLLA2.4k micelles, which can be attributed to the viscosity building effect. HP-β-CD can be used as an effective lyophilization protectant since mPEG and HP-β-CD form the pseudopolyrotaxanesque inclusion complexes. [ABSTRACT FROM AUTHOR]

Published

2022