Lixia Huang
University of Education, Winneba
15 Papers
13 Citations
Lixia Huang is an academic researcher from University of Education, Winneba. The author has contributed to research in topics: Chemistry & Self-healing hydrogels. The author has an hindex of 6, co-authored 11 publications. Previous affiliations of Lixia Huang include Huazhong University of Science and Technology.
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Papers
Porous chitosan microspheres as microcarriers for 3D cell culture.
Lixia Huang,Lin Xiao,Abishek Jung Poudel,Jixiang Li,Ping Zhou,Mario Gauthier,Haiqing Liu,Zhihong Wu,Guang Yang +8 more
TL;DR: It is believed that these CSM microcarriers provide a promising platform for 3D cell culture in vitro, as cell growth also took place within the internal pores of the CSM, besides their external surface, and multidirectional cell-cell interactions were observed.
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Supramolecular hydrogels based on poly (ethylene glycol)-poly (lactic acid) block copolymer micelles and α-cyclodextrin for potential injectable drug delivery system.
TL;DR: These attractive features, together with the superior biocompatibility, make the present hydrogels an potential injectable drug delivery system for tumour treatment.
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pH-Responsive Poly(Ethylene Glycol)-block-Polylactide Micelles for Tumor-Targeted Drug Delivery
TL;DR: In vitro experiments showed that the micelles were noncytotoxic to different cell lines, while M-PTX inhibited the proliferation and promoted the apoptosis of Hela cells, and the PEG-a-PLA micellar system appears to have bright prospects as a tumor-targeting drug carrier.
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Nanotechnology Promotes Genetic and Functional Modifications of Therapeutic T Cells Against Cancer
Ahmed M. E. Abdalla,Ahmed M. E. Abdalla,Lin Xiao,Yu Miao,Lixia Huang,Gendeal M. Fadlallah,Mario Gauthier,Chenxi Ouyang,Guang Yang +8 more
TL;DR: Genetic and functional modifications promoted by nanotechnology enable the generation of robust CAR‐T cell therapy and offer precision treatments against cancer.
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Nanocellulose hyperfine network achieves sustained release of berberine hydrochloride solubilized with β-cyclodextrin for potential anti-infection oral administration.
TL;DR: In vitro drug release showed that sustained drug release was achieved at different pH conditions simulating the gastrointestinal fluids by BC/IC hydrogels due to the hyperfine network of BC matrix and together with the good biocompatibility and edibility of the BC matrix, these BBH/β-CD IC-loaded bacterial celluloseHydrogels appear to be promising candidates of oral administration medicine against gastrointestinal infections.
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