Observation of a Push Force on the End Face of a Nanometer Silica Filament Exerted by Outgoing Light

The article presents a hepatocellular carcinoma cell surface-specific ligand glycyrrhetinic acid (GA) and cell-penetrating peptide (TAT) with good cell membrane penetration to modify the anti-tumor drug pingyangmycin (PYM) liver delivery system, which achieve targeted delivery of drugs and improve anti-tumor efficiency. In this study, we synthesized the pingyangmycin liposome modified by glycyrrhetinic acid and cell penetrating peptide(GA-TAT-PYM-L) and evaluated the anti-tumor effect of GA-TAT-PYM-L in vitro. Using the 3-(4, 5-dimethylthiazol-2-yl)-2, 5-diphenylte-trazolium bromidecell proliferation method, GA-TAT-PYM-L had a stronger inhibitory effect on HepG2 cells than the free drug PYM at the same concentration. Acridine orange-ethidium bromide staining assays showed that GA-TAT-PYM-L had stronger apoptosis promotion effects on HepG2 cells in comparison to PYM. Pharmacokinetic studies indicated that, compared with PYM, GA-TAT-PYM-L enhanced mean residence time (MRT0–∞) and area under curve (AUC0–∞) by about 2.79-fold and 2.45-fold. The T 1/2 was prolonged to 140.23 ± 14.13 min. Tissue distribution results showed that the PYM concentrations in livers from the GA-TAT-PYM-L group were always higher than other tissues at each monitoring period after 5 min, indicating that GA-TAT-PYM-L can achieve liver targeting.

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GCMC simulations to study the potential of MOFs as drug delivery vehicles

Zhu

et al. 2023

Applied Organom Chemis

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Porous polymer metal–organic frameworks (MOFs), having the characteristics of large specific surface area, high porosity, and large drug load, are used in the field of medicine. In order to explore the feasibility of MOFs to load drugs, we have made an attempt to analyze the drug loading of MOFs at the molecular level. In order to provide sufficient theoretical support for realistic research, especially in terms of adsorption sites and the adsorption capacity, we selected five MOFs, UiO‐66, UiO‐66‐NH2, UiO‐66‐COOH, UiO‐67, and UiO‐66‐NDC, with bendamustine and 5‐Fluorouracil (5‐FU) as model drugs, and applied Grand Canonical Monte Carlo (GCMC) simulation to calculate the interaction between carrier MOFs and drug molecules, adsorption sites, isothermal adsorption lines and drug loads, and compared them with real experiments. The results showed all five MOFs to have strong interaction with drug molecules, and MOFs after adsorbing drug molecules were thermally stable. The best adsorption effect on bendamustine was found to be of UiO‐66‐COOH, with a drug loading capacity of 20.94 ± 0.99%. The best adsorption effect on 5‐FU was of UiO‐66‐NDC, with a drug loading capacity of 51.23 ± 1.09%. It has been further proven that MOFs have the potential to participate in oral administration as drug carriers, and have broad prospects in the field of biomedical applications.

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Preparation and rectal administration of hydroxybutyl chitosan/graphene oxide composite thermosensitive hydrogel

Chen

Liu

et al. 2023

Reactive and Functional Polymers

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Preparation of Three-Dimensional Graphene Oxide Electric-Field/Temperature-Sensitive Hydrogels and Transdermal-Controlled Release Drug Delivery Study

Jia

Chen

Meng

et al. 2023

J. Electron. Mater.

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Li Li

Preparation and pharmacokinetics of glycyrrhetinic acid and cell transmembrane peptides modified with liposomes for liver targeted-delivery

GCMC simulations to study the potential of MOFs as drug delivery vehicles

Preparation and rectal administration of hydroxybutyl chitosan/graphene oxide composite thermosensitive hydrogel

Preparation of Three-Dimensional Graphene Oxide Electric-Field/Temperature-Sensitive Hydrogels and Transdermal-Controlled Release Drug Delivery Study

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