Tert-butanol application and related research progress in biomedicine / 药学学报

italic>Tert-butanol is an organic solvent, widely used in the medical field and chemical industry. It could be characterized by high crystallization temperature and vapor pressure. It could be easily sublimed and removed during the freeze-drying process. This review mainly describes the use of tert-butanol in the lyophilized formulations of poorly soluble drugs, the lyophilization solvent of porous structure productions, and as an ice crystal growth guider. In addition, the application of tert-butanol in nano drugs and aerogels has also been reviewed, as well as the current research progress in its quality and safety.

Co-culture of human breast adenocarcinoma cells and human umbilical vein endothelial cells to mimic in vivo tumor microenvironment / 药学学报

The development of tumor tissue is a complicated process, which is closely related to tumor microenvironment. In order to simulate the tumor tissue in vivo, non-contact co-culture of human breast adenocarcinoma cells (MCF-7 cells) and human umbilical vein endothelial cells (HUVECs cells) using transwell cell culture plate was developed in this study. The cell viability, morphology, cell resistance, cell cycle and vascular endothelial growth factor (VEGF) protein content of co-cultured MCF-7 and HUVECs cells were investigated, and compared with those of separately cultivated MCF-7 and HUVECs cells during the same period. Different to the separately cultured MCF-7 and HUVECs cells, co-cultured MCF-7 and HUVECs cells exhibited higher cell viability, deformed cell morphology, lower cell resistance, higher proportion of S and G2/M phases and higher VEGF protein content (about 1.4−2 times). The double cell model via non-contact co-culture of MCF-7 and HUVECs cells constructed in this study could simulate the interaction between tumor cells and tumor vascular endothelial cells in vivo, which may provide a more realistic model for subsequent study of drug release system in the control of breast cancer in vitro.

Research progress of detecting large-diameter tail in lipid injectable emulsions / 药学学报

Injectable lipid emulsions have been routinely used in patients since 1960s as a nutritional supplement for patients requiring parenteral nutrition. In recent years, lipid injectable emulsions have been extensively studied as a kind of novel drug carrier, also the quality problems of the lipid emulsion attract more and more attentions gradually. Large diameter tail of injectable lipid emulsions as a significant quality control indicator should pay more attention. Regarding to the defect of detecting large diameter tail of lipid injectable emulsions in our country, the purpose of this article is to summarize the techniques of detecting large diameter tail, illustrate the impacts of large lipid droplet on the quality of lipid injectable emulsions, emphasize the importance of detecting large diameter tail in lipid emulsions and provide guidance for researching and developing lipid emulsions in domestic market.

Preparation, formation mechanism and preliminary evaluation of oral absorption of a Bicyclol-phospholipid complex / 药学学报

Bicyclol with benzyl alcohol structure, is a poorly water-soluble drug, used for the treatment of chronic hepatitis B. To increase the drug solubility and oral bioavailability, a Bicyclol-phospholipid complex was studied on its preparation, formation mechanism, and the influence on drug physicochemical properties and oral absorption. The complex was prepared by a solvent evaporation method. The optimal formulation was selected by orthogonal experimental design, and a reasonable evaluating method of the complexation rate was established. Various methods, such as differential scanning calorimetry (DSC), X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR) and 31P nuclear magnetic resonance (31P-NMR), were used to explore the phase state and formation mechanism of the complex. The solubility of drug in complex was investigated in water/n-octanol. Preliminary study of its absorption and liver tissue distribution in rats was also carried out. The results showed that Bicyclol and phosphatidylcholine can be complexed entirely in the molar ratio 1 : 2. Bicyclol was dispersed in phospholipids as amorphous state. They were combined by intermolecular hydrogen bond due to charge transfer effect which occurred between the two polarities of the double bond between phosphorus and oxygen (P=O) of phosphatidylcholine and benzalcohol group of Bicyclol. The solubility of the complex compared to the active pharmaceutical ingredient (API) was effectively enhanced 5.75 times in water and 7.72 times in n-octanol, separately. In addition, drug concentrations were also enhanced 43 times in plasma and 13 times in liver with one hour after administering the complex to rats via oral gavage. All of these indicated that Bicyclol with benzalcohol group can interact with phospholipids to form complex, improving drug's physicochemical properties, thus further increasing its absorption and target tissue distribution. This study also provided theoretical reference for the research of other benzalcohol derivatives complexed with phospholipids.