https://www.selleckchem.com/products/bay-2416964.html Herein, commercially available columns employed in hydrophilic interaction chromatography (HILIC) were characterized by determining their ability to selectively distinguish the minute structural differences between small molecules such as nucleosides and xanthines in complex sample matrices. Principal component analysis (PCA) was applied to the data obtained from structurally similar analytes, and the results showed that HILIC columns could generally be classified into two groups (i) silane-modified columns that were prepared from either native silica particles or silica particles modified with low-molecular-weight silanes and (ii) polymer-modified columns obtained from silica particles functionalized with organic polymers. These two groups could be further subdivided based on the functionalities attached to the respective stationary phases. These results were confirmed via cluster analysis by preparing a dendrogram using the morphology-based selectivity parameters associated with the respective columns. We wmn selection. This study investigated the underlying mechanism of crocin in protecting rats with traumatic hemorrhagic shock (THS) from liver injury. Eighty Sprague Dawley rats were randomly divided into four groups (n=20), namely, Sham group, THS group, crocin group, and Sodium Acetate Ringer group. A rat model of THS was induced by hemorrhage from the left femur fracture. The effects of crocin on hemodynamics, cardiac output, blood gas, animal survival rate, and liver function in the rats with THS were determined, and its relationship with oxidative stress was also explored. Crocin significantly improved the survival rate, hemodynamic parameters, increased tissue blood flow, and promoted the liver function of the THS rats. Further results indicated that crocin significantly inhibited oxidative stress in serum and liver tissue of THS rats, with increased levels of superoxide dismutase, catalase, and glutathi