ABSTRACT
This work shows an impact of glutaraldehyde (GA) fixation on endothelial cells. Raman spectroscopy imaging was used as a method to monitor biochemical content of the cells due to GA fixation since this is an approach frequently used for studying cells by means of Raman imaging. To get a deeper insight into the changes and to understand them better the measurements of live and fixed cells were performed using two lasers, i.e. 488 and 532 nm. It has been demonstrated that GA fixation affects lipids, proteins, nucleic acid and carbohydrates to small extent. The application of 488 nm laser line seems to be more efficient for live cells due to the small impact of cytochrome resonance on Raman spectra, however 532 nm line is more beneficial for fixed cells due to higher quantum efficiency of the detector, thus leading to higher intensity of Raman bands. Generally, the changes due to fixation are not pronounced but cannot be ignored and the knowledge about them can help in a proper interpretation of data collected for fixed versus live cells.
Subject(s)
Endothelial Cells , Spectrum Analysis, Raman , Glutaral , Lipids , Tissue FixationABSTRACT
A 24-h extended-release multiparticulate capsule containing a dose of 500 mg of lithium carbonate divided into 6 tablets 6 mm in size was produced. In order to achieve an immediate and prolonged drug release profile one uncoated tablet and 5 tablets coated with methacrylic acid/ethyl acrylate copolymer Kollicoat MAE30DP were filled into a capsule. The core of tablets consisted of microcrystalline cellulose, lactose, povidone, macrogol and magnesium stearate.