Pharmaceutical analysis may be defined as a procedure or the sequences of progressions to identify or quantify a constituent or drug, the mechanisms of a pharmaceutical solution or fusion or the determination of the structures of chemical combinations used in the formulation of pharmaceutical product.
Perfluorochemicals can dissolve significant quantities of many
gases including oxygen (O2) and carbon dioxide (CO2). Optimal use
of artificial blood substitutes such as perfluorocarbon emulsions in
conjunction with 100% oxygen ventilation are valuable to patients
with relatively low hemoglobin levels. Perfluorochemicals are hydrophobic, then stable perfluorocarbon
emulsion with exceptionally smaller particles have
been generated for intravenous use. While the metabolism of fluorocarbon molecules is still unclear in
humans, it seems that after intravenous administration, the droplets
of perfluorocarbon emulsions are taken up by the reticulo-endothelial
system (RES) before being slowly broken down and transported by
the blood to the lungs where the unaltered perfluorocarbon molecules
are finally excreted via exhalation. The intravascular half-life of perfluorocarbons, determined by the RES uptake and the dose used, is
relatively short. In order to characterize qualitatively and quantitatively
perfluorocarbons and its derived products. we
used an innovative and powerful technology named carbon-fluorine
spectroscopy.
Last date updated on September, 2024