Plasma deproteinization by precipitation and filtration in the 96-well format.

The need for fast bioanalytical methods within the pharmaceutical sector is rapidly growing. Sample preparation is often the bottleneck step. A new approach to increasing sample throughput involves precipitated protein removal by filtration in the 96-well format, thereby eliminating the need for centrifugation and manual handling of individual tubes. The potential for such a new technique has been investigated for the determination of an iron chelator, a highly protein-bound compound (> or =99.5%) in plasma. An analog was used as internal standard. Acetonitrile and plasma were sequentially aspirated, separated by an air gap, using a manual electronic pipettor. They were then dispensed into the channel of an Empore filter PPT plate above the filter, and a slight vacuum was applied. The eluate was collected and diluted prior to injection. The compounds were then separated by reversed-phase chromatography and detected by UV at 295 nm. The chromatographic run time was 6 min. The mean recovery following protein precipitation was 78%, which shows that the technique can apply to a highly protein-bound compound. Replicate quality control samples were prepared in drug-free normal human plasma at four different concentrations. The mean accuracy ranged from 87 to 108% with the CV ranging from 3 to 8%. The described procedure is simple, fast and reproducible. It requires minimal equipment. The time required to prepare a plate manually is only about 20 min. The use of 12-channel repeater pipettors reduces the risk of error and improves productivity. Automation should be an aid to further increasing sample throughput when more than one plate a day is to be prepared.