Trypan blue exclusion assay by flow cytometry

Dye exclusion tests are used to determine the number of live and dead cells. These assays are based on the principle that intact plasma membranes in live cells exclude specific dyes, whereas dead cells do not. Although widely used, the trypan blue (TB) exclusion assay has limitations. The dye can be incorporated by live cells after a short exposure time, and personal reliability, related to the expertise of the analyst, can affect the results. We propose an alternative assay for evaluating cell viability that combines the TB exclusion test and the high sensitivity of the flow cytometry technique. Previous studies have demonstrated the ability of TB to emit fluorescence when complexed with proteins. According to our results, TB/bovine serum albumin and TB/cytoplasmic protein complexes emit fluorescence at 660 nm, which is detectable by flow cytometry using a 650-nm low-pass band filter. TB at 0.002% (w/v) was defined as the optimum concentration for distinguishing unstained living cells from fluorescent dead cells, and fluorescence emission was stable for 30 min after cell treatment. Although previous studies have shown that TB promotes green fluorescence quenching, TB at 0.002% did not interfere with green fluorescence in human live T-cells stained with anti-CD3/fluorescein isothiocyanate (FITC) monoclonal antibody. We observed a high correlation between the percentage of propidium iodide+CD3/FITC+ and TB+CD3/FITC+ cells, as well as similar double-stained cell profiles in flow cytometry dot-plot graphs. Taken together, the results indicate that a TB exclusion assay by flow cytometry can be employed as an alternative tool for quick and reliable cell viability analysis.

Trypan blue exclusion assay by flow cytometry.

Dye exclusion tests are used to determine the number of live and dead cells. These assays are based on the principle that intact plasma membranes in live cells exclude specific dyes, whereas dead cells do not. Although widely used, the trypan blue (TB) exclusion assay has limitations. The dye can be incorporated by live cells after a short exposure time, and personal reliability, related to the expertise of the analyst, can affect the results. We propose an alternative assay for evaluating cell viability that combines the TB exclusion test and the high sensitivity of the flow cytometry technique. Previous studies have demonstrated the ability of TB to emit fluorescence when complexed with proteins. According to our results, TB/bovine serum albumin and TB/cytoplasmic protein complexes emit fluorescence at 660 nm, which is detectable by flow cytometry using a 650-nm low-pass band filter. TB at 0.002% (w/v) was defined as the optimum concentration for distinguishing unstained living cells from fluorescent dead cells, and fluorescence emission was stable for 30 min after cell treatment. Although previous studies have shown that TB promotes green fluorescence quenching, TB at 0.002% did not interfere with green fluorescence in human live T-cells stained with anti-CD3/fluorescein isothiocyanate (FITC) monoclonal antibody. We observed a high correlation between the percentage of propidium iodide+CD3/FITC+ and TB+CD3/FITC+ cells, as well as similar double-stained cell profiles in flow cytometry dot-plot graphs. Taken together, the results indicate that a TB exclusion assay by flow cytometry can be employed as an alternative tool for quick and reliable cell viability analysis.

Acceptability, safety, and digestibility of spray-dried bovine serum added to diets of recovering malnourished children.

BACKGROUND: Specially collected, spray-dried bovine and porcine blood plasma have been incorporated previously in feeds of weanling farm animals, resulting in increased dietary intakes and greater rates of weight gain than observed in control animals. Before conducting similar trials in human populations, preliminary studies have been completed to assess the acceptability, safety, and digestibility of processed animal plasma in young children. METHODS: Masked study diets were provided sequentially to each of ten young, Peruvian children recovering from severe protein-energy malnutrition during three randomly ordered 7-day dietary periods. The control diet was prepared from rice, milk, vegetable oil, and sugar; the two study diets included spray-dried, bovine serum concentrate to replace either 25% or 50% of the milk protein of the control diet. Urine and feces were collected quantitatively during the last four days of each diet period to assess stool weight, apparent absorption of macronutrients, and retention of nitrogen. RESULTS: All children consumed the entire amounts offered of each of the diets. The mean number of daily bowel movements and mean apparent absorption and retention of nitrogen and mean apparent absorption of carbohydrate were similar for each diet. Fractional absorption of dietary lipid and of total energy increased significantly in relation to the amount of bovine serum concentrate in the diet, although this might be explained by the simultaneous replacement of milk fat with additional vegetable oil. CONCLUSIONS: Each of the diets was well accepted by the study children, and there was no evidence of any adverse effects of bovine serum concentrate.