Measurement of the viability of stored red cells by the single‐isotope technique using 51Cr. Analysis of validity

A single‐isotope 51Cr method often is used to evaluate the viability of stored red cells. In this technique, the red cell mass is measured by back‐extrapolation to time zero (t0) of the radioactivity of the blood between 5 and 20 minutes after infusion of the sample. If there is early destruction of stored cells, this method provides an overestimate of the red cell mass and, hence, of the viability of the stored cells. Freshly drawn red cells from normal donors were labeled with 99mTc, and cells from the same donor which had been stored in citrate‐phosphate‐ dextrose‐adenine‐one (CPDA‐1) for periods ranging from 7 to 49 days were labeled with 51Cr. A comparison of the “true red cell mass” as determined with 99mTc with the back‐extrapolated red cell mass from stored 51Cr‐labeled cells has made it possible to define the magnitude of error introduced by early loss of red cells. The overestimation of red cell mass and viability was diminished if only the 51Cr radioactivity between 5 and 15 minutes after infusion was used in back‐ extrapolating to t0. The degree of overestimation of red cell mass was greatest when the red cell viability had declined to very low levels. However, in the entire range of 10 to 80 percent viability, the overestimate of viability was usually less than 4 percent. The overestimate of viability proved to be quite similar for all samples and may be taken into account when using the single‐isotope technique for measurement of red cell viability.(ABSTRACT TRUNCATED AT 250 WORDS)