Continuous flow method for determination of erythrocyte osmotic fragility

Abstract

A simple and accurate micromethod for the determination of erythrocyte osmotic fragility is introduced. The method uses a laminar parabolic flow pattern, together with gravity, to retain cells in a long, small‐diameter tube while a solution with decreasing osmolarity is passed through the tube. As the cells hemolyze, hemoglobin released from the cells is quickly removed by the axial flow pattern and monitored with a 547 nm optical detector for recording the hemolysis curve. Consequently, a continuous curve is obtained, with a peak occurring at the salt concentration that produces the maximum hemolysis rate. The advantages of this method are simplicity, accuracy, and small sample size (2 microliters of whole blood). The small sample size is of particular importance for infants. A comparison is made with the Parpart method using samples from 18 normal adults. Results are also given for a few abnormal adults and for a series of 26 normal newborns.