Biological and environmental factors affecting ultrasound-induced hemolysis in vitro: medium tonicity

Whole human anticoagulated blood in vitro underwent controlled plasma replacement with either isotonic (0.9%) or hypotonic (0.5%) saline to 1. restore the blood to its original volume (which resulted in different hematocrits) or 2. bring the blood to a singular hematocrit (40%). The hypotonic cell MCVs were, on average, considerably larger than their isotonic counterpart by a ratio of 1.4:1. The blood samples were then subjected to two tests, one of mechanical fragility, the other to ultrasound (US)-induced hemolysis. The US exposure metrics were: 1.0-MHz center frequency, 200-micros pulse duration, 20-ms interpulse interval, exposure durations of 10 to 30 s in the presence of Albunex, as a control on blood gas nucleation, and exposure vessel rotation at 200 rpm. In all instances, the hypotonic blood displayed higher levels of hemolysis than the corresponding isotonic treatment. The highest ratio of US-induced hemolysis for the hypotonic:isotonic regimens was 2.2. In some instances, the ratio was somewhat less but appeared to be related to differences in whole blood viscosities among the regimens or other factors. The data supported the a priori hypothesis that hypotonicity will result in an increased tension on the cell membrane and render it more susceptible to shear-induced hemolysis, including exposure to US under conditions known to foster the occurrence of inertial cavitation. There was no temperature increase during the insonations of the blood.