Osmotic behavior of red blood cell as seen with an ultrasonic method.

We have measured the density and ultrasonic velocity (usv) of swine red blood cell (RBC) suspensions in the wide osmolarity range from 300 mOsm to 1400 mOsm in saline solution. The cellular density and compressibility of RBC at each osmolarity were obtained using the fact that the density and the compressibility are additive by volume. The osmolarity dependence of hematocrit was also measured at a constant number concentration of RBC in the range of 300 mOsm to 1700 mOsm. The cellular density and the cellular compressibility of RBC as well as the inverse of hematocrit were expressed well into one unique exponential type equation f (pi) = a [1 - b exp (-c pi)] with a common value for the coefficient c = 0.0025 against the osmolarity pi. The results were analyzed with a simple consideration based only upon the contribution of free water inside the erythrocyte through the volume concentration phi of the free water in it. According to this theoretical analysis, the density and the compressibility of the free water were found to be 0.990 g/cm3 and 4.59 x 10(-11) cm2/dyne which agree closely with 0.998 g/cm3 and 4.59 x 10(-11) cm2/dyn of pure water at 20 degrees C within the experimental error.