The role of spleen in maintaining the normal rheological properties of red
blood cells (RBC) has been investigated by comparing the time course of RBC
deformability assessed by the cell transit analyzer (CTA), after the induc
tion of RBC mechanical alterations, in splenectomized and normal guinea pig
s. After the exchange transfusions with glutaraldehyde treated (hardened) R
BC, most of these cells were removed from the circulation in the splenectom
ized animals as well as the animals with intact spleens. However, the CTA c
ould detect the longer existence of a small population of hardened RBC in c
irculation in the splenectomized animals. Measurement of RBC transit times
after the onset of experimental sepsis (cecal ligature-puncture) revealed t
hat, in the splenectomized guinea pigs RBC deformability impairment started
earlier, in comparison with the animals with intact spleens. These results
suggest that the spleen plays an important role in maintaining the normal
rheological properties of the circulating blood, especially in the presence
of pathophysiological processes affecting RBC mechanics.