Red blood cell deformability in sepsis.

The microcirculatory disturbances in sepsis have prompted micropore bulk-filtration studies of red blood cell (RBC) mechanical behavior (i.e., deformability). However, these prior reports may not solely reflect RBC behavior because of possible white blood cell (WBC) occlusion of the filter pores. The present study was designed to examine RBC mechanical alterations in human and experimental sepsis using techniques that are not affected by WBC artifacts. RBC were obtained from adult patients with sepsis and from healthy control donors. RBC were also obtained from Swiss-albino rats in which experimental sepsis was induced via cecal ligation-puncture. Red cell mechanical behavior was tested using a computerized micropore filtration system (CTA) and a laser-diffraction shearing device (LORCA); the latter provides the extent of RBC deformation at various stresses and the time constant for RBC shape recovery. Salient findings include: (1) for human RBC, significantly decreased deformability at fluid shear stresses < 5 Pa (LORCA) yet no differences from control with the CTA; (2) for rat RBC in experimental sepsis, significant decreases of deformability and shape-recovery time constant (LORCA) but no differences with the CTA. We conclude that RBC deformability is reduced in sepsis but that micropore bulk-filtration methods may not be appropriate for detecting these changes.