Hemodialysis treatment leads to leukocyte activation and cytokine production. Studying this effect has been complicated because cell activation by blood membrane contact also induces adherence factors on leukocytes, leading to margination of cells to the endothelium of the lung. Using single-cell cytokine determination, we studied the relation between cytokine production and cell sequestration during dialysis therapy. Blood was sampled in 11 chronic hemodialysis patients using hemophane dialyzers before hemodialysis and at 20 and 120 minutes of treatment. Lipopolysaccharide (LPS)-induced cytokine production in monocytes was studied by intracellular staining for interleukin-6 (IL-6) and IL-10 and flow cytometry. Results obtained in dialysis patients were compared with samples from an ex vivo dialysis system. Monocyte maturation stage was evaluated by detection of several surface markers through flow cytometry. Within 20 minutes of hemodialysis, the numbers of circulating monocytes decreased to one third of initial values. Before dialysis, 56.7% +/- 15.7% of circulating monocytes responded to LPS by the production of IL-6. This fraction decreased to 21.1% +/- 17.3% (P < 0.001 versus before hemodialysis) at 20 minutes and 32.3% +/- 13.8% (P < 0.001 versus before hemodialysis) at 120 minutes of treatment. A similar decrease occurred for IL-10. Cytokine-positive cells did not decrease during ex vivo dialysis. Surface marker studies showed that mature monocytes expressing HLA-DR or CD86 were predominantly removed. We provide the first evidence for a subtype-specific sequestration of monocytes caused by dialysis treatment. Fully differentiated cells capable of cytokine production and antigen presentation are removed and relatively immature cells remain in circulation.