Removal of toxic substances by a selective membrane plasma separator.

We devised a method of plasma exchange with dialysis (PED), in which selective plasma exchange (sPE) is performed using a selective membrane plasma separator (EC-2A) with an albumin-sieving coefficient of 0.3 while the dialysate flows outside the hollow fibers, and reported the usefulness of the system for treating acute liver failure. Thereafter, EC-4A with an albumin-sieving coefficient of 0.6 was developed, which was expected to be even more effective for removing protein-bound substances. In order to examine whether or not EC-4A might be applicable to blood purification therapy against drug poisoning, we compared the efficacies of sPE, PED, and direct hemoperfusion (DHP) using an activated carbon column for the removal of phenobarbital and lithium. Subjects undergoing the extracorporeal circulation study were assigned to the sPE group, PED group, or DHP group, and the changes in the blood concentrations of phenobarbital and lithium were measured over 180 min. A significant decrease of the phenobarbital concentration over time was seen in the PED group, as compared to that in the sPE group (P < 0.0001), while no significant difference in the concentration was observed between the PED and DHP groups. The PED group showed a significant decrease of the lithium concentration over time, as compared to the DHP group (P < 0.0001), while no significant difference in the concentration was observed between the PED and sPE groups. Thus, PED was as effective as DHP for removing phenobarbital and was as effective as sPE for removing lithium. These results suggest that PED therapy using EC-4A may be a feasible modality for the treatment of drug poisoning.