In thrombotic thrombocytopenic purpura (TTP), intravascular platelet aggregation and formation of platelet-rich thrombi impair the microcirculation. TTP plasma has been shown to induce aggregation of normal platelets in vitro. The present study investigates the formation of activated platelet aggregates (aPAg) induced by TTP plasma, with particular attention to their binding to leucocytes (LPAg). Results were compared with the effects of plasmas from normal controls (CTL) and from patients with immune thrombocytopenic purpura (ITP) or thrombosis (THR). Following addition of test plasma to normal whole blood (WB), aPAg and LPAg were assayed by flow cytometry using mAbs against CD41 (platelet marker), CD62p (platelet activation marker) and CD45 (pan-leucocyte marker), Compared to control plasma, TTP plasma was more potent than ITP or THR plasma in increasing aPAg: only TTP plasma significantly promoted leucocyte binding to give increased LPAg. Prior removal of neutrophils (PMN) from WB by beads coated with anti-CD15 mAb largely prevented formation of aPAg and LPAg. However, TTP plasma added to normal platelet-rich plasma significantly increased aPAg, which suggested possible hindrance of aPAg formation by erythrocytes and other leucocytes in PMN-depleted blood. We concluded that TTP plasma was most potent in the induction of aPAg and unique in promoting LPAg formation in WB. Neutrophils, and not other leucocytes, appear to be essential for LPAg formation. Enhanced PMN-platelet interaction in the microcirculation may facilitate platelet adhesion to vessel walls and promote the formation of platelet-rich microthrombi in TTP.