An alternative pathway for fibrinolysis that comprises leukocyte elastase and its interaction with the plasminogen activator-plasmin system has been suggested. Plasma levels of cross-linked fibrin degradation product by leukocyte elastase (e-XDP) were significantly increased in patients with sepsis induced disseminated intravascular coagulation (DIC) compared with healthy subjects (18.6±19.9 vs 0.58±0.47U/mL, p<0.001). Twenty seven unique spots were identified from e-XDP dominant patients by immune-purification and two-dimensional difference gel electrophoresis, and they contained fibrinogen Bβ-chain derived fragments Bβ Asp-164, Ser-200, Gln-301, Ala-354, Ile-484 and γ-chain derivatives γ Val-274 at their amino-termini by acquired and processed tandem mass spectrometer. The Sequential Organ Failure Assessment Scores in patients with e-XDPs levels 3-10U/mL were significantly lower than those with e-XDPs levels -3U/mL, 10-30U/mL, and 30- U/mL. The adjusted odds for 28-day mortality rate in patients with e-XDP levels less than 3U/mL (hazard ratio, 4.432; 95% CI, 1.557-12.615 [p=0.005]) were significantly higher than those in patients with e-XDP levels of 3-10U/mL. These data suggest that leukocyte elastase might contribute to the degradation of cross-linked fibrin in sepsis-induced DIC. Copyright © 2010 Elsevier Ltd. All rights reserved.