BACKGROUND: Our goal of this study was to determine whether protamine's effects on coagulation can be detected and differentiated from those of heparin when using thrombelastometry (ROTEM). METHODS: To reverse the effects of heparin after cardiopulmonary bypass (CPB), 22 consecutive patients undergoing aortocoronary bypass graft surgery were included. According to clinical routine, all patients received a first dose of protamine calculated from the total amount of heparin given; additional protamine (70 U/kg) was administered to patients with activated clotting time (ACT) above baseline and clinical signs of diffuse bleeding. Simultaneously, routine ACT measurements, ROTEM assays (heparin-sensitive INTEM, and heparinase-containing HEPTEM test) and standard coagulation tests were performed, and the activity of coagulation factors as well as antifactor Xa activity measured. RESULTS: Administration of additional protamine (n = 16) resulted in a statistically significant increase in coagulation times on the intrinsically activated test (INTEM-CT), namely from (mean [+/-SD]) 219.8 (+/-19.1) s to 241.1 (+/-21.7) s (P < 0.001), and on the heparinase-containing test (HEPTEM-CT), namely from 210.2 (+/-19.9) s to 226.8 (+/-21.8) s (P < 0.001). These changes were not observed in patients receiving a single protamine dose (n = 6). The INTEM-CT:HEPTEM-CT ratio correctly identified 56 of the 58 samples as not containing residual heparin and correctly detected residual heparin in 3 of the only 6 samples showing elevated antifactor Xa values after CPB. CONCLUSION: Our preliminary data show that at termination of CPB administration of additional protamine results in a brief prolongation of coagulation times on the INTEM and HEPTEM test and that ROTEM might be useful in excluding residual heparin in cases showing prolonged ACT.
BACKGROUND: Our goal of this study was to determine whether protamine's effects on coagulation can be detected and differentiated from those of heparin when using thrombelastometry (ROTEM). METHODS: To reverse the effects of heparin after cardiopulmonary bypass (CPB), 22 consecutive patients undergoing aortocoronary bypass graft surgery were included. According to clinical routine, all patients received a first dose of protamine calculated from the total amount of heparin given; additional protamine (70 U/kg) was administered to patients with activated clotting time (ACT) above baseline and clinical signs of diffuse bleeding. Simultaneously, routine ACT measurements, ROTEM assays (heparin-sensitive INTEM, and heparinase-containing HEPTEM test) and standard coagulation tests were performed, and the activity of coagulation factors as well as antifactor Xa activity measured. RESULTS: Administration of additional protamine (n = 16) resulted in a statistically significant increase in coagulation times on the intrinsically activated test (INTEM-CT), namely from (mean [+/-SD]) 219.8 (+/-19.1) s to 241.1 (+/-21.7) s (P < 0.001), and on the heparinase-containing test (HEPTEM-CT), namely from 210.2 (+/-19.9) s to 226.8 (+/-21.8) s (P < 0.001). These changes were not observed in patients receiving a single protamine dose (n = 6). The INTEM-CT:HEPTEM-CT ratio correctly identified 56 of the 58 samples as not containing residual heparin and correctly detected residual heparin in 3 of the only 6 samples showing elevated antifactor Xa values after CPB. CONCLUSION: Our preliminary data show that at termination of CPB administration of additional protamine results in a brief prolongation of coagulation times on the INTEM and HEPTEM test and that ROTEM might be useful in excluding residual heparin in cases showing prolonged ACT.
Authors: Jong Wha Lee; Young-Chul Yoo; Han Ki Park; Sou-Ouk Bang; Ki-Young Lee; Sun-Joon Bai Journal: Yonsei Med J Date: 2013-05-01 Impact factor: 2.759
Authors: Klaus Görlinger; Antonio Pérez-Ferrer; Daniel Dirkmann; Fuat Saner; Marc Maegele; Ángel Augusto Pérez Calatayud; Tae-Yop Kim Journal: Korean J Anesthesiol Date: 2019-05-17