Clotting Time Results Are Not Interchangeable Between EXTEM and FIBTEM on Rotational Thromboelastometry.

OBJECTIVE: To explore how cytochalasin D (CyD) affects clot initiation and to compare clotting times (CTs) of EXTEM and FIBTEM on rotational thromboelastometry in cardiac surgical patients undergoing cardiopulmonary bypass (CPB). DESIGN: Retrospective cohort study with translational in vitro coagulation experiments. SETTING: Single-center, tertiary, academic medical center. PARTICIPANTS: Patients who underwent cardiac surgery with CPB between November 2015 and August 2017. INTERVENTION: None. MEASUREMENTS AND MAIN RESULTS: The study's primary measurements were CTEXTEM and CTFIBTEM before and after CPB. Additionally, the authors performed translational in vitro coagulation experiments using commercial plasma. In these experiments, the impact of CyD on in vitro thrombin generation (TG) was assessed using 10 platelet-rich plasma (PRP) samples and calibrated automated thrombogram. The impact of CyD on ROTEM-CT also was evaluated in vitro using the same 10 PRP samples. One hundred fifty-three patients had clinical CTEXTEM and CTFIBTEM measurements. CTFIBTEM was shorter than CTEXTEM before and after CPB by 6.8% (95% confidence interval [CI], 5.5-8.1) and 8.9% (95% CI, 4.7-13.0), respectively. These results correlated with in vitro experiments, where TG lag time was shortened by CyD and CTFIBTEM was shorter than CTEXTEM. CONCLUSION: CyD shortens the onset of TG and clot formation, resulting in shorter CTFIBTEM than CTEXTEM. The authors' data suggest that CTEXTEM and CTFIBTEM are not interchangeable. Additional clinical studies are warranted to assess if CTFIBTEM can be used to optimize the indication for plasma transfusion.

Coagulation Factor Levels and Underlying Thrombin Generation Patterns in Adult Extracorporeal Membrane Oxygenation Patients.

BACKGROUND: There is a paucity of data on the underlying procoagulant-anticoagulant balance during extracorporeal membrane oxygenation (ECMO). We hypothesized that adult ECMO patients would have an imbalance between procoagulant and anticoagulant factors, leading to an abnormal underlying thrombin generation (TG) pattern. METHODS: Twenty adult venoarterial (VA) ECMO patients had procoagulant and anticoagulant factor levels measured temporally on ECMO day 1 or 2, day 3, and day 5. In heparin-neutralized plasma, underlying TG patterns, and sensitivity to activated protein C were assessed using calibrated automated thrombogram. TG parameters including lag time, peak TG, and endogenous thrombin potential (ETP) were compared against 5 normal plasma controls (3 males and 2 females) obtained from a commercial supplier. Thrombomodulin (TM) was added to some samples to evaluate for activated protein C resistance. RESULTS: Procoagulant factors (factor [F] II, FV, and FX) were mostly in normal reference ranges and gradually increased during the first 5 ECMO days (P = .022, <.001, <.001). FVIII levels were elevated at all time points and did not change (P = .766). In contrast, FXI was in the low-normal range but did not increase during ECMO (P = .093). Antithrombin (AT) and protein C levels were below normal but increased during the first 5 ECMO days (P = .002 and P = .014). Heparinase-treated samples showed prolonged lag time, increased peak TG, and increased ETP compared to controls; mean difference in lag time on ECMO day 1 or 2 = 6.0 minutes (99% confidence interval [CI], 2.8-9.2), peak TG = 193.4 (99% CI, 122.5-264.3), and ETP = 1170.4 (99% CI, 723.2-1617.6). After in vitro TM treatment, differences in TG parameters were accentuated and ECMO samples appeared insensitive to TM treatment; mean difference in lag time on ECMO day 1 or 2 = 9.3 minutes (99% CI, 6.2-12.4), peak TG = 233.0 (99% CI, 140.9-325.1), and ETP = 1322.5 (99% CI, 764.8-1880.2). Similar differences in TG parameters were observed on ECMO days 3 and 5. CONCLUSIONS: Contact activation occurs during ECMO, but procoagulant factor levels are generally preserved. Although heparin-neutralized TG is delayed, peak TG and ETP are supranormal in the setting of high FVIII and low AT and protein C levels. Resistance to TM is also apparent. These changes demonstrate a possible mechanism for hypercoagulability during adult VA ECMO.

Von Willebrand Factor-GP1bα Interactions in Venoarterial Extracorporeal Membrane Oxygenation Patients.

OBJECTIVE: Evaluate extracorporeal membrane oxygenation (ECMO) patients' platelet adhesion and aggregation under shear stress and determine whether addition of von Willebrand factor (VWF) concentrate improves platelet function. Also, explore whether reduced platelet adhesion and aggregation is associated with clinical bleeding during ECMO. DESIGN: Prospective observational cohort study with translational component. SETTING: Academic medical center. PARTICIPANTS: Consecutive venoarterial (VA) ECMO patients were screened and 20 patients enrolled. INTERVENTIONS: VWF multimers, VWF antigen, ristocetin cofactor activity, and plasma glycocalicin levels were measured and values were compared at study points: ECMO day 1 or 2, day 3, and day 5. Platelet adhesion and aggregation were measured in vitro using the total thrombus analysis system. Platelet function was expressed as area under the flow-pressure curve (AUC). VWF concentrate was added in vitro and the AUC after VWF supplementation (VWF AUC) was compared with baseline AUC. Further, baseline AUCs and VWF AUCs were compared between patients who experienced bleeding during ECMO and those who did not. MEASUREMENTS AND MAIN RESULTS: ECMO patients had high VWF antigen levels, high ristocetin cofactor activity, and large VWF multimer loss. Platelet counts fell over the first 5 days on ECMO, and plasma glycocalicin levels were elevated mildly. ECMO patients had severely low platelet adhesion and aggregation in vitro: median AUC = 5.8 (3.5-9.7) ECMO day 1 or 2, median AUC = 6.3 (5.3-11.1) day 3, and median AUC = 5.5 (4.1-8.1) day 5. There was no significant change in AUC over time (p = 0.47). Addition of VWF concentrate increased the AUC compared to baseline at each point (all p < 0.05), but VWF AUC values remained low. Patients with bleeding during ECMO had a low VWF AUC at all points, whereas those without bleeding had a higher VWF AUC on ECMO day 3. CONCLUSIONS: VA ECMO patients have severely impaired platelet function, which improved but did not normalize with VWF concentrate. The data suggest that GP1bα receptor loss of dysfunction also contributes to impaired platelet adhesion and aggregation during ECMO. Based on these findings, clinical bleeding in ECMO patients is unlikely to be correctable with VWF supplementation alone.

Reduced Requirement for Prothrombin Complex Concentrate for the Restoration of Thrombin Generation in Plasma From Liver Transplant Recipients.

BACKGROUND: Plasma transfusion remains the mainstay hemostatic therapy during liver transplantation (LT) in most countries. However, a large volume is required for plasma to achieve clinically relevant factor increases. Prothrombin complex concentrate (PCC) is a low-volume alternative to plasma in warfarin reversal, but its efficacy has not been well studied in LT. METHODS: Blood samples were collected from 28 LT patients at baseline (T0) and 30 minutes after graft reperfusion (T1). Factor X and antithrombin levels were measured. Ex vivo effects of PCC (0.2 and 0.4 IU/mL) and 10% volume replacement with normal plasma were compared in LT and warfarin plasma by measuring lag time, thrombin peak, and endogenous thrombin potential (ETP) using thrombin generation (TG) assay. RESULTS: Coagulation status was worsened at T1 as international normalized ratio increased from 1.7 to 3.0, and factor X was decreased from 49% to 28%. TG measurements showed normal lag time and ETP at T0 and T1, but low-normal peak at T0, and below-normal peak at T1. Both doses of PCC increased peak and ETP, while 10% volume plasma had minimal effects on TG. Thrombin inhibition appears to be very slow after adding 0.4 IU/mL of PCC in LT plasma due to low antithrombin. The same doses of PCC and plasma were insufficient for warfarin reversal. CONCLUSIONS: Reduced TG in LT can be more effectively restored by using PCC rather than plasma. The required doses of PCC for LT patients seem to be lower than warfarin reversal due to slow thrombin inhibition.