The ROtation ThromboElastoMetry analyser (ROTEM, Pentapharm, Munich, Germany) is useful for studying whole blood (WB) clot formation and lysis. Reduction of haematocrit (HCT) has been reported to influence traditional thromboelastography parameters without compromising "in vitro" blood coagulation. We performed this case-control study to evaluate ROTEM profiles in sideropenic anaemia patients with different degrees of reduction of HCT levels. Forty consecutively referred patients with sideropenic anaemia were enrolled. A group of 40 healthy age and gender matched subjects acted as a control. The influence of HCT on ROTEM was assessed in the study population and in a model of artificially reconstituted blood with modified HCT values. Cases presented significantly increased levels of maximum clot firmness (MCF) as compared to controls (p < 0.001) mimicking a sort of "hypercoagulable profile". However, thrombin generation tests failed to detect an increase in thrombin generation in cases as compared to controls. A statistically significant inverse linear correlation between HCT and MCF (p < 0.0001) was found. In addition, ROTEM profiles following "in vitro" manipulation of HCT confirmed the inverse linear correlation between HCT and MCF found in the study population. In conclusion, the increased clot firmness found by ROTEM in anaemic patients is likely to be related to the method in itself rather than representing a marker of hypercoagulability "in vivo". Since ROTEM is widely used by anaesthesiologists when deciding the optimisation of products supplementation during surgery, attention should be paid in the case of anaemic patients taking depending on the peculiar thrombo-elastography profile found.
Common tests for the assessment of blood coagulation in the acute phase of deep vein thrombosis are of limited value for the evaluation of the associated hypercoagulability. The new rotation thromboelastometry by rotation thrombelastogram has the potential to provide information on whole blood clot formation and prothrombotic state in patients with acute deep vein thrombosis. Rotation thrombelastogram parameters were evaluated in whole blood of 30 patients with a first episode of acute deep vein thrombosis and 40 healthy controls. The effect of factor VIII and fibrinogen levels on rotation thrombelastogram assays was also assessed in the study population and in a model of blood supplemented by increasing amounts of fibrinogen. All assays performed were consistent with a remarkable hypercoagulable profile in deep vein thrombosis patients as compared with controls. In particular, maximum clot firmness and the area under curve values, which are expected to better correlate with the hypercoagulable state in the acute phase of deep vein thrombosis, were significantly higher in patients than in controls. As expected, fibrinogen was shown to be one of the main determinants of the hypercoagulability in rotation thrombelastogram assays. In a small subset of acute deep vein thrombosis patients, inherited thrombophilia had no influence on rotation thrombelastogram parameters. The new rotation thrombelastogram thromboelastometry is a useful tool to detect acute deep vein thrombosis-related hypercoagulability. Prospective studies are needed to define the potential applications of rotation thrombelastogram in the management of deep vein thrombosis patients.
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