Dynamic and Quantitative Assessment of Blood Coagulation Status with an Oscillatory Rheometer

During open heart surgery, the haemostasis status of a patient has to be monitored permanently in order to quickly and reliably detect bleeding or coagulation-based disorders. Currently, no single medical device is available to provide a comprehensive solution for monitoring the coagulation status (...

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Bibliographic Details
Published in:Applied sciences 2018-01, Vol.8 (1), p.84
Main Authors: Kunnakattu, Silju-John, Groß, Theresia, Knieps, Juvano, Kemper, Tim, Fennrich, Stefan, Rauch, Nicole, Wendel, Hans, Stoppelkamp, Sandra
Format: Article
Language:English
Subjects:
Blood coagulation
Blood platelets
Clotting
Coagulation
Fibrinolysis
Geometry
haemorheology
Heart surgery
Heparin
Information processing
Measuring instruments
Medical devices
Medical equipment
Medical research
oscillatory rheometry
Particle size
point-of-care
Protamine sulfate
Prothrombin
Rheological properties
Rheometers
Shear modulus
Shear stress
Stainless steel
Surgery
Thromboplastin
Titration
viscoelastic
Viscoelasticity
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Summary:During open heart surgery, the haemostasis status of a patient has to be monitored permanently in order to quickly and reliably detect bleeding or coagulation-based disorders. Currently, no single medical device is available to provide a comprehensive solution for monitoring the coagulation status (coagulation, platelets and fibrinolysis). We intend to approach this problem with a rheological method. Here, we compared the performance of an oscillatory rheometer with a medical reference device, a ball coagulometer. Measuring the extrinsic coagulation (prothrombin time; PT), various heparin concentrations (0.5-2.0 IU/mL) could be differentiated and also discriminated from the intrinsic coagulation (activated partial thromboplastin time; aPTT) providing comparable clotting times between rheometer and ball coagulometer. In addition, the oscillatory rheometer was capable to detect the antagonising of heparin with the equimolar concentration of protamine and also the titration of various protamine concentrations (0.5-3.0 IU/mL) to a fixed heparin concentration (2 IU/mL). The addition of increasing concentrations of heparin to citrated blood prolonged the clotting time (CT), changed the slope calculated by linear regression of the elastic and viscous shear moduli (i.e., information of the coagulation process) and changed the value of the shear moduli at the end of the measurement (300 s). These results indicate that the oscillatory rheometer is capable to dynamically measure the haemostasis status with different activators and various inhibitor concentrations.
ISSN:2076-3417
2076-3417
DOI:10.3390/app8010084