BACKGROUND: Demographic changes and aggressive medication with platelet aggregation inhibitors have resulted in a marked increase in blood and coagulation product expenditure and costs in cardiac surgery. We analyzed the bedside coagulation test (ROTEM) in order to verify clot forming quality and to find a cost-effective treatment algorithm. PATIENTS AND METHODS: Annual treatment costs of all cardiosurgical patients were retrospectively analyzed before (729 patients) and after (693 patients) implementation of the bedside ROTEM test. Cumulative numbers and costs of platelet concentrates (PltC), fresh frozen plasma (FFP), red blood cell units (RBC), and the coagulation factors prothrombin complex concentrates (PCC), recombinant factor VIIa (rFVIIa), factor XIII (FXIII), and fibrinogen were assessed. Average monthly numbers and costs were compared. The number of rethoracotomies and early mortality were assessed and compared in both periods. RESULTS: After ROTEM implementation cumulative RBC expenditure showed a 25% decrease and PltC a 50% decrease. FFP expenditure remained unchanged. PCC, FXIII were markedly reduced (-80%) while rFVIIa was entirely omitted. Fibrinogen, however, showed a two-fold increase. Cumulative average monthly costs of all blood products decreased from 66,000 EUR to 45,000 EUR (-32%). Coagulation factor average monthly costs decreased from 60,000 EUR to 30,000 EUR (-50%) yielding combined savings of 44%. In contrast, average monthly costs for ROTEM were 1,580 EUR. The total number of rethoracotomies decreased from 6.6% to 5.5% while early mortality (5.9%; 6.0%) remained stable. CONCLUSIONS: Cumulative costs for treatment of perioperative coagulation disorders were reduced by bedside ROTEM analysis to achieve a selective substitution management. Saved costs for blood and coagulation products clearly outweighed the expenses of ROTEM. Adequate differential coagulation management can therefore be cost-effective.
BACKGROUND: Demographic changes and aggressive medication with platelet aggregation inhibitors have resulted in a marked increase in blood and coagulation product expenditure and costs in cardiac surgery. We analyzed the bedside coagulation test (ROTEM) in order to verify clot forming quality and to find a cost-effective treatment algorithm. PATIENTS AND METHODS: Annual treatment costs of all cardiosurgical patients were retrospectively analyzed before (729 patients) and after (693 patients) implementation of the bedside ROTEM test. Cumulative numbers and costs of platelet concentrates (PltC), fresh frozen plasma (FFP), red blood cell units (RBC), and the coagulation factors prothrombin complex concentrates (PCC), recombinant factor VIIa (rFVIIa), factor XIII (FXIII), and fibrinogen were assessed. Average monthly numbers and costs were compared. The number of rethoracotomies and early mortality were assessed and compared in both periods. RESULTS: After ROTEM implementation cumulative RBC expenditure showed a 25% decrease and PltC a 50% decrease. FFP expenditure remained unchanged. PCC, FXIII were markedly reduced (-80%) while rFVIIa was entirely omitted. Fibrinogen, however, showed a two-fold increase. Cumulative average monthly costs of all blood products decreased from 66,000 EUR to 45,000 EUR (-32%). Coagulation factor average monthly costs decreased from 60,000 EUR to 30,000 EUR (-50%) yielding combined savings of 44%. In contrast, average monthly costs for ROTEM were 1,580 EUR. The total number of rethoracotomies decreased from 6.6% to 5.5% while early mortality (5.9%; 6.0%) remained stable. CONCLUSIONS: Cumulative costs for treatment of perioperative coagulation disorders were reduced by bedside ROTEM analysis to achieve a selective substitution management. Saved costs for blood and coagulation products clearly outweighed the expenses of ROTEM. Adequate differential coagulation management can therefore be cost-effective.
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