Steve Owen scite author profile

Introduction Administration of coagulation factors after major cardiac surgery, with or without cardiopulmonary bypass, may be a strategy for reducing risk of bleeding and requirement for allogeneic blood transfusions. However, transfusion of large volumes of fresh frozen plasma (FFP) is restricted by the competing problem of heart failure, a common complication following cardiac surgery in patients with existing cardiac decompensation. Prothrombin complex concentrate (PCC) has a smaller volume of administration than FFP for a similar amount of coagulation factors, making it an attractive option in this situation. However, patients undergoing complex cardiac surgery may also have prothrombotic conditions and have a high risk of both venous and arterial thrombosis including ischemic neurological complications. We performed a retrospective analysis to investigate whether the use of PCC is safe and effective compared with FFP to treat coagulopathy in patients undergoing isolated coronary artery bypass graft (CABG), valve surgery (with or without concomitant CABG) and major aortic procedures. If the patient was on warfarin, this was stopped at least 5 days before the surgery and appropriate bridging was followed. For patients on dual antiplatelet therapy, P2Y12 receptor inhibitors such as Clopidogrel and Prasugrel were stopped 5-7days before the surgery and Aspirin was allowed to continue. The decision to use PPC or FFP was based on individual patient characteristics such as complexity of the surgery and previous history of increased bleeding during surgery and also ability to tolerate volume. Methods One hundred and seventy consecutive adult patients who underwent major cardiac surgery between January 2015 and December 2015 were studied. Among them, 87 received PCC (male/female = 55/32, mean age= 56 years) and 83 received FFP (male/female = 56/27, mean age = 58 years) to control coagulopathy. The decision on need for coagulation factor treatment and the choice of treatment was made by the treating team of the patient. Those who received both PCC and FFP were excluded. Blood loss within first 12 hours and 24hours from the end of operation, total use of allogeneic blood and platelet transfusion and patient outcomes in terms of thrombotic complications both venous and arterial, incidence of acute kidney injury and 30 day mortality were compared in the two groups. Antiplatelet drug effect on bleeding was also assessed. Results There was no significant difference in the amount of bleeding at the first 12 hours from the end of the operation in the two groups (p=0.25) :median and 95% confidence interval [CI] were 825mL [926-1317] and 787mL [804-1067] patients received PPC or FFP respectively. However, total blood loss within 24hours was significantly higher in patients who received PPC (median [CI] (1575mL [1658-2263]) compared to FFP (median [CI] (1213mL [1244-1641]), P=0.0034. There was no difference in the mean blood loss between patients continued Aspirin at the time of surgery and those who were not on Aspirin in either groups. The use of allogeneic blood (P=.001) and platelets (P=0.03) was significantly higher in patients receiving FFP compared to PPC. A significantly higher number of patients treated with FFP (9.6% vs 3.5%, p=0.002) developed cardiac failure related to circulatory overload. There was no difference in thrombotic events in the two groups: one patient from each group (1.1%) developed venous and arterial thrombosis respectively following surgery. Thirty day mortality rate was similar in the patients receiving FFP or PPC (4%) and none were directly related to surgery. There was no difference in the acute kidney injury in the two groups. Conclusions This retrospective analysis suggests that PCC may be an alternative to FFP in patients undergoing major cardiac surgery. Although there was a higher amount of bleeding within 24hours of surgery in patients treated with PCC, this may reflect the complexity, duration and the individual patient risk of bleeding due to selection bias. The use of PPC may reduce the number of allogeneic blood and platelet transfusion in these patients and reduce risk of circulatory overload. There was no increased risk of thrombosis with use of PCC. However, randomized controlled studies powered to evaluate efficacy and safety in patients receiving PCC versus FFP for coagulopathic bleeding after major cardiac surgery are warranted. Disclosures Laffan: CSL: Other: Travel support; Octapharma: Speakers Bureau.

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Outcome of Major Hemorrhage at a Major Cardiothoracic Center in Patients with Activated Major Hemorrhage Protocol versus Nonactivated Protocol

Chang

Owen

Gaspar

et al. 2021

Semin Thromb Hemost

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This study aimed to determine the impact of major hemorrhage (MH) protocol (MHP) activation on blood administration and patient outcome at a UK major cardiothoracic center. MH was defined in patients (> 16 years) as those who received > 5 units of red blood cells (RBCs) in < 4 hours, or > 10 units in 24 hours. Data were collected retrospectively from patient electronic records and hospital transfusion databases recording issue of blood products from January 2016 to December 2018. Of 134 patients with MH, 24 had activated MHP and 110 did not have activated MHP. Groups were similar for age, sex, baseline hemoglobin, platelet count, coagulation screen, and renal function with no difference in the baseline clinical characteristics. The total number of red cell units (median and [IQR]) transfused was no different in the patients with activated (7.5 [5–11.75]) versus nonactivated (9 [6–12]) MHP (p = 0.35). Patients in the nonactivated MHP group received significantly higher number of platelet units (median: 3 vs. 2, p = 0.014), plasma (median: 4.5 vs. 1.5, p = 0.0007), and cryoprecipitate (median: 2 vs. 1, p = 0.008). However, activation of MHP was associated with higher mortality at 24 hours compared with patients with nonactivation of MHP (33.3 vs. 10.9%, p = 0.005) and 30 days (58.3 vs. 30.9%, p = 0.01). The total RBC and platelet (but not fresh frozen plasma [FFP]) units received were higher in deceased patients than in survivors. Increased mortality was associated with a higher RBC:FFP ratio. Only 26% of patients received tranexamic acid and these patients had higher mortality at 30 days but not at 24 hours. Deceased patients at 30 days had higher levels of fibrinogen than those who survived (median: 2.4 vs. 1.8, p = 0.01). Patients with activated MHP had significantly higher mortality at both 24 hours and 30 days despite lack of difference in the baseline characteristics of the patients with activated MHP versus nonactivated MHP groups. The increased mortality associated with a higher RBC:FFP ratio suggests dilutional coagulopathy may contribute to mortality, but higher fibrinogen at baseline was not protective.

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13. Salivary gland scintigraphy in the assessment of post-irradiation xerostomia treatment with oral Pilocarpine

Cooper

Cowan

Owen

et al. 1997

Nuclear Medicine Communications

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A patient with tremors and breathlessness

Mohan

Owen

McCallum

et al. 2005

Primary Care Respiratory Journal

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Steve Owen

Red cell alloimmunisation in patients receiving veno-venous extracorporeal membrane oxygenation (VV-ECMO)

Efficacy and Safety of Prothrombin Complex Concentrate in Patients Undergoing Major Cardiac Surgery

Outcome of Major Hemorrhage at a Major Cardiothoracic Center in Patients with Activated Major Hemorrhage Protocol versus Nonactivated Protocol

13. Salivary gland scintigraphy in the assessment of post-irradiation xerostomia treatment with oral Pilocarpine

A patient with tremors and breathlessness

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