The goal of this pilot trial is to test a protocol for a planned Canada-wide clinical trial looking at whether or not the use of a patients own blood works as good as the current standard of care using donated blood products to reduce blood loss in adult patients having heart surgery. The main questions this study aims to answer are: * Is the protocol practical, effective, and efficient. * Does the use of a patients own blood lower the following: bleeding, the amount donated blood products given, and complications. Participants will be separated into two groups by a process that is like flipping a coin. One group will donate blood to themselves in the operating room and get their own blood back after surgery. The other group will be given blood products donated by other humans to treat the bleeding after heart surgery. Researchers will compare both groups to see if patients that get their own blood have fewer donated blood products given at time of heart surgery and have less complications after surgery.
Cardiac surgery patients are at risk for perioperative bleeding and transfusion due to the invasiveness of the surgery and an acquired coagulopathy that is unique to this sub-specialty. High transfusion rates in this population are related to surgical field blood loss and the development of a multi-factorial coagulopathy. Due to these circumstances, cardiac surgery patients account for up to 20% of total annual blood transfusion with a subset of high risk patients consuming 80% of all transfusion in this group. On this basis, employing blood conservation methods is extremely relevant as the use of donated blood products leads to greater rates of infectious complications, atrial fibrillation, prolonged postoperative ventilation, acute renal injury, and reduced short and long-term survival in cardiac surgery patients. Reducing the health and cost burden associated with transfusion is an important outcome to both the patient and health care system. Intraoperative autologous whole blood transfusion, a blood-conservation method similar to acute normovolemic hemodilution, may reduce transfusion and its associated complications but there is a paucity of large scale prospective randomized control trials investigating its efficacy in the era of modern surgical approaches, targeted transfusion using point-of-care viscoelastic testing, and advanced perfusion techniques. The intent of this study is to assess the feasibility of a trial protocol for a large-scale national study investigating high volume autologous whole blood transfusion for reduction in allogenic transfusion, derivative administration, and transfusion-associated morbidity and mortality.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
64
Intraoperative high volume autologous whole blood withdrawal with re-transfusion following weaning from CPB.
Therapeutic treatment of CPB-induced coagulopathy using donated allogenic blood products including plasma, platelets, and cryoprecipitate and/or derivative administration using prothrombin complex and fibrinogen concentrates.
University of Alberta
Edmonton, Alberta, Canada
Adequacy of recruitment.
Proportion of screened eligible patients that are successfully recruited.
Time frame: 12 months.
Number of allogenic units transfused.
Number of units of red blood cell, plasma, platelets, cryoprecipitate administered intra-operatively and within the first 24hrs post-operatively.
Time frame: 24 hours
Dose of prothrombin complex concentrates.
Dose (in units per kilogram) of prothrombin complex concentrates given intraoperatively and within the first 24 hrs postoperatively.
Time frame: 24hrs
Dose of fibrinogen.
Dose (grams per kilogram) of fibrinogen given intraoperatively and within the first 24 hrs postoperatively.
Time frame: 24 hrs
24-Hour chest tube output.
Measured in millilitres during first 24 hours post-operatively.
Time frame: 24 hours
Time to extubation.
Measured in hours from time of arrival to ICU admission (index admission) until extubated.
Time frame: 30 days
ICU length of stay.
Measured as number of days in ICU.
Time frame: 30 days
Hospital length of stay.
Measured as number of days in hospital.
Time frame: 30 days
Incidence of postoperative myocardial infarction (MI).
As measured by laboratory serum troponin and one or more of: new left bundle branch block, new pathological Q waves on electrocardiogram, new regional wall motion abnormality on echocardiogram, identification of intracoronary thrombus on angiography or at the time of autopsy.
Time frame: 30 days
Incidence of infection.
Any new infection following cardiac surgery and within the first 30 days post-operatively.
Time frame: 30 days
Incidence of post-operative stroke.
Defined as any acute onset focal neurological deficit lasting more than 24 hours that corresponded to clinical assessment and brain imaging.
Time frame: 30 days
Incidence of acute lung injury.
Defined as any acute inflammation in the lung that causes disruption of the lung endothelial and epithelial barriers with partial pressure of oxygen tension in arterial blood (PaO2) to fraction inspired oxygen (FiO2) ratio of less than 300.
Time frame: 30 days
Incidence of acute kidney injury (AKI).
Defined per the Kidney Disease Improving Global Outcomes (KDIGO ) criteria for Stage 2 and 3 AKI: 2.0-2.9 time postoperative increase in serum creatinine from preoperative value (stage 2); greater than 3.0 times increase in serum creatinine from preoperative value or increase in serum creatinine to greater than or equal to 353.6 micromole per litre or initiation of new renal replacement therapy postoperatively (stage 3) within 30 days.
Time frame: 30 days
Incidence of new requirement renal replacement therapy.
Defined as any new postoperative requirement of renal replacement therapy within the first 30 days of surgery.
Time frame: 30 days
Incidence of new onset atrial fibrillation.
Defined as new postoperative atrial fibrillation, persistent or paroxysmal, within the first 30 days postoperative.
Time frame: 30 days
Incidence of death within 30-days post-operatively.
Defined as death within the first 30 days postoperative.
Time frame: 30 days
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