Coronary Artery Bypass, Off-Pump Clinical Trial
Official title:
The Rheologic Properties and Oxygen Transport Capacity of Red Blood Cells Processed by 3 Different Types of Cell Saving, and Its Effects on Microcirculatory Blood Flow and Tissue Oxygenation in Vivo
Cell savers are routinely used in our hospital during off-pump coronary artery bypass
grafting to retrieve and wash blood that is lost during the operation. This washed blood is
retransfused to the patient in order to prevent allogeneic blood transfusion. However,
little is known about the rheologic properties and oxygen transport capacity of the washed
red blood cells and the effects of retransfusion of this blood on microcirculatory blood
flow and organ damage in the patient. For cell savers 3 different operating principles
exist. The most common one uses discontinuous blood washing with a spinning bowl that is
intermittently filled with blood, processed and emptied. A second one uses a continuous
blood washing principle with a rotational disk. A third one is intermediate using features
of both the discontinuous bowl technology and the continuous rotational disc technology.
The investigator hypothesize that the operating principle has effects on the rheologic
properties and oxygen transport capacity of the washed blood.
Previous research suggested that in particular the deformability and oxygen carrier
properties of the red blood cells are affected. As a consequence, red blood cells may block
small blood vessels, which affects microcirculatory blood flow and tissue oxygenation. This
may lead to organ damage.
Cell savers are routinely used in our hospital during off-pump coronary artery bypass
grafting (OPCABG) to retrieve and wash blood that is lost during the operation. This washed
blood is retransfused to the patient in order to prevent allogeneic blood transfusion.
For cell savers 3 different operating principles exist. The most common type uses
discontinuous blood processing with a spinning bowl that is intermittently filled with
blood, processed and emptied. A second type uses a continuous blood processing principle
with a rotational disk. A third one is intermediate using features of both the discontinuous
bowl technology and the continuous rotational disc technology. In all types of
autotransfusion systems the wound blood is washed, concentrated and stored in a blood
conservation bag.
In several studies hemoglobin levels, leucocyte and platelet counts in the washed cell saver
blood have been measured, indicating differences between types of cell saving. In other
studies biochemical markers of inflammation in the washed cell saver blood have been
measured, also indicating differences between types of cell saving. Recently, blood bank
blood at the end of its shelf life was washed using similar devices as proposed in this
study. The investigated devices removed substances from the blood differently. However, the
rheologic properties of the red blood cells were not assessed.
Despite widespread clinical use of cell savers, little is therefore known about the
rheologic properties and oxygen transport capacity of the washed red blood cells. As the
process of washing of the blood cells occurs with high centrifugal loads, there is concern
about the elasticity and deformability of the processed red blood cells. Ultrastructural
changes in cell saver washed red blood cells have been demonstrated using scanning electron
microscopy suggesting poor performance of these cells in the microcirculation. Using the
continuous type of cell saver, we previously could demonstrate a reduction in deformability
and 2,3-Diphosphoglycerate (DPG) levels of the processed blood cells. The implication is
that microcirculatory blood flow may be obstructed by blockage of the small blood vessels
and, as 2,3-DPG regulates oxygen transfer, tissue oxygenation may also be hampered. However,
at the moment the effects of retransfusion of the washed cell saver blood on
microcirculatory blood flow and tissue oxygenation in patients are unknown.
Thus, in this study the investigator want to determine in vitro the rheologic properties and
oxygen transport capacity of the washed blood processed by one of 3 different types of cell
saving (discontinuous, continuous and mixed) and to measure in vivo after retransfusion of
this processed blood in the patient the effects on microcirculatory blood flow, tissue
oxygenation and organ damage using organ specific biomarkers.
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Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Crossover Assignment, Masking: Double Blind (Subject, Caregiver), Primary Purpose: Diagnostic
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