Objective. Activation of innate immunity cells is inseparably linked to cardiac surgical operation. The aim of this study was to assess the kinetics in the expression of receptor for Fc part of IgG, FcγRI (CD64), and scavenger receptor CD163 on peripheral blood cells of cardiac surgical patients and to examine the effect of cardiac bypass as a separable influence on the systemic acute inflammatory response.
Methods.
Forty patients, twenty in each group, were randomly assigned to CABG surgery performed either with “on-pump” or without “off-pump” cardiopulmonary bypass. Standardized quantitative flow cytometry method was used to determine the expression of surface markers.
Results.
The density of CD64 molecule on monocytes reached maximum on the 1st postoperative day (P<.001) whereas the peak for CD64 molecule expression on granulocytes was postponed to the 3rd
postoperative day (P<.001). The expression of CD163 scavenger molecule on monocytes reached maximum on the 1st postoperative day (P<.001). The density of CD163 molecule on monocytes on the 1st postoperative day is
significantly higher in “on-pump” patients in comparison
with “off-pump” patients (P<.001).
Conclusion.
In cardiac surgical patients the expression of activation marker FcγR1 (CD64) on monocytes is increased earlier in comparison with granulocytes in
both “on-pump” and “off-pump” patients. The expression of scavenger
molecule CD163 on monocytes is significantly higher in “on-pump” patients.
We found characteristic patterns in the expression of TLR2 and TLR4 on monocytes and granulocytes in venous blood of patients undergoing cardiac surgery with or without CPB.
Polymorphonuclear leukocytes or neutrophils are the main executors of cellular death, both in septic inflammation during bacterial infection and in sterile inflammation during trauma or surgery. Whereas in septic inflammation neutrophils perform a useful function to fortify the host's defense against infection, in sterile inflammation, by contrast, they contribute to unwelcome tissue damage. Regardless of the situation, activated neutrophils exhibit a prolonged lifespan and delayed apoptotic death which, under normal conditions, is a prerequisite for their natural renewal. Traditionally, delayed neutrophil apoptosis was considered to promote trauma or surgical injury. According to the results of recent studies, however surprising they may appear, the reverse might be in keeping with what happens IN VIVO. Apoptotic signaling in neutrophils could, by contrast, contribute to intrinsic protection of the host's tissues. This review article, aimed preferentially but not exclusively at the cardiac surgeon, presents some new information in support of this viewpoint, which fits in with our own observations.
Summary: Cardiac surgical operations are associated with the development of a systemic inflammatory response syndrome (SIRS). In most cases, the inflammatory response is apparent only in its subclinical form. In some cases, however, it can become clinically manifest or even life-threatening. This review article presents some new data regarding its biological importance, along with an insight into the recently discovered role played by heat shock proteins 60 and 70.
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