Abstract
BackgroundExperimental cardiac ischemia-reperfusion injury causes degradation of the glycocalyx and coronary washout of its components syndecan-1 and heparan sulfate. Systemic elevation of syndecan-1 and heparan sulfate is well described in cardiac surgery. Still, the events during immediate reperfusion after aortic declamping are unknown both in the systemic and in the coronary circulation.MethodsIn thirty patients undergoing aortic valve replacement, arterial concentrations of syndecan-1 and heparan sulfate were measured immediately before and at one, five and ten minutes after aortic declamping (reperfusion). Parallel blood samples were drawn from the coronary sinus to calculate trans-coronary gradients (coronary sinus–artery).ResultsCompared with immediately before aortic declamping, arterial syndecan-1 increased by 18% [253.8 (151.6–372.0) ng/ml vs. 299.1 (172.0–713.7) ng/ml, p < 0.001] but arterial heparan sulfate decreased by 14% [148.1 (135.7–161.7) ng/ml vs. 128.0 (119.0–138.2) ng/ml, p < 0.001] at one minute after aortic declamping. There was no coronary washout of syndecan-1 or heparan sulfate during reperfusion. On the contrary, trans-coronary sequestration of syndecan-1 occurred at five [-12.96 ng/ml (-36.38–5.15), p = 0.007] and at ten minutes [-12.37 ng/ml (-31.80–6.62), p = 0.049] after reperfusion.ConclusionsAortic declamping resulted in extracardiac syndecan-1 release and extracardiac heparan sulfate sequestration. Syndecan-1 was sequestered in the coronary circulation during early reperfusion. Glycocalyx has been shown to degrade during cardiac surgery. Besides degradation, glycocalyx has propensity for regeneration. The present results of syndecan-1 and heparan sulfate sequestration may reflect endogenous restoration of the damaged glycocalyx in open heart surgery.
Highlights
A mesh of proteoglycans and glycosaminoglycans called the glycocalyx covers the luminal side of the blood vessels [1]
Compared with immediately before aortic declamping, arterial syndecan-1 increased by 18% [253.8 (151.6–372.0) ng/ml vs. 299.1 (172.0–713.7) ng/ml, p < 0.001] but arterial heparan sulfate decreased by 14% [148.1 (135.7–161.7) ng/ml vs. 128.0 (119.0–138.2) ng/ ml, p < 0.001] at one minute after aortic declamping
Aortic declamping resulted in extracardiac syndecan-1 release and extracardiac heparan sulfate sequestration
Summary
A mesh of proteoglycans and glycosaminoglycans called the glycocalyx covers the luminal side of the blood vessels [1]. Experimental cardiac ischemia-reperfusion (IR) injury causes degradation of the glycocalyx and shedding of its components (syndecan-1 and heparan sulfate) into the blood stream [5, 6]. Many studies indicate that cardiac surgery and cardiopulmonary bypass (CPB) cause degradation of the glycocalyx and increase plasma concentrations of syndecan-1 and heparan sulfate [6,7,8,9,10,11,12]. The events occurring within the timeframe of immediate reperfusion both in the systemic circulation and in the coronary circulation remain undescribed. Experimental cardiac ischemia-reperfusion injury causes degradation of the glycocalyx and coronary washout of its components syndecan-1 and heparan sulfate. The events during immediate reperfusion after aortic declamping are unknown both in the systemic and in the coronary circulation
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