Role of nitric oxide scavenging in vascular response to cell-free hemoglobin transfusion

doi:10.1152/ajpheart.00251.2005

Role of nitric oxide scavenging in vascular response to cell-free hemoglobin transfusion

Kenji Sampei,¹ John A. Ulatowski,¹ Yoshio Asano,¹ Herman Kwansa,¹ Enrico Bucci,² and Raymond C. Koehler¹

¹Department of Anesthesiology and Critical Care Medicine, The Johns Hopkins University, Baltimore, Maryland; ²Department of Biochemistry and Molecular Biology, University of Maryland, Baltimore, Maryland

Submitted 15 March 2005 ; accepted in final form 6 May 2005

Modified Hb solutions have been developed as O₂ carrier transfusionfluids, but of concern is the possibility that increased scavengingof nitric oxide (NO) within the plasma will alter vascular reactivityeven if the Hb does not readily extravasate. The effect of decreasinghematocrit from $~$ 30% to 18% by an exchange transfusion of a 6%sebacyl cross-linked tetrameric Hb solution on the diameterof pial arterioles possessing tight endothelial junctions wasexamined through a cranial window in anesthetized cats withand without a NO synthase (NOS) inhibitor. Superfusion of aNOS inhibitor decreased diameter, and subsequent Hb transfusionproduced additional constriction that was not different fromHb transfusion alone but was different from the dilation observedby exchange transfusion of an albumin solution after NOS inhibition.In contrast, abluminal application of the cross-linked Hb producedconstriction that was attenuated by the NOS inhibitor. Neitherabluminal nor intraluminal cross-linked Hb interfered with pialarteriolar dilation to cromakalim, an activator of ATP-sensitivepotassium channels. Pial vascular reactivity to hypocapnia andhypercapnia was unaffected by Hb transfusion. Microsphere-determinedregional blood flow indicated selective decreases in perfusionafter Hb transfusion in the kidney, small intestine, and neurohypophysis,which does not have tight endothelial junctions. Administrationof a NOS inhibitor to reduce the basal level of NO availablefor scavenging before Hb transfusion prevented further decreasesin blood flow to these regions compared with NOS inhibitionalone. In contrast, blood flow to skeletal and left ventricularmuscle increased, and cerebral blood flow was unchanged afterHb transfusion. This cross-linked Hb tetramer is known to appearin renal lymph but not in urine. We conclude that cell-freetetrameric Hb does not scavenge sufficient NO in the plasmaspace to significantly affect baseline tone in vascular bedswith tight endothelial junctions but does produce substantialconstriction in beds with porous endothelium. The data supportincreasing the molecular size of Hb by polymerization or conjugationto limit extravasation in all vascular beds to preserve normalvascular reactivity.

blood substitute; cat; cerebral blood flow; ATP-sensitive potassium channel; pial artery

Address for reprint requests and other correspondence: R. C. Koehler, Dept. of Anesthesiology and Critical Care Medicine, The Johns Hopkins Medical Institutions, 600 N. Wolfe St., Blalock 1404, Baltimore, MD 21287 (e-mail: rkoehler{at}jhmi.edu)

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