Nitric Oxide Production Affects Cerebral Perfusion and Metabolism After Deep Hypothermic Circulatory Arrest

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Original Article: Cardiovascular

Nitric Oxide Production Affects Cerebral Perfusion and Metabolism After Deep Hypothermic Circulatory Arrest

Steven S. L. Tsui, MD, Paul M. Kirshbom, MD, Michael J. Davies, FRCS, Michael T. Jacobs, BSc, William J. Greeley, MD, Frank H. Kern, MD, J. William Gaynor, MD, Ross M. Ungerleider, MD

Department of Surgery, Duke University Medical Center, Durham, North Carolina

Background. Use of deep hypothermic circulatory arrest (DHCA)in infant cardiac surgery is associated with reduced cerebralperfusion and metabolism during the recovery period. We investigatedthe impairment of nitric oxide production as a possible cause.

Methods. A group of 1-week-old piglets underwent normothermiccardiopulmonary bypass (group A); three other groups (B, C,and D; n = 6 per group) underwent 60 minutes of DHCA at 18°Cand 60 minutes of rewarming. The animals were then treated asfollows: Groups A and B received L- ${omega}$ -nitro-arginine-methyl-ester(L-NAME, 50 mg•kg^-1); group C, saline solution; and groupD, L-arginine (600 mg•kg^-1).

Results. In group A, global cerebral blood flow decreased to37.3% ± 4.2% of baseline after L-NAME administration(p < 0.005). In group B, global cerebral blood flow decreasedto 44.6% ± 4.4% of baseline after DHCA and 28.9% ±3.4% after L-NAME administration (p < 0.001). Following L-argininetreatment after DHCA (group D), global cerebral blood flow increasedfrom 43.8% ± 3.0% of baseline to 61.6% ± 9.1%(p < 0.05); cerebral oxygen metabolism increased from 1.93± 0.16 mL•min^-1•100 g^-1 after DHCA to 2.42± 0.25 mL•min^-1•100 g^-1 (p < 0.05).

Conclusions. Tonal production of nitric oxide is impaired inthe brain after DHCA and is partly responsible for the circulatoryand metabolic changes observed. Stimulation of nitric oxideproduction (L-arginine) significantly improved recovery of cerebralblood flow and cerebral oxygen metabolism after DHCA.

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