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601055 
Journal Article 
Inhibiting nitric oxide overproduction during hypotensive sepsis increases local oxygen consumption in rat skeletal muscle * 
Bateman, RMP; Sharpe, MDMD; Goldman, DP; Lidington, DP; Ellis, CGP 
2008 
Yes 
Critical Care Medicine
ISSN: 0090-3493
EISSN: 1530-0293 
36 
225-231 
English 
18090362 
WOS:000255232100032 
Objective: Although nitric oxide (NO) is a known regulator of cardiovascular function, the effect of NO overproduction during sepsis on capillary oxygen transport and local tissue oxygen consumption is not well understood. The objectives of this study were to determine whether sepsis-induced NO overproduction increased capillary stopped-flow and modulated tissue oxygen consumption in skeletal muscle., Design: Prospective, controlled laboratory study., Setting: Animal laboratory in a university-affiliated research institute., Subjects: Male Sprague-Dawley rats, 165-180 g body weight., Interventions: Rats were made septic by cecal ligation and perforation (CLP) and were then ventilated and volume resuscitated (saline). The hind limb extensor digitorum longus (EDL) skeletal muscle was blunt dissected for in vivo microvascular imaging. The inducible NO synthase (iNOS) inhibitor L-N6-(1-iminoethyl)lysine dihydrochloride (L-NIL) was infused (3 mg/kg body weight per hour) starting 1 hr post-CLP to maintain arterial blood and EDL tissue NOx- (NO2- + NO3-) at baseline., Measurements and Main Results: Red blood cell hemodynamics, hemoglobin oxygen saturation, capillary geometry, and functional capillary density information were used to calculate capillary oxygen flux (the rate of oxygen diffusion from capillary to tissue) and indices of local oxygen delivery and tissue oxygen consumption. Over the first 5 hrs of septic injury, mean arterial pressure decreased while capillary stopped-flow and capillary oxygen flux both increased (p < .05). Inhibiting iNOS/NO overproduction partially restored mean arterial pressure and increased arterial pH. Within the microcirculation, inhibiting NO increased capillary red cell velocity and increased local tissue oxygen consumption (p < .05). Inhibiting NO failed, however, to prevent capillary stopped-flow., Conclusions: During the onset of sepsis, concurrent with the onset of microvascular dysfunction, there is an iNOS/NO-mediated reduction in local skeletal muscle tissue oxygen consumption., (C) 2008 Lippincott Williams & Wilkins, Inc. 
sepsis; microcirculation; nitric oxide; capillaries; oxygen consumption