The American journal of physiology
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Although a four-wavelength method for cryospectrophotometric measurement of intravascular oxyhemoglobin (HbO2) saturations has previously been described, the relationship between experimental measurements and theory has not been clearly detailed. The current work utilizes an empirical relationship between HbO2 saturation measurements and reflected light oximetry, which is consistent with the two-flux theory of Kubelka and Munk (Z. Tech. ⋯ Therefore, equibestic wave-length pairs were used at which optical density differences were invariant with saturation. This allows numerous wavelength sets over the range 540-600 nm to be selected, rather than the limited choices of isosbestic wavelengths. Finally, the effects of freeze rate, freeze depth, Hb concentration, and vessel diameter are each discussed in terms of their influence on experimental measurements.
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Sequential 31P nuclear magnetic resonance (NMR) spectra were measured in adult dogs to determine the relationship between cardiac function and myocardial intracellular pH (pHi) and phosphorylated energy metabolites during 2 h of hemorrhagic shock. Simultaneous measurements of coronary blood flow (radioactive microspheres), arterial and coronary sinus pH, blood gases, and oxygen content were performed. ⋯ Return of shed blood and crystalloid fluid resuscitation improved cerebral and coronary perfusion and returned cardiac contractile function to near baseline values. We conclude that severe and sustained hemorrhagic shock produced significant alterations in brain and heart phosphorylated metabolites as well as significant intracellular acidosis; however, these changes in energy metabolites were reversible with adequate fluid resuscitation from shock.