Near-infrared spectroscopy is a noninvasive monitoring technique that allows quantitative measurement of changes in cerebral oxygenated Hb (HbO,), deoxygenated Hb (Hb), total Hb, and oxidized cytochrome aa, (CytO,). Changes in cerebral Hb oxygenation and CytO, have been measured in human neonates and infants under a variety of conditions. However, the association of these measurements with cerebral high-energy phosphate loss is not known. We studied simultaneous changes in cerebral HbO,, Hb, total Hb, and CytO, by near-infrared spectroscopy and changes in nucleoside triphosphate (NTP, mostly ATP) and phosphocreatine (PC) concentrations and intracellular pH by in vivo "P-labeled magnetic resonance spectroscopy. Four-wk-old piglets (n = 8) underwent sequential hypoxic episodes of increasing severity (inspired 0, concentration, 12, 8, 6, 4, and 0%). Animals were anesthetized and mechanically ventilated. At all levels of hypoxia, cerebral HbO, decreased, and Hb increased. Loss of PC or NTP was not observed until inspired 0, concentration was decreased to less than 12%. With such severe hypoxia, hypotension, intracellular acidosis, and increasingly severe PC and NTP depletions occurred. Decreases in PC and NTP correlated closely with decreased CytO, and arterial blood pressure ( p < 0.0001) but not with changes in HbO, and Hb. In conclusion, cerebral hypoxemia is readily detected by nearinfrared spectroscopy as a decrease in HbO, and an increase in Hb. However, relative changes in cerebral HbO, and Hb have low predictive value for cerebral energy failure. Reduction of CytO, is highly correlated with decreased brain energy state and may indicate impending cellular injury. (Pediatr Res 37: 253-
259, 1995)Abbreviations NIRS, near-infrared spectroscopy HbO,, oxygenated Hb Hb, deoxygenated Hb HbT, total Hb CytO,, oxidized cytochrome aa, PC, phosphocreatine NTP, nucleoside triphosphate Pi, inorganic phosphate pHi, intracellular pH MR, magnetic resonance NMR, nuclear magnetic resonance ABG, arterial blood gas dpf, differential path-length factor Pao,, arterial Po, MAP, mean arterial pressure Episodic or sustained hypoxemia and cerebral ischemia are frequent events in critically ill neonates and infants (1, 2).These conditions may contribute to brain injury through mechanisms that include a probable initial cellular energy failure neonatal cerebral monitoring has focused on noninvasive techniques to detect the presence of cerebral hypoxemia and ischemia.NIRS is a light-based technique, which allows in vivo measurement of changes in cerebral HbO,, Hb, HbT (the sum of HbO, and Hb), and the level of CytO,. Cytochrome aa, is the terminal enzyme of the mitochondria1 electron transport chain, the site of electron transfer to molecular 0,. Because the NIRS technique is noninvasive and portable, it may provide a means to monitor cerebral oxygenation in human newborns and infants. Several investigators have demonstrated changes in NIRS measures of cerebral oxygenation in human neonates and infants during events such as apnea and bra...
