Rohlicek C V, Saiki C, Matsuoka T, Mortola J P
Department of Physiology, McGill University, Montréal, Québec, Canada.
Pediatr Res. 1996 Jul;40(1):1-5. doi: 10.1203/00006450-199607000-00001.
Acute hypoxia in newborns of various species including humans is associated with decreased thermogenesis and a fall in body temperature. We have investigated the cardiorespiratory consequences of correcting the fall in colonic temperature (Tc) during acute hypoxia in newborn cats. Experiments were conducted on 21 unanesthetized kittens (12 +/- 1 d SEM, 244 +/- 8 g) instrumented with catheters in the left common carotid artery and superior vena cava for measurements of systemic arterial pressure, central venous pressure, heart rate, arterial blood gases, arterial O2 saturation (SaO2) and mixed venous O2 saturation. Oxygen consumption (VO2) and CO2 production (VCO2) were also measured. Alveolar ventilation (VA), cardiac index (CI), and systemic vascular resistance index (SVRI) were calculated. These determinations were made in 21% O2 at an ambient temperature (Tamb) of 25 degrees C, and after 80 min of exposure to Fio2 = 0.10. In one group Tamb was maintained at 25 degrees C (n = 8) during hypoxia and Tc fell by 2.7 +/- 0.4 degrees C whereas in a second group Tamb was increased to 35 degrees C for the second 40 min of hypoxia to raise Tc the prehypoxic level (n = 13). VO2, VCO2, VA, SaO2, and systemic arterial pressure during hypoxia did not differ between the animals which were warmed and those which were not. However, CI and heart rate were greater (452 +/- 23 versus 346 +/- 30 mL.min-1.kg-1 p < 0.05, 279 +/- 8 versus 228 +/- 12 beats.min-1 p < 0.05) and SVRI lower (0.115 +/- 0.022 versus 0.153 +/- 0.014 mm Hg.mL-1.min.kg, p < 0.05) during hypoxia in the warmed animals compared with the unwarmed group. Thus, artificially raising Tc during hypoxia resulted in peripheral vasodilation, whereas systemic arterial pressure was maintained by the increase in cardiac output. We conclude that, in the hypoxic kitten, raising Tc to normoxic values elicits a response that may reflect a condition of relative hyperthermia.
包括人类在内的各种物种的新生儿急性缺氧都与产热减少和体温下降有关。我们研究了在新生猫急性缺氧期间纠正结肠温度(Tc)下降对心肺功能的影响。实验在21只未麻醉的小猫(12±1天,标准误,244±8克)身上进行,在左颈总动脉和上腔静脉插入导管,用于测量体循环动脉压、中心静脉压、心率、动脉血气、动脉血氧饱和度(SaO2)和混合静脉血氧饱和度。还测量了氧耗量(VO2)和二氧化碳产生量(VCO2)。计算了肺泡通气量(VA)、心脏指数(CI)和体循环血管阻力指数(SVRI)。这些测定在环境温度(Tamb)为25℃的21%氧气环境中进行,以及在暴露于Fio2 = 0.10 80分钟后进行。在一组中,缺氧期间Tamb维持在25℃(n = 8),Tc下降了2.7±0.4℃,而在另一组中,缺氧的后40分钟Tamb升至35℃以将Tc提高到缺氧前水平(n = 13)。缺氧期间,保暖组和未保暖组动物的VO2、VCO2、VA、SaO2和体循环动脉压没有差异。然而,与未保暖组相比,保暖组动物在缺氧期间的CI和心率更高(452±23对346±30 mL·min-1·kg-1,p < 0.05,279±8对228±12次/分钟,p < 0.05),SVRI更低(0.115±0.022对0.153±0.014 mmHg·mL-1·min·kg,p < 0.05)。因此,缺氧期间人工提高Tc会导致外周血管扩张,而心输出量增加维持体循环动脉压。我们得出结论,在缺氧的小猫中,将Tc提高到正常氧水平会引发一种反应,这可能反映了相对高温的状态。
