Forster H V, Bisgard G E, Rasmussen B, Orr J A, Buss D D, Manohar M
J Appl Physiol. 1976 Dec;41(6):878-85. doi: 10.1152/jappl.1976.41.6.878.
The present study was designed to provide further insight into the role of the carotid and aortic chemoreceptors in ventilatory (VE) acclimatization during sojourn at altitude. Measurements were made: 1) on 10 ponies near sea level (SL, 740 Torr) under normal conditions, 2) on 6 of these at SL following chemoreceptor denervation (CD), and 3) subsequently on all 10 during 4 days of hypobaric hypoxia (PaO2 = 40-47 Torr). CD resulteo in hypoventilation at SL (deltaPaCO2 = d8 Torr, P less than 0.05), and it prevented hyperventilation normally observed with injection of NaCN and acute exposure to hypoxia (less than 1 h). In contrast, hyperventilation was evident in normal ponies during acute hypoxia (deltaPaCO2 = -6.7 Torr). Ventilation increased in both groups between the 2nd and 8th h of hypoxia (deltaPaCO2 from 1 h = -4 Torr, P less than 0.05). This change, a common characteristic of acclimatization, persisted throughout 4 days of hypoxia in the normal ponies. However, in the CD ponies this change was evident consistently only through the 12th h and after the 44 h hyperventilation was no longer evident. We conclude that the peripheral chemoreceptors are essential in ponies for normal VE acclimatization to this degree of hypoxemia. Two additional findings in CD ponies suggest the presence of a CNS inhibitory influence on the VE control center during chronic hypoxemia. First, acute hyperoxygenation on the 4th day of hypoxemia induced hyperventilation (deltaPaCO2 = -5 Torr, P less than 0.05). Second, again on the 4th day and during hyperoxygenation, VE responsiveness to CO2 and doxapram HCl was greater than at sea level.
本研究旨在进一步深入了解颈动脉和主动脉化学感受器在高原停留期间通气(VE)适应过程中的作用。进行了以下测量:1)在海平面(SL,740托)附近的10匹小马处于正常条件下;2)其中6匹在化学感受器去神经支配(CD)后于海平面进行测量;3)随后在10匹小马全部处于4天的低压缺氧(动脉血氧分压=40 - 47托)期间进行测量。CD导致海平面时通气不足(动脉血二氧化碳分压变化量=8托,P<0.05),并且它阻止了通常在注射氰化钠和急性暴露于低氧(<1小时)时观察到的通气过度。相比之下,正常小马在急性低氧期间通气过度明显(动脉血二氧化碳分压变化量=-6.7托)。两组在低氧的第2小时至第8小时之间通气量均增加(动脉血二氧化碳分压从1小时起变化量=-4托,P<0.05)。这种变化是适应的一个共同特征,在正常小马整个4天的低氧期间持续存在。然而,在CD小马中,这种变化仅在第12小时之前一直明显,44小时后通气过度不再明显。我们得出结论,外周化学感受器对于小马正常的VE适应这种程度的低氧血症至关重要。CD小马的另外两个发现表明,在慢性低氧血症期间存在对VE控制中心的中枢神经系统抑制作用。首先,低氧血症第4天的急性高氧诱导了通气过度(动脉血二氧化碳分压变化量=-5托,P<0.05)。其次,同样在第4天且在高氧期间,VE对二氧化碳和盐酸多沙普仑的反应性高于海平面时。
