Bisgard G E, Forster H V, Byrnes B, Stanek K, Klein J, Manohar M
J Appl Physiol Respir Environ Exerc Physiol. 1978 Jul;45(1):94-101. doi: 10.1152/jappl.1978.45.1.94.
Ventilation, metabolism, arterial blood gases, and blood and cerebrospinal fluid (CSF) acid-base status were measured in exercise studies on seven ponies during mild, moderate, and near-maximal treadmill exercise. CSF and arterial blood were sampled via indwelling catheters. Generally measurements were made during the 3rd, 6th, and 9th minute of steady-state exercise, with CSF sampled only during the 9th minute. Alveolar ventilation (VA) and metabolic rate (VO2) increased proportionately during exercise below the anaerobic threshold, but above this threshold, VA increased at a faster rate than VO2. The similarity of these response to those observed in man suggests the pony is a suitable animal model for study of exercise hyperpnea. No change in CSF acid-base balance occurred with light-to-moderate work; however, with near-maximal work a fall in CSF carbon dioxide partial pressure due to hyperventilation caused CSF to become alkaline (pH = 7.380) relative to rest (pH = 7.330). CSF lactate increased slightly with exercise but had no effect on CSF [HCO3-], which remained constant from rest to severe exercise. We conclude that it is unlikely the hyperpnea at any intensity of exercise results from an increased H+ stimulation at the medullary chemoreceptor.
在对7匹小马进行的轻度、中度和接近最大强度的跑步机运动研究中,测量了通气、代谢、动脉血气以及血液和脑脊液(CSF)的酸碱状态。通过留置导管采集脑脊液和动脉血样本。一般在稳态运动的第3、6和9分钟进行测量,脑脊液仅在第9分钟采集。在无氧阈值以下的运动过程中,肺泡通气(VA)和代谢率(VO2)成比例增加,但高于此阈值时,VA的增加速度比VO2快。这些反应与在人类中观察到的反应相似,表明小马是研究运动性呼吸急促的合适动物模型。轻度至中度运动时脑脊液酸碱平衡无变化;然而,接近最大强度运动时,由于过度通气导致脑脊液二氧化碳分压下降,使脑脊液相对于休息时(pH = 7.330)变为碱性(pH = 7.380)。脑脊液乳酸随运动略有增加,但对脑脊液[HCO3-]无影响,从休息到剧烈运动时[HCO3-]保持恒定。我们得出结论,任何运动强度下的呼吸急促不太可能是由于延髓化学感受器处H+刺激增加所致。
