长期服用乙酰唑胺对最大运动后气体交换和酸碱平衡的影响。
Effect of chronic acetazolamide administration on gas exchange and acid-base control after maximal exercise.
作者信息
Kowalchuk J M, Heigenhauser G J, Sutton J R, Jones N L
机构信息
Faculty of Kinesiology, University of Western Ontario, London, Canada.
出版信息
J Appl Physiol (1985). 1994 Mar;76(3):1211-9. doi: 10.1152/jappl.1994.76.3.1211.
The interaction between systems regulating acid-base balance (i.e., CO2, strong ions, week acids) was studied in six subjects for 10 min after 30 s of maximal isokinetic cycling during control conditions (CON) and after 3 days of chronic acetazolamide (ChACZ) administration (500 mg/8 h po) to inhibit carbonic anhydrase (CA). Gas exchange was measured; arterial and venous forearm blood was sampled for acid-base variables. Muscle power output was similar in ChACZ and CON, but peak O2 intake was lower in ChACZ; peak CO2 output was also lower in ChACZ (2,207 +/- 220 ml/min) than in CON (3,238 +/- 87 ml/min). Arterial PCO2 was lower at rest, and its fall after exercise was delayed in ChACZ. In ChACZ there was a higher arterial [Na+] and lower arterial [lactate-] ([La-]) accompanied by lower arterial [K+] and higher arterial [Cl-] during the first part of recovery, resulting in a higher arterial plasma strong ion difference (sigma [cations] - sigma [anions]). Venoarterial (v-a) differences across the forearm showed a similar uptake of Na+, K+, Cl-, and La- in ChACZ and CON. Arterial [H+] was higher and [HCO3-] was lower in ChACZ. Compared with CON, v-a [H+] was similar and v-a [HCO3-] was lower in ChACZ. Chronic CA inhibition impaired the efflux of CO2 from inactive muscle and its excretion by the lungs and also influenced the equilibration of strong ions.(ABSTRACT TRUNCATED AT 250 WORDS)
在对照条件(CON)下,对6名受试者在进行30秒最大等速骑行后10分钟内,以及在连续3天口服乙酰唑胺(ChACZ,500毫克/8小时)以抑制碳酸酐酶(CA)后,研究了调节酸碱平衡的系统(即二氧化碳、强离子、弱酸)之间的相互作用。测量了气体交换;采集动脉和静脉前臂血样以检测酸碱变量。ChACZ组和CON组的肌肉功率输出相似,但ChACZ组的峰值摄氧量较低;ChACZ组的峰值二氧化碳排出量(2207±220毫升/分钟)也低于CON组(3238±87毫升/分钟)。静息时动脉血二氧化碳分压较低,且ChACZ组运动后其下降延迟。在恢复的第一阶段,ChACZ组动脉血[Na⁺]较高,动脉血[乳酸⁻]([La⁻])较低,同时动脉血[K⁺]较低,动脉血[Cl⁻]较高,导致动脉血浆强离子差(阳离子总和 - 阴离子总和)较高。前臂的动静脉(v-a)差异显示,ChACZ组和CON组对Na⁺、K⁺、Cl⁻和La⁻的摄取相似。ChACZ组动脉血[H⁺]较高,[HCO₃⁻]较低。与CON组相比,ChACZ组v-a [H⁺]相似,v-a [HCO₃⁻]较低。长期抑制CA会损害非活动肌肉中二氧化碳的流出及其通过肺部的排泄,还会影响强离子的平衡。(摘要截取自250字)
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