颈交感神经在猫颈动脉体氧消耗调节中的作用。
The role of the cervical sympathetic nerve in the regulation of oxygen consumption of the carotid body of the cat.
作者信息
Purves M J
出版信息
J Physiol. 1970 Aug;209(2):417-31. doi: 10.1113/jphysiol.1970.sp009172.
Abstract
- Carotid body blood flow (c.b.f.) and carotid arterial-carotid body venous oxygen (A-V O(2)) difference were measured and carotid body oxygen consumption calculated in twenty-six cats anaesthetized with pentobarbitone sodium, paralysed with gallamine triethiodide and ventilated mechanically.2. With the sinus nerves intact and with blood gas tensions and carotid sinus pressure within physiological limits, section of either the pre- or post-ganglionic cervical sympathetic nerve on the same side caused an average rise in c.b.f. of 9.2 mul./min, in A-V O(2) difference of 0.09 ml./100 ml. and in carotid body oxygen consumption of 0.075 mul./min.3. When the pre- or post-ganglionic cervical sympathetic nerves were stimulated, c.b.f. and A-V O(2) difference fell. The fall in c.b.f. was enhanced at high P(a, CO2); the fall in A-V O(2) difference and in calculated oxygen consumption was enhanced at low mean arterial pressure (M.A.P.) or P(a, O2).4. Following sympathectomy, a reduction of M.A.P. at constant P(a, O2) and P(a, CO2) caused a fall in c.b.f. and a commensurate rise in A-V O(2) difference so that carotid body oxygen consumption remained approximately constant.5. When P(a, O2) was altered over the range 35 to > 400 mm Hg, or P(a, CO2) over the range 27-70 mm Hg at constant M.A.P., c.b.f. changed by amounts which were similar to those observed when the sympathetic nerves were intact and A-V O(2) difference changed in the opposite direction so that carotid body oxygen consumption similarly remained constant.6. Comparison of these results with those observed when the sympathetic nerves were intact indicates that the sympathetic nerves exert a vasoconstrictor effect upon carotid body blood vessels over a wide range of blood gas tensions and arterial pressure and that they also tend to diminish the rate of carotid body oxygen consumption. The mechanisms which may be involved in this regulation are discussed.
摘要
对26只用戊巴比妥钠麻醉、三碘季铵酚麻痹并进行机械通气的猫,测量其颈动脉体血流量(c.b.f.)和颈动脉-颈动脉体静脉血氧(A-V O₂)差,并计算颈动脉体氧耗量。
在窦神经完整、血气张力和颈动脉窦压力处于生理范围内时,切断同侧节前或节后颈交感神经,可使c.b.f.平均升高9.2微升/分钟,A-V O₂差升高0.09毫升/100毫升,颈动脉体氧耗量升高0.075微升/分钟。
刺激节前或节后颈交感神经时,c.b.f.和A-V O₂差下降。在高P(a, CO₂)时,c.b.f.的下降增强;在低平均动脉压(M.A.P.)或P(a, O₂)时,A-V O₂差和计算出的氧耗量的下降增强。
交感神经切除后,在恒定的P(a, O₂)和P(a, CO₂)下降低M.A.P.,会导致c.b.f.下降和A-V O₂差相应升高,从而使颈动脉体氧耗量大致保持恒定。
当在恒定M.A.P.下,将P(a, O₂)在35至>400毫米汞柱范围内改变,或P(a, CO₂)在27 - 70毫米汞柱范围内改变时,c.b.f.的变化量与交感神经完整时观察到的相似,而A-V O₂差则朝相反方向变化,从而使颈动脉体氧耗量同样保持恒定。
将这些结果与交感神经完整时观察到的结果进行比较表明,交感神经在广泛的血气张力和动脉压范围内对颈动脉体血管发挥血管收缩作用,并且它们还倾向于降低颈动脉体氧耗率。文中讨论了可能参与这种调节的机制。
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