Bark H, Le Roith D, Nyska M, Glick S M
Am J Physiol. 1980 Dec;239(6):E474-81. doi: 10.1152/ajpendo.1980.239.6.E474.
In an attempt to define more precisely the various mechanisms involved in antidiuretic hormone (ADH) release during positive end-expiratory pressure ventilation (PEEP), experiments were performed on seven groups of dogs. PEEP-10 and PEEP-15 cmH2O caused significant elevations of plasma ADH from basal values of 24.9 +/- 5.2 pg/ml (mean +/- SE) to 64.6 +/- 14.2 and 106.0 +/- 20.6, respectively (P < 0.02, P < 0.005). The ADH levels returned to basal values after cessation of PEEP. This rise in ADH levels was prevented by an infusion of dextran prior to PEEP. The fall in blood pressure and cardiac output that occurred during PEEP was also prevented by the dextran infusion. Changes in ADH levels were unrelated to lung volume, left transmural pressure, and serum osmolality. Bilateral vagotomy and carotid sinus denervation was followed by an attenuated rise in ADH levels in terms of the percent rise above base line, but it did not significantly alter the absolute rise in ADH during PEEP. ADH levels were, however, reduced significantly by decreasing intracranial pressure by the removal of cerebrospinal fluid during PEEP. Propranolol administration prior to PEEP completely blocked plasma renin activity. Although the peak ADH levels were unaffected by propranolol, the rise was delayed. The results obtained indicate that a number of physiological factors may affect plasma ADH levels during PEEP. These include the carotid body and aortic arch baroreceptors as wells as sensors of intracranial pressure.
为了更精确地界定呼气末正压通气(PEEP)期间抗利尿激素(ADH)释放所涉及的各种机制,对七组犬进行了实验。10厘米水柱和15厘米水柱的PEEP使血浆ADH从基础值24.9±5.2皮克/毫升(平均值±标准误)分别显著升高至64.6±14.2和106.0±20.6(P<0.02,P<0.005)。PEEP停止后,ADH水平恢复到基础值。在PEEP之前输注右旋糖酐可防止ADH水平升高。右旋糖酐输注还可防止PEEP期间出现的血压和心输出量下降。ADH水平的变化与肺容量、左跨壁压和血清渗透压无关。双侧迷走神经切断术和颈动脉窦去神经支配后,ADH水平相对于基线升高百分比有所减弱,但并未显著改变PEEP期间ADH的绝对升高幅度。然而,在PEEP期间通过抽取脑脊液降低颅内压可显著降低ADH水平。在PEEP之前给予普萘洛尔可完全阻断血浆肾素活性。虽然普萘洛尔不影响ADH峰值水平,但升高出现延迟。所得结果表明,许多生理因素可能影响PEEP期间的血浆ADH水平。这些因素包括颈动脉体和主动脉弓压力感受器以及颅内压感受器。
