Downing S E, Lee J C
Am J Physiol. 1983 Feb;244(2):H222-7. doi: 10.1152/ajpheart.1983.244.2.H222.
Adrenergically mediated inotropic and chronotropic responses to hypoxemia were studied in 12 neonatal lambs ranging from 1 to 10 days of age. Six lambs were adrenalectomized (Adnx) and six were sham operated. Inotropic changes were assessed from measurements of left ventricular dP/dtmax under controlled hemodynamic conditions. Atropine (1 mg) was given and hypoxia produced by adding N2 to the respirator. In the sham-operated lambs, dP/dtmax increased as a function of the level of hypoxemia. With a mean arterial O2 partial pressure (PaO2) of 21.7 +/- 2.0 Torr, dP/dtmax averaged 17 X 10(2) mmHg/s above control values. Adnx did not reduce resting dP/dtmax, but comparable levels of hypoxemia elicited a much smaller increase (5 X 10(2) mmHg/s) in this group (P less than 0.02). In the sham-operated lambs, ganglionic blockade with tetraethylammonium chloride (TEAC, 100 mg) reduced the hypoxic response to similar values (6.5 X 10(2) mmHg/s). These residual inotropic responses were completely abolished by beta-adrenergic blockade with practolol (4 mg/kg). Chronotropic changes were identical in both groups (18.7 beats/min) and abolished by TEAC alone. It is concluded that the major fraction of adrenergic inotropic stimulation during hypoxemia is derived from the adrenal glands and that autonomic neural function is essential to the release process. Heart rate responses are independent of adrenal integrity. A residual source of inotropic stimulation, blocked by practolol, is derived from unidentified sources.
对12只1至10日龄的新生羔羊进行了肾上腺素能介导的低氧血症性变力性和变时性反应的研究。6只羔羊进行了肾上腺切除术(Adnx),6只进行了假手术。在可控的血流动力学条件下,通过测量左心室dP/dtmax评估变力性变化。给予阿托品(1毫克),并通过向呼吸机中添加氮气产生低氧血症。在假手术的羔羊中,dP/dtmax随着低氧血症水平的升高而增加。当平均动脉血氧分压(PaO2)为21.7±2.0托时,dP/dtmax平均比对照值高出17×10²毫米汞柱/秒。肾上腺切除术并未降低静息dP/dtmax,但在该组中,同等程度的低氧血症引起的增加要小得多(5×10²毫米汞柱/秒)(P<0.02)。在假手术的羔羊中,用氯化四乙铵(TEAC,100毫克)进行神经节阻滞可将低氧反应降低至相似值(6.5×10²毫米汞柱/秒)。这些残余的变力性反应被心得宁(4毫克/千克)的β-肾上腺素能阻滞完全消除。两组的变时性变化相同(18.7次/分钟),且仅被TEAC消除。结论是,低氧血症期间肾上腺素能变力性刺激的主要部分来自肾上腺,自主神经功能对释放过程至关重要。心率反应与肾上腺完整性无关。被心得宁阻断的变力性刺激的残余来源来自不明来源。
