Department of Biomedical Sciences, Faculty of Health and Medical Sciences, University of Copenhagen, Copenhagen, Denmark.
J Cardiovasc Pharmacol. 2019 Jul;74(1):38-43. doi: 10.1097/FJC.0000000000000682.
Adrenaline (epinephrine) is one of the prime messengers of the fight-or-flight response, favoring the activation of β-adrenergic receptors. Although general vasoconstriction to nonessential tissues is imperative, the vasodilatory effect of β-adrenergic receptor activation contends with this. We aimed to determine the dose-dependent effects of adrenaline on hemodynamics and to test whether adrenaline could lower blood pressure (BP) through a β2-adrenergic pathway. Nineteen Danish landrace pigs were used to pharmacologically probe the hemodynamic effect of adrenaline. Pigs were anesthetized, intubated, and electrocardiogram, systolic BP (SBP), diastolic BP (DBP), and left ventricular pressure (LVP) were monitored continuously. First, we tested the dose-dependent effects of adrenaline (0.01-10 µg/kg). Second, we determined the response to adrenaline (0.3 µg/kg) after atropine, prazosin, and propranolol pretreatment. Finally, we tested the hemodynamic effect of salbutamol in a subset of pigs. All doses of adrenaline increased heart rate, while BP showed a biphasic response: At low doses, adrenaline decreased SBP from 118 ± 3 to 106 ± 4 mm Hg (n = 15; P < 0.05) and DBP from 86 ± 3 to 71 ± 3 (n = 15; P < 0.05), while at high doses, SBP and DBP increased. LVP showed a similar pattern, with a tendency of decreased pressure at low doses, and an increased pressure at high doses (P < 0.05). Pretreatment with autonomic blockers revealed that the increase in BP was due to α-adrenergic activity, while the decrease was due to β-adrenergic activity. In confirmation, β-adrenergic activation through salbutamol showed a similar decrease in SBP, DBP, and LVP. We conclude that adrenaline dose-dependently increases heart rate, while producing a biphasic response in BP with a decrease at low doses and an increase at high doses in an anesthetized, large-animal model.
肾上腺素(epinephrine)是“战斗或逃跑”反应的主要信使之一,有利于β-肾上腺素能受体的激活。尽管对非必需组织的一般血管收缩是必要的,但β-肾上腺素能受体激活的血管舒张作用与之竞争。我们旨在确定肾上腺素对血液动力学的剂量依赖性影响,并测试肾上腺素是否可以通过β2-肾上腺素能途径降低血压(BP)。使用 19 头丹麦长白猪来药理学探测肾上腺素的血液动力学效应。猪被麻醉、插管,并连续监测心电图、收缩压(SBP)、舒张压(DBP)和左心室压力(LVP)。首先,我们测试了肾上腺素(0.01-10μg/kg)的剂量依赖性效应。其次,我们确定了在阿托品、哌唑嗪和普萘洛尔预处理后对肾上腺素(0.3μg/kg)的反应。最后,我们在一组猪中测试了沙丁胺醇的血液动力学效应。所有剂量的肾上腺素均增加心率,而血压表现出双相反应:在低剂量时,肾上腺素使 SBP 从 118±3mmHg 降至 106±4mmHg(n=15;P<0.05),DBP 从 86±3mmHg 降至 71±3mmHg(n=15;P<0.05),而在高剂量时,SBP 和 DBP 增加。LVP 也呈现出类似的模式,在低剂量时压力有下降的趋势,而在高剂量时压力有上升的趋势(P<0.05)。自主神经阻滞剂的预处理表明,血压升高是由于α-肾上腺素能活性,而降低是由于β-肾上腺素能活性。在确认中,通过沙丁胺醇激活β-肾上腺素能作用显示出类似的 SBP、DBP 和 LVP 降低。我们的结论是,在麻醉的大动物模型中,肾上腺素剂量依赖性地增加心率,同时在血压中产生双相反应,在低剂量时降低,在高剂量时增加。
