Den Boer M O, Van Woerkens L J, Somers J A, Duncker D J, Lachmann B, Saxena P R, Verdouw P D
Department of Pharmacology, Cardiovascular Research Institute COEUR, Rotterdam, The Netherlands.
J Appl Physiol (1985). 1993 Aug;75(2):782-9. doi: 10.1152/jappl.1993.75.2.782.
In conscious pigs, arteriovenous anastomoses (AVAs) are in a constricted state so that < 5% of intra-atrially injected radioactive (15-microns-diam) microspheres are shunted to the lungs. Many of the anesthetic regimens frequently used in cardiovascular research dilate AVAs, thereby greatly increasing the percentage of microspheres reaching the lungs. This may seriously limit extrapolation of results obtained under anesthesia to the conscious state. We now describe that anesthesia with a combination of fentanyl and thiopental preserves the tone of AVAs, maintaining shunting under 4% of cardiac output. Furthermore, we studied in the carotid circulation of this model whether norepinephrine or 5-hydroxy-tryptamine (5-HT), both contained in perivascular nerves, is responsible for this tone. Consecutive antagonism of alpha 1-, alpha 2-, 5-HT1, and 5-HT2 receptors was obtained by sequential injection of prazosin, phentolamine, ketanserin, and methiothepin. Prazosin increased AVA blood flow, partly at the expense of extracerebral tissue blood flow, but preserved cerebral blood flow. None of the other antagonists had any additional significant effect. Therefore, in this model the tone in AVAs seems to be maintained by sympathetic norepinephrine-containing nerves via alpha 1-adrenoceptors.
在清醒猪中,动静脉吻合支(AVA)处于收缩状态,以至于经心房内注射的放射性(直径15微米)微球仅有不到5%分流至肺。心血管研究中常用的许多麻醉方案会使AVA扩张,从而大大增加到达肺的微球百分比。这可能会严重限制将麻醉状态下获得的结果外推至清醒状态。我们现在描述,芬太尼和硫喷妥钠联合麻醉可保持AVA的张力,使分流维持在低于心输出量的4%。此外,我们在该模型的颈动脉循环中研究了血管周围神经中所含的去甲肾上腺素或5-羟色胺(5-HT)是否对此张力负责。通过依次注射哌唑嗪、酚妥拉明、酮色林和甲硫噻平,可依次拮抗α1、α2、5-HT1和5-HT2受体。哌唑嗪增加了AVA血流,部分是以牺牲脑外组织血流为代价,但保留了脑血流。其他拮抗剂均未产生任何额外的显著影响。因此,在该模型中,AVA的张力似乎由含去甲肾上腺素的交感神经通过α1肾上腺素能受体维持。
