A Decerebrate Preparation of the Rattlesnake, Crotalus durissus, Provides an Experimental Model for Study of Autonomic Modulation of the Cardiovascular System in Reptiles.

IF 1.8 3区 生物学 Q3 PHYSIOLOGY
Gabriella Campos Rocha, Samanta Aparecida Castro, Edwin William Taylor, Driele Tavares, Cleo Alcantara Costa Leite
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引用次数: 3

Abstract

AbstractThe South American rattlesnake, Crotalus durissus, has been successfully used as an experimental model to study control of the cardiovascular system in squamate reptiles. Recent technical advances, including equipment miniaturization, have lessened the impact of instrumentation on in vivo recordings, and an increased range of anesthetic drugs has improved recording conditions for in situ preparations. Nevertheless, any animal-based experimental approach has to manage limitations regarding the avoidance of pain and stress the stability of the preparation and duration of experiments and the potentially overriding effects of anesthesia. To address such aspects, we tested a new experimental preparation, the decerebrate rattlesnake, in a study of the autonomic control of cardiovascular responses following the removal of general anesthesia. The preparation exhibited complex cardiovascular adjustments to deal with acute increases in venous return (caused by tail lifting), to compensate for blood flow reduction in the cephalic region (caused by head lifting), for body temperature control (triggered by an external heating source), and in response to stimulation of chemoreceptors (triggered by intravenous injection of NaCN). The decerebrate preparation retained extensive functional integrity of autonomic centers, and it was suitable for monitoring diverse cardiac and vascular variables. Furthermore, reanesthetizing the preparation markedly blunted cardiovascular performance. Isoflurane limited the maintenance of recovered cardiovascular variables in the prepared animal and reduced or abolished the observed cardiovascular reflexes. This preparation enables the recording of multiple concomitant cardiovascular variables for the study of mechanistic questions regarding the central integration of autonomic reflex responses in the absence of anesthesia.

响尾蛇(Crotalus durissus)的脱脑制备为研究爬行动物心血管系统的自主调节提供了实验模型。
摘要以南美响尾蛇(Crotalus durissus)为实验对象,成功地研究了有鳞爬行动物心血管系统的控制。最近的技术进步,包括设备小型化,减少了仪器对体内记录的影响,麻醉药物范围的增加改善了原位制备的记录条件。然而,任何以动物为基础的实验方法都必须考虑到避免疼痛和压力、实验准备和持续时间的稳定性以及麻醉的潜在压倒性影响等方面的局限性。为了解决这些问题,我们测试了一种新的实验制剂,去脑响尾蛇,在研究全身麻醉后心血管反应的自主控制。该制剂表现出复杂的心血管调节,以应对静脉回流的急性增加(由尾巴抬起引起),补偿头区血流减少(由头部抬起引起),体温控制(由外部热源触发),以及对化学感受器刺激的反应(由静脉注射NaCN触发)。脱脑制剂保留了自主神经中枢广泛的功能完整性,适用于监测各种心脏和血管变量。此外,再麻醉制剂明显减弱心血管功能。异氟醚限制了制备动物恢复后心血管变量的维持,并减少或消除了观察到的心血管反射。这种准备可以记录多个伴随的心血管变量,用于研究在没有麻醉的情况下自主神经反射反应的中枢整合的机制问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.20
自引率
6.20%
发文量
62
审稿时长
6-12 weeks
期刊介绍: Physiological and Biochemical Zoology: Ecological and Evolutionary Approaches primarily publishes original research in animal physiology and biochemistry as considered from behavioral, ecological, and/or evolutionary perspectives. Studies at all levels of biological organization from the molecular to the whole organism are welcome, and work that integrates across levels of organization is particularly encouraged. Studies that focus on behavior or morphology are welcome, so long as they include ties to physiology or biochemistry, in addition to having an ecological or evolutionary context. Subdisciplines of interest include nutrition and digestion, salt and water balance, epithelial and membrane transport, gas exchange and transport, acid-base balance, temperature adaptation, energetics, structure and function of macromolecules, chemical coordination and signal transduction, nitrogen metabolism and excretion, locomotion and muscle function, biomechanics, circulation, behavioral, comparative and mechanistic endocrinology, sensory physiology, neural coordination, and ecotoxicology ecoimmunology.
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