Propofol and thiopental attenuate the contractile response to vasoconstrictors in human and porcine coronary artery segments

A. P. Klockgether-Radke; A. Frerichs; D. Kettler; G. Hellige

doi:10.1046/j.1365-2346.2000.00713.x

Abstract

The effects of propofol and thiopental on three vasoconstrictors, acetylcholine, histamine, and serotonin were studied in isolated porcine and human coronary artery rings. Propofol and thiopental attenuated the contractile response to all mediators in a dose-dependent manner. This dilating effect was fairly weak using low concentrations (propofol 1 μg mL−1 and 10 μg mL−1, thiopental 5 μg mL−1 and 10 μg mL−1). In the presence of high concentrations (propofol 100 μg mL−1, thiopental 50 μg mL−1) marked relaxation was observed (propofol −32% up to −49%, P < 0,05; thiopental −23% up to −67%, P < 0.05). These dilating effects were seen both in intact and denuded rings, the differences were not significant. Human coronary artery segments were relaxed by thiopental (−22% to −76%) and propofol (−11% to −67%) to a similar extent. Our data indicate that propofol and thiopental relax isolated coronary segments in a dose-dependent manner, and that there is no evidence that these effects are dependent of endothelial factors.

Crossref Citations

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Stekiel, Thomas A. Bosnjak, Zeljko J. and Stekiel, William J. 2003. Effects of General Anesthetics on Regulation of the Peripheral Vasculature. Seminars in Cardiothoracic and Vascular Anesthesia, Vol. 7, Issue. 3, p. 311.

Brookes, Z.L. Reilly, C.S. and Brown, N.J. 2004. Differential effects of propofol, ketamine, and thiopental anaesthesia on the skeletal muscle microcirculation of normotensive and hypertensive rats in vivo. British Journal of Anaesthesia, Vol. 93, Issue. 2, p. 249.

Klockgether-Radke, A. P. Schulze, H. Neumann, P. and Hellige, G. 2004. Activation of the K+ channel BKCa is involved in the relaxing effect of propofol on coronary arteries. European Journal of Anaesthesiology, Vol. 21, Issue. 3, p. 226.

Ouattara, Alexandre Boccara, Gilles Lecomte, Patrick Souktani, Rachid Le Cosquer, Philippe Mouren, St??phane Coriat, Pierre and Riou, Bruno 2004. Amplification by Hyperoxia of Coronary Vasodilation Induced by Propofol. Anesthesia & Analgesia, p. 595.

Yamaguchi, Masakazu Shibata, Osamu Nishioka, Kenji Makita, Tetsuji and Sumikawa, Koji 2006. Propofol Attenuates Ovalbumin-Induced Smooth Muscle Contraction of the Sensitized Rat Trachea: Inhibition of Serotonergic and Cholinergic Signaling. Anesthesia & Analgesia, Vol. 103, Issue. 3, p. 594.

Skalidis, Emmanuel I. Zacharis, Evangelos A. Tsetis, Dimitrios K. Pagonidis, Kostas Chlouverakis, Gregory Yarmenitis, Spyridon Hamilos, Michalis Manios, Emmanuel G. and Vardas, Panos E. 2007. Endothelial Cell Function During Atrial Fibrillation and After Restoration of Sinus Rhythm. The American Journal of Cardiology, Vol. 99, Issue. 9, p. 1258.

Lam, Chen-Fuh Chang, Pei-Jung Chen, Yung-An Yeh, Chin-Yi and Tsai, Yu-Chuan 2010. Inhibition of ATP-sensitive potassium channels attenuates propofol-induced vasorelaxation. Critical Care and Resuscitation, Vol. 12, Issue. 3, p. 186.

Kim, Barkhwa Takada, Koji Oka, Syunichi and Misaki, Toru 2011. Influence of blood pressure on cardio-ankle vascular index (CAVI) examined based on percentage change during general anesthesia. Hypertension Research, Vol. 34, Issue. 6, p. 779.

Sinha, Sayantani Sinharoy, Pritam Bratz, Ian N. Damron, Derek S. and Romanovsky, Andrej A. 2015. Propofol Causes Vasodilation In Vivo via TRPA1 Ion Channels: Role of Nitric Oxide and BKCa Channels. PLOS ONE, Vol. 10, Issue. 4, p. e0122189.

Lopes, P. C. Ferro Nunes, N. Paula, D. P. Nishimori, C. T. D. Moro, J. V. Conceição, E. D. V. and Santos, P. S. P. 2015. Cardiopulmonary parameters in propofol- or thiopental-anesthetized dogs induced to pulmonary hypertension by serotonin. Arquivo Brasileiro de Medicina Veterinária e Zootecnia, Vol. 67, Issue. 5, p. 1231.

Aguirre, José A. Lucchinetti, Eliana Clanachan, Alexander S. Plane, Frances and Zaugg, Michael 2016. Unraveling Interactions Between Anesthetics and the Endothelium. Anesthesia & Analgesia, Vol. 122, Issue. 2, p. 330.

Haberer, J.-P. 2021. Propofol: farmacodinámica y uso práctico. EMC - Anestesia-Reanimación, Vol. 47, Issue. 1, p. 1.

de Melo, Isabela Borges Oliveira-Paula, Gustavo H. Ferezin, Letícia Perticarrara Ferreira, Graziele C. Pinheiro, Lucas C. Tanus-Santos, Jose E. Garcia, Luis V. Lacchini, Riccardo and Paula-Garcia, Waynice N. 2022. TRPA1 Polymorphisms Modify the Hypotensive Responses to Propofol with No Change in Nitrite or Nitrate Levels. Current Issues in Molecular Biology, Vol. 44, Issue. 12, p. 6333.

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Propofol and thiopental attenuate the contractile response to vasoconstrictors in human and porcine coronary artery segments

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Propofol and thiopental attenuate the contractile response to vasoconstrictors in human and porcine coronary artery segments

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