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Immunological Investigations
A Journal of Molecular and Cellular Immunology
Volume 46, 2017 - Issue 8
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Original Articles

Volatile Anesthetics and Immunity

Siavash SedghiDepartment of AnesthesiologyView further author information
,
Hilliard L KutscherInstitute for Lasers, Photonics and Biophotonics, University of Buffalo, State University of New York, Buffalo, NYUSAView further author information
,
Bruce A DavidsonDepartment of AnesthesiologyView further author information
&
Paul R KnightDepartment of AnesthesiologyCorrespondence[email protected]
View further author information
Pages 793-804 | Published online: 23 Oct 2017

References

  • Abbas AK, Lichtman AH, Pillai S. (2015). Basic immunology: functions and disorders of the immune system. Elsevier, Philadelphia, PA.
  • Asimakopoulos G. (2001). Systemic inflammation and cardiac surgery: an update. Perfusion, 16, 353–60.
  • Borish LC, Steinke JW. (2003). 2. Cytokines and chemokines. J Allergy Clin Immunol, 111, S460–S75.
  • Bousquet J, Jeffery PK, Busse WW, et al. (2000). Asthma: from bronchoconstriction to airways inflammation and remodeling. Am J Resp Crit Care, 161, 1720–45.
  • Burburan S, Silva J, Abreu S, et al. (2014). Effects of inhalational anaesthetics in experimental allergic asthma. Anaesthesia, 69, 573–82.
  • Chiang N, Schwab JM, Fredman G, et al. (2008). Anesthetics impact the resolution of inflammation. PLoS One, 3, e1879.
  • Cullen BF. (1974). The effect of halothane and nitrous oxide on phagocytosis and human leukocyte metabolism. Anesth Analg, 53, 531–35.
  • Curran DR, Cohn L. (2010). Advances in mucous cell metaplasia: a plug for mucus as a therapeutic focus in chronic airway disease. Am J Resp Cell Mol, 42, 268–75.
  • Davidson BA, Vethanayagam RR, Grimm MJ, et al. (2013). NADPH oxidase and Nrf2 regulate gastric aspiration–induced inflammation and acute lung injury. J Immunol, 190, 1714–24.
  • Donovan C. (1968). The influence of diethyl ether inhalation on experimental canine distemper. Vet Med Small Anim Clin, 63, 345.
  • Drobin D, Hahn RG. (1995). Leukocytosis after fluid loading and induction of epidural anesthesia. J Anesth, 9, 235–38.
  • Eger EI. (2004). Characteristics of anesthetic agents used for induction and maintenance of general anesthesia. Am J Health-Syst Ph, 61, S3.
  • Flondor M, Hofstetter C, Boost K, et al. (2007). Isoflurane inhalation after induction of endotoxemia in rats attenuates the systemic cytokine response. Eur Surg Res, 40, 1–6.
  • Giraud O, Seince P-F, Rolland C, et al. (2000). Halothane reduces the early lipopolysaccharide-induced lung inflammation in mechanically ventilated rats. Am J Resp Crit Care, 162, 2278–86.
  • Glantz L, Ginosar Y, Chevion M, et al. (1997). Halothane prevents postischemic production of hydroxyl radicals in the canine heart. Anesthesiology, 86, 440–47.
  • Heine J, Jaeger K, Osthaus A, et al. (2000). Anaesthesia with propofol decreases FMLP‐induced neutrophil respiratory burst but not phagocytosis compared with isoflurane. Brit J Anaesth, 85, 424–30.
  • Hemmings HC, Egan TD. (2013). Pharmacology and physiology for anesthesia: foundations and clinical application. Elsevier/Saunders, Philadelphia, PA.
  • Hofstetter C, Flondor M, Boost KA, et al. (2005). A brief exposure to isoflurane (50 s) significantly impacts on plasma cytokine levels in endotoxemic rats. Int Immunopharmacol, 5, 1519–22.
  • Hsing C-H, Wang -J-J. (2015). Clinical implication of perioperative inflammatory cytokine alteration. Acta Anaesth Taiwan, 53, 23–28.
  • Inada T, Yamanouchi Y, Jomura S, et al. (2004). Effect of propofol and isoflurane anaesthesia on the immune response to surgery. Anaesthesia, 59, 954–59.
  • Karandikar NJ, Hotchkiss EC, McKenna RW, Kroft SH. (2002). Transient stress lymphocytosis. Am J Clin Pathol, 117, 819–25.
  • Kenna J, Satoh H, Christ D, Pohl L. (1988). Metabolic basis for a drug hypersensitivity: antibodies in sera from patients with halothane hepatitis recognize liver neoantigens that contain the trifluoroacetyl group derived from halothane. J Pharmacol Exp Ther, 245, 1103–09.
  • Kevin LG, Novalija E, Riess ML, et al. (2003). Sevoflurane exposure generates superoxide but leads to decreased superoxide during ischemia and reperfusion in isolated hearts. Anesth Analg, 96, 949–55.
  • Kevin LG, Novalija E, Stowe DF. (2005). Reactive oxygen species as mediators of cardiac injury and protection: the relevance to anesthesia practice. Anesth Analg, 101, 1275–87.
  • Kong H, Zhu S, Wang L, et al. (2010). Sevoflurane protects against acute kidney injury in a small-size liver transplantation model. Am J Nephrol, 32, 347–55.
  • Kong Y, Le Y. (2011). Toll-like receptors in inflammation of the central nervous system. Int Immunopharmacol, 11, 1407–14.
  • Kotani N, Hashimoto H, Sessler DI, et al. (1998). Intraoperative modulation of alveolar macrophage function during isoflurane and propofol anesthesia. Anesthesiology, 89, 1125–32.
  • Koutsogiannaki S, Schaefers MM, Okuno T, et al. (2016). Prolonged exposure to volatile anesthetic isoflurane worsens the outcome of polymicrobial abdominal sepsis. Toxicol Sci, kfw261, Toxicol Sci. 2017 Apr 1; 156(2): 402–411.
  • Kowalski C, Zahler S, Becker BF, et al. (1997). Halothane, isoflurane, and sevoflurane reduce postischemic adhesion of neutrophils in the coronary system. Anesthesiology, 86, 188–95.
  • Kubin A-M, Skoumal R, Tavi P, et al. (2011). Role of reactive oxygen species in the regulation of cardiac contractility. J Mol Cell Cardiol, 50, 884–93.
  • Lawrance CC, Lucas EA, Clarke SL, et al. (2009). Differential effects of isoflurane and CO 2 inhalation on plasma levels of inflammatory markers associated with collagen-induced arthritis in DBA mice. Int Immunopharmacol, 9, 807–09.
  • Liang Y, Li Z, Mo N, et al. (2014). Isoflurane preconditioning ameliorates renal ischemia-reperfusion injury through antiinflammatory and antiapoptotic actions in rats. Biol Pharm Bull, 37, 1599–605.
  • Loop T, Dovi-Akue D, Frick M, et al. (2005). Volatile anesthetics induce caspase-dependent, mitochondria-mediated apoptosis in human T lymphocytes in vitro. Anesthesiology, 102, 1147–57.
  • MacDonald BA, Chakravarthy KV, Davidson BA, et al. (2015). Halothane modulates the type i interferon response to influenza and minimizes the risk of secondary bacterial pneumonia through maintenance of neutrophil recruitment in an animal model. Anesthesiology, 123, 590–602.
  • Markovic SN, Knight PR, Murasko DM. (1993). Inhibition of interferon stimulation of natural killer cell activity in mice anesthetized with halothane or isoflurane. Anesthesiology, 78, 700–06.
  • Meara JG, McClain CD, Jr SO R, Mooney DP. (2014). Global surgery and anesthesia manual: providing care in resource-limited settings. CRC Press, Boca Raton, FL.
  • Miller RD, Eriksson LI. (2015). Miller’s anesthesia. Elsevier Health Sciences, Philadelphia, PA.
  • Miller RD, Pardo M. (2011). Basics of anesthesia. Elsevier Health Sciences, Philadelphia, PA.
  • Mittal M, Siddiqui MR, Tran K, et al. (2014). Reactive oxygen species in inflammation and tissue injury. Antioxid Redox Sign, 20, 1126–67.
  • Mobert J, Zahler S, Becker BF, Conzen PF. (1999). Inhibition of neutrophil activation by volatile anesthetics decreases adhesion to cultured human endothelial cells. Anesthesiology, 90, 1372–81.
  • Morisaki H, Aoyama Y, Shimada M, et al. (1998). Leucocyte distribution during sevoflurane anaesthesia. Brit J Anaesth, 80, 502–03.
  • Nader ND, Li CM, Khadra WZ, et al. (2004). Anesthetic myocardial protection with sevoflurane. J Cardiothor Vasc An, 18, 269–74.
  • Nader-Djalal N, Knight PR, Bacon MF, et al. (1998). Alterations in the course of acid-induced lung injury in rats after general anesthesia: volatile anesthetics versus ketamine. Anesth Analg, 86, 141–46.
  • Nakamura T, Kashimoto S, Oguchi T, Kumazawa T. (1999). Hydroxyl radical formation during inhalation anesthesia in the reperfused working rat heart. Can J Anesth, 46, 470–75.
  • Nason KS. (2015). Acute intraoperative pulmonary aspiration. Thorac Surg Clin, 25, 301–07.
  • Nicoll A, Moore D, Njoku D, Hockey B. (2012). Repeated exposure to modern volatile anaesthetics may cause chronic hepatitis as well as acute liver injury. BMJ Case Rep, 2012, bcr2012006543.
  • Olsson T, Zhi WW, Höjeberg B, et al. (1990). Autoreactive T lymphocytes in multiple sclerosis determined by antigen-induced secretion of interferon-gamma. J Clin Invest, 86, 981.
  • Park JS, Svetkauskaite D, He Q, et al. (2004). Involvement of toll-like receptors 2 and 4 in cellular activation by high mobility group box 1 protein. J Biol Chem, 279, 7370–77.
  • Polak PE, Dull RO, Kalinin S, et al. (2012). Sevoflurane reduces clinical disease in a mouse model of multiple sclerosis. J Neuroinflamm, 9, 1.
  • Raghavendran K, Nemzek J, Napolitano LM, Knight PR. (2011). Aspiration-induced lung injury. Crit Care Med, 39, 818.
  • Ransohoff RM. (2012). Animal models of multiple sclerosis: the good, the bad and the bottom line. Nat Neurosci, 15, 1074–77.
  • Reichle FM, Conzen PF. (2003). Halogenated inhalational anaesthetics. Best Pract Res Clin Anaesthesiol, 17, 29–46.
  • Reutershan J, Chang D, Hayes JK, Ley K. (2006). Protective effects of isoflurane pretreatment in endotoxin-induced lung injury. Anesthesiology, 104, 511–17.
  • Riess ML, Kevin LG, McCormick J, et al. (2005). Anesthetic preconditioning: the role of free radicals in sevoflurane-induced attenuation of mitochondrial electron transport in Guinea pig isolated hearts. Anesth Analg, 100, 46–53.
  • Rubin G. (1904). The influence of alcohol, ether, and chloroform on natural immunity in its relation to leucocytosis and phagocytosis. Jpn J Infect Dis, 1, 425–44.
  • Saini HK, Xu Y-J, Zhang M, et al. (2005). Role of tumour necrosis factor-alpha and other cytokines in ischemia-reperfusion-induced injury in the heart. Exp Clin Cardiol, 10, 213.
  • Sawa Y, Ichikawa H, Kagisaki K, et al. (1998). Interleukin-6 derived from hypoxic myocytes promotes neutrophil-mediated reperfusion injury in myocardium. J Thorac Cardiov Sur, 116, 511–17.
  • Segal BH, Davidson BA, Hutson AD, et al. (2007). Acid aspiration-induced lung inflammation and injury are exacerbated in NADPH oxidase-deficient mice. Am J Physiol-Lung C, 292, L760–L8.
  • Snow J. (1855). On the mode of communication of cholera. John Churchill, London, England.
  • Sun XJ, Li XQ, Wang XL, et al. (2015). Sevoflurane Inhibits Nuclear Factor-κB Activation in Lipopolysaccharide-Induced Acute Inflammatory Lung Injury via Toll-Like Receptor 4 Signaling. PloS One, 10, e0122752.
  • Tait AR, Du Boulay PM, Knight PR. (1988). Alterations in the course of and histopathologic response to influenza virus infections produced by enflurane, halothane, and diethyl ether anesthesia in ferrets. Anesth Analg, 67, 671–76.
  • Tait AR, Knight PR. (1987). The effects of general anesthesia on upper respiratory tract infections in children. Anesthesiology, 67, 930–35.
  • Tanguay M, Blaise G, Dumont L, et al. (1991). Beneficial effects of volatile anesthetics on decrease in coronary flow and myocardial contractility induced by oxygen-derived free radicals in isolated rabbit hearts. J Cardiovasc Pharm, 18, 863–70.
  • Tyther R, Fanning N, Halligan M, et al. (2001). The effect of the anaesthetic agent isoflurane on the rate of neutrophil apoptosisin vitro. Irish J Med Sci, 170, 41–44.
  • Tyther R, O’brien J, Wang J, et al. (2003). Effect of sevoflurane on human neutrophil apoptosis. Eur J Anaesth, 20, 111–15.
  • Wada H, Seki S, Takahashi T, et al. (2007). Combined spinal and general anesthesia attenuates liver metastasis by preserving TH1/TH2 cytokine balance. Anesthesiology, 106, 499–506.
  • Xiang M, Fan J. (2010). Pattern recognition receptor-dependent mechanisms of acute lung injury. Mol Med. 2010 Jan-Feb; 16(1–2), 69–82.
  • Yang H, Liang G, Hawkins BJ, et al. (2008). Inhalational anesthetics induce cell damage by disruption of intracellular calcium homeostasis with different potencies. Anesthesiology, 109, 243–50.
  • Yang Q, Dong H, Deng J, et al. (2011). Sevoflurane preconditioning induces neuroprotection through reactive oxygen species-mediated up-regulation of antioxidant enzymes in rats. Anesth Analg, 112, 931–37.
  • Yu Q, Li H, Li L, et al. (2014). Sevoflurane downregulates interleukin-6 and interleukin-8 levels in patients after cardiopulmonary bypass surgery: a meta-analysis. Genet Mol Res. 2015 Dec 29;14(4), 19016–27.
  • Yue T, Z’graggen BR, Blumenthal S, et al. (2008). Postconditioning with a volatile anaesthetic in alveolar epithelial cells in vitro. Eur Respir J, 31, 118–25.
  • Zeng M, Wei X, Wu Z, et al. (2013). NF-κB-mediated induction of autophagy in cardiac ischemia/reperfusion injury. Biochem Biophys Res Commun, 436, 180–85.
  • Zhong C, Zhou Y, Liu H. (2004). Nuclear factor κB and anesthetic preconditioning during myocardial ischemia-reperfusion. Anesthesiology, 100, 540–46.

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