1. American Society of Anesthesiologists (October 2003) ASA Standards, Guidelines and Statements. American Society of Anesthesiologists, Park Ridge, IL.

2. Eger, E.I., II (1974) Uptake of inhaled anesthetics: the alveolar to impaired anesthetic difference, in Anesthetic Uptake and Action (Eger, E.I., II, ed.), Williams and Wilkins, Baltimore, MD, p. 77.

3. Stevens, W., Cromwell, T., Halsey, M., et al. (1971) The cardiovascular effects of a new inhalation anesthetic, Forane, in human volunteers at constant arterial carbon dioxide tension. Anesthesiology. 35, 8-16.

4. Eger, E.I. II, Smith, N., and Stoelting, R., et al. (1970) Cardiovascular effects of halothane in man. Anesthesiology. 32, 396-489.

5. Weiskopf, R., Cahalan, M., Eger, E.I., II, et al. (1991) Cardiovascular actions of desflurane in normocarbic volunteers. Anesth Analg. 73, 143-156.

6. Holaday, D. and Smith, F. (1981) Clinical characteristics and biotransformation of sevoflurane in healthy human volunteers. Anes-thesiology. 54, 100-106.

7. Pavlin, E.G. and Su, J.Y. (1994) Cardiopulmonary pharmacology, in Anesthesia (Miller, R, ed.), Churchill Livingstone, Philadelphia, PA, p. 145.

8. Muzi, M. and Ebert, T.J. (1995) A comparison of baroreflex sensitivity during isoflurane and desflurane anesthesia in humans. Anes-thesiology. 82, 919-925.

9. Duke, P.C., Townes, D., and Wade, J.G. (1977) Halothane depresses baroreflex control of heart rate in man. Anesthesiology. 46, 184-187.

10. Kotrly, K.J., Ebert, T.J., Vucins, E., et al. (1984) Baroreceptor reflex control of heart rate during isoflurane anesthesia in humans. Anesthesiology. 60, 173-179.

11. Atlee, J.L. and Bosnjak, Z.J. (1990) Mechanisms for cardiac dysrhythmias during anesthesia. Anesthesiology. 72, 347-374.

12. Navarro, R., Weiskopf, R.B., Moore, M.A., et al. (1994) Humans anesthetized with sevoflurane or isoflurane have similar arrhythmic response to epinephrine. Anesthesiology. 80, 545-549.

13. Moore, M.A., Weiskopf, R.B., Eger, E.I., et al. (1994) Arrhyth-mogenic doses of epinephrine are similar during desflurane or isoflurane anesthesia in humans. Anesthesiology. 79, 943-947.

14. Johnston, R.R., Eger, E.I., and Wilson, C. (1976) A comparative interaction of epinephrine with enflurane, isoflurane, and halothane in man. Anesth Analg. 55, 709-712.

15. Crystal, G.J., Khoury, E., Gurevicius, J., and Salem, M.R. (1995) Direct effects of halothane on coronary blood flow, myocardial oxygen consumption, and myocardial segmental shortening in in situ canine hearts. Anesth Analg. 80, 256-262.

16. Crystal, G.J. and Salem, M.R. (2003) Isoflurane causes vasodilation in the coronary circulation. Anesthesiology. 98, 1030.

17. Priebe, H. and Foex, P. (1987) Isoflurane causes regional myocardial dysfunction in dogs with critical coronary artery stenoses. Anesthe-siology. 66, 293-300.

18. Cason, B.A., Verrier, E.D., London, M.J., et al. (1987) Effects of isoflurane and halothane on coronary vascular resistance and collateral myocardial blood flow: their capacity to induce coronary steal. Anesthesiology. 67, 665-675.

19. Kersten, J.R., Brayer, A.P., Pagel, P.S., et al. (1994) Perfusion of ischemic myocardium during anesthesia with sevoflurane. Anesthesiology. 81, 995-1004.

20. Eger, E. (1994) New inhaled anesthetics. Anesthesiology. 80, 906-922.

21. Pavlin, E.G. and Su, J.Y. (1994) Cardiopulmonary pharmacology, in Anesthesia (Miller R, ed.), Churchill Livingstone, Philadelphia, PA, p. 148.

22. Rivenes, S.M., Lewin, M.B., Stayer, S.A., et al. (2001) Cardiovascular effects of sevoflurane, isoflurane, halothane, and fentanyl-midazolam in children with congenital heart disease. Anesthesiology. 94, 223-229.

23. Stoelting, R.K. (1999) Pharmacology and Physiology in Anesthetic Practice, 3rd Ed. Lippincott, Williams, and Wilkins, Philadelphia, PA.

24. Muzi, M., Ebert, T.J., Hope, W.G., et al. (1996) Site(s) mediating sympathetic activation with desflurane. Anesthesiology. 85, 737-747.

25. Warltier, D.C., Al Wathiqui, M.H., Kampine, J.P., et al. (1988) Recovery of contractile function of stunned myocardium in chronically instrumented dogs is enhanced by halothane or isoflurane. Anesthesiology. 69, 552-565.

26. Marijic, J., Stowe, D.F., Turner, L.A., et al. (1990) Differential protective effects of halothane and isoflurane against hypoxic and reoxygenation injury in the isolated guinea pig heart. Anesthesiol-ogy. 73, 976-983.

27. Novalija, E., Fujita, S., Kampine, J.P., et al. (1999) Sevoflurane mimics ischemic preconditioning effects on coronary flow and nitric oxide release in isolated hearts. Anesthesiology. 91, 701-712.

28. Conzen, P.F., Fischer, S., Detter, C., et al. (2003) Sevoflurane provides greater protection of myocardium than propofol in patients undergoing off-pump coronary artery bypass surgery. Anesthesiol-ogy. 99, 826-833.

29. Murray, C.E., Jennings, R.B., and Reimer, K.A. (1986) Preconditioning with ischemia: a delay of lethal cell injury in ischemic myocardium. Circulation. 74, 1124-1136.

30. Zaugg, M., Lucchinetti, E., Spahn, D.R., et al. (2002) Volatile anesthetics mimic cardiac preconditioning by priming the activation of mitochondrial KATP channels via multiple signaling pathways. Anes-thesiology. 97, 4-14.

31. Cullen, S.C. and Gross, E.G. (1951) The anesthetic properties of xenon in animals and human beings with additional observation on krypton. Science. 1113, 580-582.

32. Rossaint, R., Reyle-Hahn, R., Schulte, J., et al. (2003) Multicenter randomized comparison of the efficacy and safety of xenon and isoflurane in patients undergoing elective surgery. Anesthesiology. 98, 6-13.

33. Lachmann, B., Armbruster, S., Schairer, W., et al. (1990) Safety and efficacy of xenon in routine use as an inhalational anesthetic. Lancet. 335, 1413-1415.

34. Luttrop, H.H., Romner, B., Perhag, L., et al. (1993) Left ventricular performance and cerebral hemodynamics during xenon anesthesia: a transesophageal echocardiography and transcranial Doppler sonography study. Anesthesia. 48, 1045-1049.

35. Stowe, D.F.,Rehmert, G.C., Wai-Meng, K., et al. (2000) Xenon does not alter cardiac function or major cation currents in isolated guinea pig hearts of myocytes. Anesthesiology. 92, 516-522.

36. Franks, N.P. and Lieb, W.R. (1994) Molecular and cellular mechanisms of general anaesthesia. Nature. 367, 607-614.

37. Seltzer, J.L., Gerson, J.I., and Allen, F.B. (1980) Comparison of the cardiovascular effects of bolus vs incremental administration of thio-pentone. Br J Anaesth. 52, 527-529.

38. Sunzel, M., Paalzow, L., Berggren, L., et al. (1988) Respiratory and cardiovascular effects in relation to plasma levels of midazolam and diazepam. Br J Clin Pharmacol. 25, 561569.

39. McCammon, R.L., Hilgenberg, J.C., Stoelting, R.K. (1980) Hemodynamic effects of diazepam-nitrous oxide in patients with coronary artery disease. Anesth Analg. 59, 438-441.

40. Hanouz, J., Yvon, A., Guesne, G., et al. (2001) The in vitro effects of remifentanil, sufentanil, fentanyl, and alfentanil on isolated human right atria. Anesth Analg. 93, 543-549.

41. Kanaya, N., Kahary, D.R., Murray, P.A., and Damron, D.S. (1998) Differential effects of fentanyl and morphine on intracellular calcium transients and contraction in rate ventricular myocytes. Anes-thesiology. 89, 1532-1542.

42. Waxman, K., Shoemaker, W.C., and Lippmann, M. (1980) Cardiovascular effects of anesthetic induction with ketamine. Anesth Analg. 58, 355-358.

43. Robinson, J.F., Ebert, T.J., O'Brien, T.J., et al. (1997) Mechanisms whereby propofol mediates peripheral vasodilation in humans. Sympathoinhibition or direct vascular relaxation? Anesthesiology. 86, 64-72.

44. Bray, R.J. (1995) Fatal myocardial failure associated with a propofol infusion in a child. Anaesthesia. 50, 94.

45. Tramer, M.R., Moore, R.A., and McQuay, H.J. (1997) Propofol and bradycardia: causation, frequency and severity. Br J Anaesth. 78, 642-651.

46. James, M.F.M., Reyneke, C.J., and Whiffler, K. (1989) Heart block following propofol: a case report. Br J Anaesth. 62, 213-215.

47. Sprun, J., Lgletree-Hughes, M.L., McConnell, B.K., et al. (2001) The effects of propofol on the contractility of failing and nonfailing human heart muscles. Anesth Analg. 93, 550-559.

48. Kissin, I., Motomura, S., Aultman, D.F., et al. (1983) Inotropic and anesthetic potencies of etomidate and thiopental in dogs. Anesth Analg. 62, 961-965.

49. Fragen, R.J., Shanks, C.A., Molteni, A., et al. (1984) Effects of etomidate on hormonal responses to surgical stress. Anesthesiology. 61, 652-656.

50. Wagner, R.L., White, P.F., Kan, P.B., et al. (1984) Inhibition of adrenal steroidogensis by anesthetic etomidate. N Engl J Med. 310, 1415-1421.

51. Ivankovich, A.D., Miletich, D.J., Albrecht, R.F., et al. (1975) The effect of pancuronium on myocardial contraction and catecholamine metabolism. J Pharm Pharmacol. 27, 837-841.

52. Domenech, J.S., Garcia, R.C., Sastain, J.M.R., et al. (1976) Pancuronium bromide: an indirect sympathomimetic agent. Br J Anaesth. 48, 1143-1148.

53. Han, J.S. (1986) Physiologic and neurochemical basis of acupuncture analgesia, in The International Textbook of Cardiology (Cheng, T.O., ed.), Pergamon, New York, NY, pp. 1124-1126.

54. Felhendler, D.P.T. and Lisander, B. (1996) Pressure on acupoints decreases postoperative pain. Clin J Pain. 12, 326-329.

55. Li, P., Pitsillides, K.F., Rendig, S.V., et al. (1998) Reversal of reflex-induced myocardial ischemia by median nerve stimulation: a feline model of electroacupuncture. Circulation. 97, 1186-1194.

56. Stein, D.J., Birnbach, D.J., Danzer, B.I., et al. (1997) Acupressure versus intravenous metoclopramide to prevent nausea and vomiting during spinal anesthesia for cesarean section. Anesth Analg. 84, 342-345.

57. Acupuncture. NIH Consensus Conference. JAMA. (1998) 280, 1518-1524.

58. Sessler, D.I. (1997) Mild perioperative hypothermia. N Engl J Med. 336, 1630-1637.

59. Hanouz, J., Yvon, A., Massetti, M., et al. (2002) Mechanisms of desflurane-induced preconditioning in isolated human right atria in vitro. Anesthesiology. 97, 33-41.

60. Kersten, J.R., Schmeling, T.J., Hettrick, D.A., et al. (1996) Mechanism of myocardial protection by isoflurane: role of adenosine triph-osphate-regulated potassium (KATP) channels. Anesthesiology. 85, 794-807.

61. Belhomme, D., Peynet, J., Louzy, M., et al. (1999) Evidence for preconditioning by isoflurane in coronary artery bypass graft surgery. Circulation. 100, II340-II344.

62. De Hert, S., ten Broeck, P., Mertens, E., et al. (2002) Sevoflurane but not propofol preserves myocardial function in coronary surgery patients. Anesthesiology. 97, 42-49.

63. Sigg, D.C., Coles, J.A., Jr., Gallagher, W.J., Oeltgen, P.R., and Iaizzo, P.A. (2001) Opioid preconditioning: myocardial function and energy metabolism. Ann Thorac Surg. 72, 1576-1582.

64. Sigg, D.C., Coles, J.A., Jr., Oeltgen, P.R., and Iaizzo, P.A. (2002) Role of delta-opioid receptors in infarct size reduction in swine. Am J Physiol Heart Circ Physiol. 282, H1953-H1960.

65. Hong, J.B., Sigg, D.C., Upson, K., Oeltgen, P.R., Harlow, H.H., and Iaizzo, P.A. (2003) Role of delta-opioid receptors in preventing ischemic damage of isolated porcine skeletal muscle. (Currently not published; private manuscript.)

Acupuncture For Cynics

Acupuncture For Cynics

Have You Always Been Curious About Acupuncture, But Were Never Quite Sure Where To Stick The Needles? If you associate acupuncture with needles, pain and weird alternative medicine then you are horribly misinformed about the benefits of the world's oldest form of medicinal treatment.

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