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<HTML><HEAD> <META NAME="GENERATOR" CONTENT="Adobe PageMill 2.0 Win"> <TITLE>Untitled Document</TITLE></HEAD><BODY TEXT="#bafddc" BGCOLOR="#006666" LINK="#ffcc66" ALINK="#fb1814" VLINK="#5cf373"><H1><A NAME="anchor212476"></A>15.4 References</H1><A NAME="anchor0001"></A> <A NAME="anchor1"></A> 1. Weinberger LM, Gibbon MH, Gibbon JH Jr. Temporary arrest of circulationto central nervous system: physiologic effects. Arch Neurol Psych.1940;43:615-634. <A NAME="anchor2"></A> <A NAME="anchor0002"></A> <A NAME="anchor3"></A> 2. Neely WA, Youmans JR. Anoxia of canine brain without damage. JAMA.1963;183:1085-1087. <A NAME="anchor4"></A> <A NAME="anchor0003"></A> <A NAME="anchor5"></A> 3. Rehncrona S, Mela L, Siesjo BK. Recovery of brain mitochondrial functionin the rat after complete and incomplete cerebral ischemia. Stroke.1979;10:437-446. <A NAME="anchor6"></A> <A NAME="anchor0004"></A> <A NAME="anchor7"></A> 4. Hossmann KA, Zimmermann V. Resuscitation of the monkey brain after1 hour complete ischemia. I: physiological and morphological observations.Brain Res. 1974;81:59-74. <A NAME="anchor8"></A> <A NAME="anchor0005"></A> <A NAME="anchor9"></A> 5. Kleihues P, Hossmann KA, Pegg AE, Kobayashi K, Zimmermann V. Resuscitationof the monkey brain after one hour complete ischemia. III: indications ofmetabolic recovery. Brain Res. 1975;95:61-73. <A NAME="anchor10"></A> <A NAME="anchor0006"></A> <A NAME="anchor11"></A> 6. Graham DI. The pathology of brain ischaemia and possibilities fortherapeutic intervention. Br J Anaesth. 1985;57:3-17. <A NAME="anchor12"></A> <A NAME="anchor0007"></A> <A NAME="anchor13"></A> 7. Snyder JV, Nemoto EM, Carroll RG, Safar P. Global ischemia in dogs:intracranial pressures, brain blood flow and metabolism. Stroke. 1975;6:21-27. <A NAME="anchor14"></A> <A NAME="anchor0008"></A> <A NAME="anchor15"></A> 8. Vaagenes P, Cantadore R, Safar P, et al. Amelioration of brain damageby lidoflazine after prolonged ventricular fibrillation cardiac arrest indogs. Crit Care Med. 1984;12:846-855. <A NAME="anchor16"></A> <A NAME="anchor0009"></A> <A NAME="anchor17"></A> 9. Miller CL, Lampard DG, Alexander K, Brown WA. Local cerebral bloodflow following transient cerebral ischemia, part 1: onset of impaired reperfusionwithin the first hour following global ischemia. Stroke. 1980;11:534-541. <A NAME="anchor18"></A> <A NAME="anchor0010"></A> <A NAME="anchor19"></A> 10. Jackson DL, Dole WP. Total cerebral ischemia: a new model systemfor the study of post-cardiac arrest brain damage. Stroke. 1979;10:38-43. <A NAME="anchor20"></A> <A NAME="anchor0011"></A> <A NAME="anchor21"></A> 11. Obrenovitch TP, Hallenbeck JM. Platelet accumulation in regions oflow blood flow during the postischemic period. Stroke. 1985;16:224-234. <A NAME="anchor22"></A> <A NAME="anchor0012"></A> <A NAME="anchor23"></A> 12. Rogers MC, Kirsch JR. Current concepts in brain resuscitation. JAMA.1989;261:3143-3147. <A NAME="anchor24"></A> <A NAME="anchor0013"></A> <A NAME="anchor25"></A> 13. Hossmann V, Hossmann KA, Takagi S. Effect of intravascular plateletaggregation on blood recirculation following prolonged ischemia of the catbrain. J Neurol. 1980;222:159-170. <A NAME="anchor26"></A> <A NAME="anchor0014"></A> <A NAME="anchor27"></A> 14. Siesjö BK. Cell damage in the brain: a speculative synthesis.J Cereb Blood Flow Metab. 1981;1:155-185. <A NAME="anchor28"></A> <A NAME="anchor0015"></A> <A NAME="anchor29"></A> 15. McCord JM. Oxygen-derived free radicals in postischemic tissue injury.N Engl J Med. 1985;312:159-163. <A NAME="anchor30"></A> <A NAME="anchor0016"></A> <A NAME="anchor31"></A> 16. Siesjö BK. Cerebral circulation and metabolism. J Neurosurg.1984;60:883-908. <A NAME="anchor32"></A> <A NAME="anchor0017"></A> <A NAME="anchor33"></A> 17. Cantu RC, Ames A III, DiGiacinto G, Dixon J. Hypotension: a majorfactor limiting recovery from cerebral ischemia. J Surg Res. 1969;9:525-529. <A NAME="anchor34"></A> <A NAME="anchor0018"></A> <A NAME="anchor35"></A> 18. Thompson RG, Hallstrom AP, Cobb LA. Bystander-initiated cardiopulmonaryresuscitation in the management of ventricular fibrillation. Ann InternMed. 1979;90:737-740. <A NAME="anchor36"></A> <A NAME="anchor0019"></A> <A NAME="anchor37"></A> 19. Safar P. Recent advances in cardiopulmonary-cerebral resuscitation:a review. Ann Emerg Med. 1984;13(pt 2):856-862. <A NAME="anchor38"></A> <A NAME="anchor0020"></A> <A NAME="anchor39"></A> 20. Nemoto EM, Erdmann W, Strong E, Rao GR, Moossy J. Regional brainPo2 after global ischemia in monkeys: evidence for regional differencesin critical perfusion pressures. Stroke. 1979;10:44-52. <A NAME="anchor40"></A> <A NAME="anchor0021"></A> <A NAME="anchor41"></A> 21. Wise G, Sutter R, Burkholder J. The treatment of brain ischemia withvasopressor drugs. Stroke. 1972;3:135-140. <A NAME="anchor42"></A> <A NAME="anchor0022"></A> <A NAME="anchor43"></A> 22. Sterz F, Leonov Y, Safar P, Radovsky A, Tisherman SA, Oku K. Hypertensionwith or without hemodilution after cardiac arrest in dogs. Stroke.1990;21:1178-1184. <A NAME="anchor44"></A> <A NAME="anchor0023"></A> <A NAME="anchor45"></A> 23. Symon L. Flow thresholds in brain ischaemia and the effects of drugs.Br J Anaesth. 1985;57:34-43. <A NAME="anchor46"></A> <A NAME="anchor0024"></A> <A NAME="anchor47"></A> 24. Klatzo I. Brain oedema following brain ischaemia and the influenceof therapy. Br J Anaesth. 1985;57:18-22. <A NAME="anchor48"></A> <A NAME="anchor0025"></A> <A NAME="anchor49"></A> 25. Weil MH, Ruiz CE, Michaels S, Rackow EC. Acid-base determinants ofsurvival after cardiopulmonary resuscitation. Crit Care Med. 1985;13:888-892. <A NAME="anchor50"></A> <A NAME="anchor0026"></A> <A NAME="anchor51"></A> 26. Plum F, Siesjö BK. Recent advances in CSF physiology. Anesthesiology.1975;42:708-730. <A NAME="anchor52"></A> <A NAME="anchor0027"></A> <A NAME="anchor53"></A> 27. Shapiro HM. Brain protection: fact or fancy. In: Shoemaker WC, ed.Critical Care: State of the Art. Fullerton, Calif: Society of CriticalCare Medicine; 1985;6. <A NAME="anchor54"></A> <A NAME="anchor0028"></A> <A NAME="anchor55"></A> 28. Rehncrona S. Brain acidosis. Ann Emerg Med. 1985;14:770-776. <A NAME="anchor56"></A> <A NAME="anchor0029"></A> <A NAME="anchor57"></A> 29. Steen PA, Soule EH, Michenfelder JD. Detrimental effect of prolongedhypothermia in cats and monkeys with and without regional cerebral ischemia.Stroke. 1979;10:522-529. <A NAME="anchor58"></A> <A NAME="anchor0030"></A> <A NAME="anchor59"></A> 30. Rosomoff HL. Hypothermia and cerebral vascular lesions, 1: experimentalinterruption of the middle cerebral artery during hypothermia. J Neurosurg.1956;13:332-343. <A NAME="anchor60"></A> <A NAME="anchor0031"></A> <A NAME="anchor61"></A> 31. Frost EA. Brain preservation. Anesth Analg. 1981;60:821-832. <A NAME="anchor62"></A> <A NAME="anchor0032"></A> <A NAME="anchor63"></A> 32. Leonov Y, Sterz F, Safar P, et al. Mild cerebral hypothermia duringand after cardiac arrest improves neurologic outcome in dogs. J CerebBlood Flow Metab. 1990;10:57-70. <A NAME="anchor64"></A> <A NAME="anchor0033"></A> <A NAME="anchor65"></A> 33. Steen PA, Milde JH, Michenfelder JD. The detrimental effects of prolongedhypothermia and rewarming in the dog. Anesthesiology. 1980;52:224-230. <A NAME="anchor66"></A> <A NAME="anchor0034"></A> <A NAME="anchor67"></A> 34. Selman WR, Spetzler RF. Therapeutics for focal cerebral ischemia.Neurosurgery. 1980;6:446-452. <A NAME="anchor68"></A> <A NAME="anchor0035"></A> <A NAME="anchor69"></A> 35. Weinrauch V, Safar P, Tisherman S, Kuboyama K, Radovsky A. Beneficialeffect of mild hypothermia and detrimental effect of deep hypothermia aftercardiac arrest in dogs. Stroke. 1992;23:1454-1462. <A NAME="anchor70"></A> <A NAME="anchor0036"></A> <A NAME="anchor71"></A> 36. Sterz F, Safar P, Tisherman S, Radovsky A, Kuboyama K, Oku K. Mildhypothermic cardiopulmonary resuscitation improves outcome after prolongedcardiac arrest in dogs. Crit Care Med. 1991;19:379-389. <A NAME="anchor72"></A> <A NAME="anchor0037"></A> <A NAME="anchor73"></A> 37. Raichle ME. The pathophysiology of brain ischemia. Ann Neurol.1983;13:2-10. <A NAME="anchor74"></A> <A NAME="anchor0038"></A> <A NAME="anchor75"></A> 38. Myers RE. Lactic acid accumulation as a cause of brain edema andcerebral necrosis resulting from oxygen deprivation. In: Guilleminault C,Korobkin R, eds. Advances in Perinatal Neurology. New York, NY: SPMedical & Scientific Books; 1979. <A NAME="anchor76"></A> <A NAME="anchor0039"></A> <A NAME="anchor77"></A> 39. Pulsinelli WA, Waldman S, Rawlinson D, Plum F. Moderate hyperglycemiaaugments ischemic brain damage: a neuropathologic study in the rat. Neurology.1982;32:1239-1246. <A NAME="anchor78"></A> <A NAME="anchor0040"></A> <A NAME="anchor79"></A> 40. Siesjö BK. Brain Energy Metabolism. New York, NY: JohnWiley & Sons Inc; 1978. <A NAME="anchor80"></A> <A NAME="anchor0041"></A> <A NAME="anchor81"></A> 41. Hossmann KA, Kleihues P. Reversibility of ischemic brain damage.Arch Neurol. 1973;29:375-384. <A NAME="anchor82"></A> <A NAME="anchor0042"></A> <A NAME="anchor83"></A> 42. Todd MM, Chadwick HS, Shapiro HM, Dunlop BJ, Marshall LF, Dueck R.The neurologic effects of thiopental therapy following experimental cardiacarrest in cats. Anesthesiology. 1982;57:76-86. <A NAME="anchor84"></A> <A NAME="anchor0043"></A> <A NAME="anchor85"></A> 43. Gisvold SE, Safar P, Hendrickx HH, Rao G, Moossy J, Alexander H.Thiopental treatment after global brain ischemia in pigtailed monkeys. Anesthesiology.1984;60:88-96. <A NAME="anchor86"></A> <A NAME="anchor0044"></A> <A NAME="anchor87"></A> 44. Randomized clinical study of thiopental loading in comatose survivorsof cardiac arrest: Brain Resuscitation Clinical Trial I Study Group. NEngl J Med. 1986;314:397-403. <A NAME="anchor88"></A> <A NAME="anchor0045"></A> <A NAME="anchor89"></A> 45. Snyder BD, Hauser WA, Loewenson RB, Leppik IE, Ramirez-Lassepas M,Gumnit RJ. Neurologic prognosis after cardiopulmonary arrest, III: seizureactivity. Neurology. 1980;30:1292-1297. <A NAME="anchor90"></A> <A NAME="anchor0046"></A> <A NAME="anchor91"></A> 46. Levy DE, Caronna JJ, Singer BH, Lapinski RH, Frydman H, Plum F. Predictingoutcome from hypoxic-ischemic coma. JAMA. 1985;253:1420-1426. <A NAME="anchor92"></A> <A NAME="anchor0047"></A> <A NAME="anchor93"></A> 47. Galich JH, French LA. Use of dexamethasone in the treatment of cerebraledema resulting from brain tumors and brain surgery. Am Pract Dig.1961;12:169-174. <A NAME="anchor94"></A> <A NAME="anchor0048"></A> <A NAME="anchor95"></A> 48. Fishman RA. Steroids in the treatment of brain edema. N Engl JMed. 1982;306:359-360. <A NAME="anchor96"></A> <A NAME="anchor0049"></A> <A NAME="anchor97"></A> 49. Jastremski M, Sutton-Tyrrell K, Vaagenes P, Abramson N, HeiselmanD, Safar P. Glucocorticoid treatment does not improve neurological recoveryfollowing cardiac arrest: Brain Resuscitation Clinical Trial I Study Group.JAMA. 1989;262:3427-3430. <A NAME="anchor98"></A> <A NAME="anchor0050"></A> <A NAME="anchor99"></A> 50. A randomized clinical study of a calcium-entry blocker (lidoflazine)in the treatment of comatose survivors of cardiac arrest: Brain ResuscitationClinical Trial II Study Group. N Engl J Med. 1991;324:1225-1231. <A NAME="anchor100"></A> <A NAME="anchor0051"></A> <A NAME="anchor101"></A> 51. Roine RO, Kaste M, Kinnunen A, Nikki P, Sarna S, Kajaste S. Nimodipineafter resuscitation from out-of-hospital ventricular fibrillation: a placebo-controlled,double-blind, randomized trial. JAMA. 1990;264:3171-3177.</BODY></HTML>