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REFERENCES

151. Doyle JA, Davis DP, Hoyt DB: The use of hypertonic saline in the treatment of traumatic brain injury. J Trauma 50:367, 2001.

152. Ogilvy CS, Carter BS, Kaplan S, et al: Temporary vessel occlusion for aneurysm surgery: Risk factors for stroke in patients protected by induced hypothermia and hypertension and intravenous mannitol administration. J Neurosurg 84:785, 1996.

153. Todd MM, Carras D, Hindman B, et al: A pilot trial of hypothermia during aneurysm surgery [abstract]. J Neurosurg Anesthesiol 8:323, 1996.

154. Baker KZ, Young WL, Stone JG, et al: Deliberate mild intraoperative hypothermia for craniotomy. Anesthesiology 81:361, 1994.

155. Crowder CM, Tempelhoff R, Theard A, et al: Jugular bulb temperature: Comparison with brain surface and core temperatures in neurosurgical patients during mild hypothermia. J Neurosurg 85:98, 1996.

156. Graham DI, Ford I, Adams JH, et al: Ischaemic brain damage is still common in fatal non-missile head injury. J Neurol Neurosurg Psychiatry 52:346, 1989.

157. Clifton GL, Jiang JY, Lyeth BG, et al: Marked protection by moderate hypothermia after experimental traumatic brain injury. J Cereb Blood Flow Metab 11:114, 1991.

158. Marion DW, Obrist WD, Carlier PM, et al: The use of moderate therapeutic hypothermia for patients with severe head injuries: A preliminary report. J Neurosurg 79:354, 1993.

159. Shiozaki T, Sugimoto H, Taneda M, et al: Effect of mild hypothermia on uncontrollable intracranial hypertension after severe head injury. J Neurosurg 79:363, 1993.

160. Clifton GL, Allen S, Barrodale P, et al: A phase II study of moderate hypothermia in severe brain injury. J Neurotrauma 10:263, 1993.

161. Metz C, Holzschuh M, Bein T, et al: Moderate hypothermia in patients with severe head injury: Cerebral and extracerebral effects. J Neurosurg 85:533, 1996.

162. Clifton GL, Miller ER, Choi SC, et al: Lack of effect of induction of hypothermia after acute brain injury. N Engl J Med 344:556, 2001.

163. Bernard SA, Gray TW, Buist MD, et al: Treatment of comatose survivors of out-of-hospital cardiac arrest with induced hypothermia. N Engl J Med 346:557, 2002.

164. Hypothermia after Cardiac Arrest Study Group: Mild therapeutic hypothermia to improve the neurologic outcome after cardiac arrest. N Engl J Med 346:549, 2002.

165. Krieger DW, Georgia MAD, Abou-Chebl A, et al: Cooling for acute ischemic brain damage (COOL AID). An open pilot study of induced hypothermia in acute ischemic stroke. Stroke 32:1847, 2001.

166. Johansson B, Li C-L, Olsson Y, et al: The effect of acute arterial hypertension on the blood-brain barrier to protein tracers. Acta Neuropathol (Berl) 16:117, 1970.

167. Forster A, Horn KV, Marshall LF, et al: Anesthetic effects on blood-brain barrier function during acute arterial hypertension. Anesthesiology 49:26, 1978.

168. Hatashita S, Hoff JT, Ishii S: Focal brain edema associated with acute arterial hypertension. J Neurosurg 64:643, 1986.

169. Mayhan WG: Disruption of blood-brain barrier during acute hypertension in adult and aged rats. Am J Physiol 258:H1735, 1990.

170. Lewelt W, Hummel R, Littlewood K, et al: Recovery from anesthesia and cerebral blood flow velocity [abstract]. Anesth Analg 74:S186, 1992.

171. Kalfas IH, Little JR: Postoperative hemorrhage: A survey of 4992 intracranial procedures. Neurosurgery 23:343, 1988.

172. Grillo P, Bruder N, Auquier P, et al: Esmolol blunts the cerebral blood flow velocity increase during emergence from anesthesia in neurosurgical patients. Anesth Analg 96:1145, 2003.

173. Sturaitis MK, Kroin JS, Swamidoss CP, et al: Effects of intraoperative dexmedetomidine infusion on hemodynamic stability during brain tumor resection [abstract]. Anesthesiology 96:A310, 2002.

174. Haley ECJ, Kassell NF, Torner JC: The international cooperative study on the timing of aneurysm surgery: The North American experience. Stroke 23:205, 1992.

175. Laidlaw JD, Siu KH: Poor-grade aneurysmal subarachnoid hemorrhage: Outcome after treatment with urgent surgery. Neurosurgery 53:1275, 2003.

176. Laidlaw JD: Ultra-early surgery for aneurysmal subarachnoid hemorrhage: Outcomes for a consecutive series of 391 patients not selected by grade or age. J Neurosurg 97:250, 2002.

177. Broderick JP, Brott TG, Duldner JE, et al: Initial and recurrent bleeding are the major causes of death following subarachnoid hemorrhage. Stroke 25:1342, 1994.

178. Findlay JM, Kassell NF, Weir BK, et al: A randomized trial of intraoperative, intracisternal tissue plasminogen activator for the prevention of vasospasm. Neurosurgery 37:168, 1995.

179. Sasaki T, Ohta T, Kikuchi H, et al: A phase II clinical trial of recombinant human tissue-type plasminogen activator against cerebral vasospasm after aneurysmal subarachnoid hemorrhage. Neurosurgery 35:597, 1994.

180. Heros RC: Acute hydrocephalus after subarachnoid hemorrhage. Stroke 20:715, 1989.

181. Tapaninaho A, Hernesniemi J, Vapalahti M: Shunt-dependent hydrocephalus after subarachnoid haemorrhage and aneurysm surgery: Timing of surgery is not a risk factor. Acta Neurochir 123:118, 1993.

182. Dorai Z, Hynan LS, Kopitnik TA, et al: Factors related to hydrocephalus after aneurysmal subarachnoid hemorrhage. Neurosurgery 52:763, 2003.

183. Wijdicks EFM, Vermeulen M, tenHaaf JA, et al: Volume depletion and natriuresis in patients with a ruptured intracranial aneurysm. Ann Neurol 18:211, 1985.

184. Wijdicks EFM, Ropper AH, Hunnicut EJ, et al: Atrial natriuretic factor and salt wasting after aneurysmal subarachnoid hemorrhage. Stroke 22:1519, 1991.

185. Sivakumar V, Rajshekhar V, Chandy MJ: Management of neurosurgical patients with hyponatremia and natriuresis. Neurosurgery 34:269, 1994.

186. Damaraju SC, Rajshekhar V, Chandy MJ: Validation study of a central venous pressure-based protocol for the management of neurosurgical patients with hyponatremia and natriuresis. Neurosurgery 40:312, 1997.

187. Wijdicks EFM, Schievink WI, Burnett JC: Natriuretic peptide system and endothelin in aneurysmal subarachnoid hemorrhage. J Neurosurg 87:275, 1997.

188. Tomida M, Muraki M, Uemura K, et al: Plasma concentrations of brain natriuretic peptide in patients with subarachnoid hemorrhage. Stroke 29:1584, 1998.

189. Carlotti AP, Bohn D, Rutka JT, et al: A method to estimate urinary electrolyte excretion in patients at risk for developing cerebral salt wasting. J Neurosurg 95:95, 2001.

190. Nakagawa A, Su CC, Sato K, et al: Evaluation of changes in circulating blood volume during acute and very acute stages of subarachnoid hemorrhage: Implications for the management of hypovolemia. J Neurosurg 97:268, 2002.

191. Kasuya H, Onda H, Yoneyama T, et al: Bedside monitoring of circulating blood volume after subarachnoid hemorrhage. Stroke 34:956, 2003.

192. Okuchi K, Fujioka M, Fujiikawa A, et al: Rapid natriuresis and preventive hypervolaemia for symptomatic vasospasm after subarachnoid haemorrhage. Acta Neurochir 138:951, 1996.

193. Chang HS, Hongo K, Nakagawa H: Adverse effects of limited hypotensive anesthesia on the outcome of patients with subarachnoid hemorrhage. J Neurosurg 92:971, 2000.

194. Foroohar M, Macdonald RL, Roth S, et al: Intraoperative variables and early outcome after aneurysm surgery. Surg Neurol 54:304, 2000.

195. Chow M, Dumont AS, Kassell NF: Endothelin receptor antagonists and cerebral vasospasm: An update. Neurosurgery 51:1333, 2002.


2170


196. Shaw MDM, Vermeulen M, Murray GD, et al: Efficacy and safety of the endothelin A/B antagonist TAK-044 in treating subarachnoid hemorrhage: A report by the Steering Committee on behalf of the UK/Netherlands/Eire TAK-044 Subarachnoid Haemorrhage Study Group. J Neurosurg 93:992, 2000.

197. Treggiari MM, Walder B, Suter PM, et al: Systematic review of the prevention of delayed ischemic neurological deficits with hypertension, hypervolemia, and hemodilution therapy following subarachnoid hemorrhage. J Neurosurg 98:978, 2003.

198. Muizelaar JP, Becker DP: Induced hypertension for the treatment of cerebral ischemia after subarachnoid hemorrhage. Surg Neurol 25:317, 1986.

199. Kim DH, Joseph M, Ziadi S, et al: Increases in cardiac output can reverse flow deficits from vasospasm independent of blood pressure: A study using xenon computed tomographic measurement of cerebral blood flow. Neurosurgery 53:1044, 2003.

200. Pickard JD, Murray GD, Illingworth R, et al: Effect of oral nimodipine on cerebral infarction and outcome after subarachnoid haemorrhage: British aneurysm nimodipine trial. BMJ 298:636, 1989.

201. Petruk KC, West M, Mohr G, et al: Nimodipine treatment in poor-grade aneurysm patients. J Neurosurg 68:505, 1988.

202. Barker FG, Ogilivy CS: Efficacy of prophylactic nimodipine for delayed ischemic deficit after subarachnoid hemorrhage: A metaanalysis. J Neurosurg 84:405, 1996.

203. Stullken EH, Balestrieri FJ, Prough DS, et al: The hemodynamic effects of nimodipine in patients anesthetized for cerebral aneurysm clipping. Anesthesiology 62:346, 1985.

204. Haley EC, Kassell NF, Torner JC, et al: A randomized controlled trial of high-dose intravenous nicardipine in aneurysmal subarachnoid hemorrhage: A report of the Cooperative Aneurysm Study. J Neurosurg 78:537, 1993.

205. Haley EC, Kassell NF, Torner JC, et al: A randomized trial of nicardipine in subarachnoid hemorrhage: Angiographic and transcranial Doppler ultrasound results: A report of the Cooperative Aneurysm Study. J Neurosurg 78:548, 1993.

206. Adams HP, Kassell NF, Torner JC, et al: Predicting cerebral ischemia after aneurysmal subarachnoid hemorrhage: Influences of clinical conditions, CT results, and antifibrinolytic therapy. Neurology 37:1586, 1987.

207. Kassell NF, Torner JC, Adams HP: Antifibrinolytic therapy in the acute period following aneurysmal subarachnoid hemorrhage. J Neurosurg 61:225, 1984.

208. Roos Y, Rinkel G, Vermeulen M, et al: Antifibrinolytic therapy for aneurysmal subarachnoid hemorrhage. Stroke 34:2308, 2003.

209. Hillman J, Fridriksson S, Nilsson O, et al: Immediate administration of tranexamic acid and reduced incidence of early rebleeding after aneurysmal subarachnoid hemorrhage: A prospective randomized study. J Neurosurg 97:771, 2002.

210. Rudehill A, Gordon E, Sundkvist K, et al: A study of ECG abnormalities and myocardial specific enzymes in patients with subarachnoid haemorrhage. Acta Anaesthesiol Scand 26:344, 1982.

211. Parekh N, Venkatesh B, Cross D, et al: Cardiac troponin I predicts myocardial dysfunction in aneurysmal subarachnoid hemorrhage. J Am Coll Cardiol 36:1328, 2000.

212. Bulsara KR, McGirt MJ, Liao L, et al: Use of the peak troponin value to differentiate myocardial infarction from reversible neurogenic left ventricular dysfunction associated with aneurysmal subarachnoid hemorrhage. J Neurosurg 98:524, 2003.

213. Davies KR, Gelb AW, Manninen PH, et al: Cardiac function in aneurysmal subarachnoid haemorrhage: A study of electrocardiographic and echocardiographic abnormalities. Br J Anaesth 67:58, 1991.

214. Szabo MD, Crosby G, Hurford WE, et al: Myocardial perfusion following acute subarachnoid hemorrhage in patients with an abnormal electrocardiogram. Anesth Analg 76:253, 1993.

215. Zaroff JG, Rordorf GA, Newell JB, et al: Cardiac outcome in patients with subarachnoid hemorrhage and electrocardiographic abnormalities. Neurosurgery 44:34, 1999.

216. Brouwers PJAM, Wijdicks EFM, Hasan D, et al: Serial electrocardiographic recording in aneurysmal subarachnoid hemorrhage. Stroke 20:1162, 1989.

217. Lorsheyd A, Simmers TA, Robles De Medina EO: The relationship between electroencephalographic abnormalities and location of the intracranial aneurysm in subarachnoid hemorrhage. Pacing Clin Electrophysiol 26:1722, 2003.

218. Lanzino G, Kongable GL, Kassell NF: Electrocardiographic abnormalities after nontraumatic subarachnoid hemorrhage. J Neurosurg Anesthesiol 6:156, 1994.

219. Randell T, Tanskanen P, Scheinin M, et al: QT dispersion after subarachnoid hemorrhage. J Neurosurg Anesthesiol 11:163, 1999.

220. Maekawa T, McDowall DG, Okuda Y: Brain-surface oxygen tension and cerebral cortical blood flow during hemorrhagic and drug-induced hypotension in the cat. Anesthesiology 51:313, 1979.

221. Paré L, Delfino R, LeBlanc R: The relationship of ventricular drainage to aneurysmal rebleeding. J Neurosurg 76:422, 1992.

222. Meyer FB, Anderson RE, Sundt TM, et al: Treatment of experimental focal cerebral ischemia with mannitol. J Neurosurg 66:109, 1987.

223. Jafar JJ, Johns LM, Mullan SF: The effect of mannitol on cerebral blood flow. J Neurosurg 64:754, 1986.

224. Bouma GJ, Muizelaar JP: Relationship between cardiac output and cerebral blood flow in patients with intact and with impaired autoregulation. J Neurosurg 73:368, 1990.

225. Ogilvy CS, Chu D, Kaplan S: Mild hypothermia, hypertension, and mannitol are protective against infarction during experimental intracranial temporary vessel occlusion. Neurosurgery 38:1202, 1996.

226. Samson D, Batjer HH, Bowman G, et al: A clinical study of the parameters and effects of temporary arterial occlusion in the management of intracranial aneurysms. Neurosurgery 34:22, 1994.

227. Drummond JC, Cole DJ, Patel PM, et al: Focal cerebral ischemia during anesthesia with etomidate, isoflurane or thiopental: A comparison of the extent of cerebral injury. Neurosurgery 37:742, 1995.

228. Hoffman WE, Charbel FT, Edelman G, et al: Comparison of the effect of etomidate and desflurane on brain tissue gases and pH during prolonged middle cerebral artery occlusion. Anesthesiology 88:1188, 1998.

229. Batjer HH, Frankfurt AI, Purdy PD, et al: Use of etomidate, temporary arterial occlusion, and intraoperative angiography in surgical treatment of large and giant cerebral aneurysms. J Neurosurg 68:234, 1988.

230. Lavine SD, Masri LS, Levy ML, et al: Temporary occlusion of the middle cerebral artery in intracranial aneurysm surgery: Time limitation and advantage of brain protection. J Neurosurg 87:817, 1997.

231. Ridenour TR, Warner DS, Todd MM, et al: Comparative effects of propofol and halothane on outcome from temporary middle cerebral artery occlusion in the rat. Anesthesiology 76:807, 1992.

232. Warner DS, Todd MM, McFarlane C, et al: Sevoflurane and halothane reduce focal ischemic brain damage in the rat: Possible influence on thermoregulation. Anesthesiology 79:985, 1993.

233. Engelhard K, Werner C, Reeker W, et al: Desflurane and isoflurane improve neurological outcome after incomplete cerebral ischaemia in rats. Br J Anaesth 83:415, 1999.

234. Baughman VL, Hoffman WE, Miletich DJ, et al: Neurologic outcome in rats following incomplete cerebral ischemia during halothane, isoflurane, or N2 O. Anesthesiology 69:192, 1988.

235. Soonthon-Brant V, Patel PM, Drummond JC, et al: Fentanyl does not increase brain injury after focal cerebral ischemia in rats. Anesth Analg 88:49, 1999.

236. Young WL, Solomon RA, Pedley TA, et al: Direct cortical EEG monitoring during temporary vascular occlusion for cerebral aneurysm surgery. Anesthesiology 71:794, 1989.
2171


237. Symon L, Wang AD, Silva IEC, et al: Perioperative use of somatosensory evoked responses in aneurysm surgery J Neurosurg 60:269, 1984.

238. Little JR, Lesser RP, Luders H: Electrophysiological monitoring during basilar aneurysm operation. Neurosurgery 20:421, 1987.

239. Manninen PH, Cuillerier DJ, Nantau WE, et al: Monitoring of brainstem function during vertebral basilar aneurysm surgery. The use of spontaneous ventilation. Anesthesiology 77:681, 1992.

240. Manninen PH: Spontaneous ventilation is a useful monitor of brain stem function during posterior fossa surgery. J Neurosurg Anesthesiol 7:63, 1995.

241. Batjer HH, Devous MD, Meyer YJ, et al: Cerebrovascular hemodynamics in arteriovenous malformation complicated by normal perfusion pressure breakthrough. Neurosurgery 22:503, 1988.

242. Young WL, Kader A, Ornstein E, et al: Cerebral hyperemia after arteriovenous malformation resection is related to "breakthrough" complications but not to feeding artery pressure. Neurosurgery 38:1085, 1996.

243. Charbel FT, Hoffman WE, Misra M, et al: Increased brain tissue oxygenation during arteriovenous malformation resection. Neurol Med Chir 38(Suppl):171, 1998.

244. Young WL, Prohovnik I, Ornstein E, et al: Pressure autoregulation is intact after arteriovenous malformation resection. Neurosurgery 32:491, 1993.

245. Meyer B, Schaller C, Frenkel C, et al: Distributions of local oxygen saturation and its response to changes of mean arterial blood pressure in the cerebral cortex adjacent to arteriovenous malformations. Stroke 30:2623, 1999.

246. Sekhon LH, Morgan MK, Spence I: Normal perfusion pressure breakthrough: The role of capillaries. J Neurosurg 86:519, 1997.

247. O'Malley KF, Ross SE: The incidence of injury to the cervical spine in patients with craniocerebral injury. J Trauma 28:1476, 1988.

248. Bachulis BL, Long WB, Hynes GD, et al: Clinical indications for cervical spine radiographs in the traumatized patient. Am J Surg 153:473, 1987.

249. Sinclair D, Schwartz M, Gruss J, et al: A retrospective review of the relationship between facial fractures, head injuries and cervical spine injuries. J Emerg Med 6:109, 1988.

250. Criswell JC, Parr MJ, Nolan JP: Emergency airway management in patients with cervical spine injuries. Anaesthesia 49:900, 1994.

251. Stene JD: Anesthesia for the critically ill trauma patient. In Siegel JH (ed): Trauma: Emergency Surgery and Critical Care. Melbourne, Australia, Churchill Livingstone, 1987, p 843.

252. Talucci RC, Shaikh KA, Schwab CW: Rapid sequence induction with oral endotracheal intubation in the multiply injured patient. Am Surg 54:185, 1988.

253. Suderman VS, Crosby ET, Lui A: Elective oral tracheal intubation in cervical spine-injured adults. Can J Anaesth 38:785, 1991.

254. Shatney CH, Brunner RD, Nguyen TQ: The safety of orotracheal intubation in patients with unstable cervical spine fracture or high spinal cord injury. Am J Surg 170:676, 1995.

255. Hastings RH, Kelley SD: Neurologic deterioration associated with airway management in a cervical spine-injured patient. Anesthesiology 78:580, 1993.

256. Muckart DJJ, Bhagwanjee S, vanderMerwe R: Spinal cord injury as a result of endotracheal intubation in patients with undiagnosed cervical spine fractures. Anesthesiology 87:418, 1997.

257. Kirschenbaum KJ, Nadimpalli SR, Fantus R, et al: Unsuspected upper cervical spine fractures associated with significant head trauma: Role of CT. J Emerg Med 8:183, 1990.

258. Hastings RH, Wood PR: Head extension and laryngeal view during laryngoscopy with cervical spine stabilization maneuvers. Anesthesiology 80:825, 1994.

259. Chesnut RM, Marshall LF, Klauber MR, et al: The role of secondary brain injury in determining outcome from severe head injury. J Trauma 34:216, 1993.

260. Fischer RP: Cervical radiographic evaluation of alert patients following blunt trauma. Ann Emerg Med 13:905, 1984.

261. Ross SE, Schwab CW, David ET, et al: Clearing the cervical spine: Initial radiologic evaluation. J Trauma 27:1055, 1987.

262. DeWitt DS, Prough DS, Taylor CL, et al: Reduced cerebral blood flow, oxygen delivery, and electroencephalographic activity after traumatic brain injury and mild hemorrhage in cats. J Neurosurg 76:812, 1992.

263. Marmarou A, Anderson RL, Ward JD, et al: Impact of ICP instability and hypotension on outcome in patients with severe head trauma. J Neurosurg 75:S59, 1991.

264. Laurer HL, Bareyre FM, Lee VM, et al: Mild head injury increasing the brain's vulnerability to a second concussive impact. J Neurosurg 95:859, 2001.

265. Pietropaoli JA, Rogers FB, Shackford SR, et al: The deleterious effects of intraoperative hypotension on outcome in patients with severe head injuries. J Trauma 33:403, 1992.

266. Jones PA, Andrews PJ, Midgley S, et al: Measuring the burden of secondary insults in head-injured patients during intensive care. J Neurosurg Anesthesiol 6:4, 1994.

267. Stocchetti N, Furlan A, Volta F: Hypoxemia and arterial hypotension at the accident scene in head injury. J Trauma 40:764, 1996.

268. Diringer MN, Videen TO, Yundt K, et al: Regional cerebrovascular and metabolic effects of hyperventilation after severe traumatic brain injury. J Neurosurg 96:103, 2002.

269. Schmidt EA, Czosnyka M, Steiner LA, et al: Asymmetry of pressure autoregulation after traumatic brain injury. J Neurosurg 99:991, 2003.

270. Marion DW, Darby J, Yonas H: Acute regional cerebral blood flow changes caused by severe head injuries. J Neurosurg 74:407, 1991.

271. Chan K-H, Miller JD, Dearden NM, et al: The effect of changes in cerebral perfusion pressure upon middle cerebral artery blood flow velocity and jugular bulb venous oxygen saturation after severe brain injury. J Neurosurg 77:55, 1992.

272. Chan KH, Dearden NM, Miller JD, et al: Multimodality monitoring as a guide to treatment of intracranial hypertension after severe brain injury. Neurosurgery 32:547, 1993.

273. The Brain Trauma Foundation, The American Association of Neurological Surgeons, The Joint Section on Neurotrauma and Critical Care: Guidelines for cerebral perfusion pressure. J Neurotrauma 17:507, 2000.

274. Bruzzone P, Dionigi R, Bellinzona G, et al: Effects of cerebral perfusion pressure on brain tissue Po2 in patients with severe head injury. Acta Neurochir 71:111, 1998.

275. Marshall LF: Head injury: Recent past, present and future [editorial]. Neurosurgery 47:546, 2000.

276. Robertson CS: Management of cerebral perfusion pressure after traumatic brain injury. Anesthesiology 95:1513, 2001.

277. Asgeirsson B, Grande PO, Nordstrom CH: A new therapy of post-trauma brain oedema based on haemodynamic principles for brain volume regulation. Intensive Care Med 20:260, 1994.

278. Grande PO, Asgeirsson B, Nordstrom CH: Volume-targeted therapy of increased intracranial pressure: The Lund concept unifies surgical and non-surgical treatments. Acta Anaesthesiol Scand 46:929, 2002.

279. Rosner MJ, Daughton S: Cerebral perfusion pressure management in head injury. J Trauma 30:933, 1990.

280. Rosner MJ, Rosner SD, Johnson AH: Cerebral perfusion pressure: Management protocol and clinical results. J Neurosurg 83:949, 1995.

281. Oertel M, Kelly DF, Lee JH, et al: Efficacy of hyperventilation, blood pressure elevation, and metabolic suppression therapy in controlling intracranial pressure after head injury. J Neurosurg 97:1045, 2002.

282. Czosnyka M, Smielewski P, Piechnik S, et al: Cerebral autoregulation following head injury. J Neurosurg 95:756, 2001.
2172


283. Asgeirsson B, Grande P-O, Nordstrom C-H: The Lund concept of post-traumatic brain oedema therapy. Acta Anaesthesiol Scand 39:103, 1995.

284. Naredi S, Eden E, Zall S, et al: A standardized neurosurgical/neurointensive therapy directed toward vasogenic edema after severe traumatic brain injury: Clinical results. Intensive Care Med 24:446, 1998.

285. Eker C, Asgeirsson B, Grande P-O, et al: Improved outcome after severe head injury with a new therapy based on principles for brain volume regulation and preserved microcirculation. Crit Care Med 26:1881, 1998.

286. Naredi S, Olivecrona M, Lindgren C, et al: An outcome study of severe traumatic head injury using the "Lund therapy" with low-dose prostacyclin. Acta Anaesthesiol Scand 45:402, 2001.

287. Steiger HJ, Ciessinna E, Seiler RW: Identification of posttraumatic ischemia and hyperfusion by determination of effect of induced arterial hypertension on carbon dioxide reactivity. Stroke 27:2048, 1996.

288. Romner B, Bellner J, Kongstad P, et al: Elevated transcranial Doppler flow velocities after severe head injury: Cerebral vasospasm or hyperemia? J Neurosurg 85:90, 1996.

289. Martin NA, Doberstein C, Zane C, et al: Posttraumatic cerebral arterial spasm: Transcranial Doppler ultrasound, cerebral blood flow, and angiographic findings. J Neurosurg 77:575, 1992.

290. Kelly DF, Kordestani RK, Martin NA, et al: Hyperemia following traumatic brain injury: Relationship to intracranial hypertension and outcome. J Neurosurg 85:762, 1996.

291. Muizelaar JP, Marmarou A, DeSalles AAF, et al: Cerebral blood flow and metabolism in severely head-injured children. Part 1: Relationship with GCS score, outcome, ICP, and PVI. J Neurosurg 71:63, 1989.

292. Bouma GJ, Muizelaar JP, Bandoh K, et al: Blood pressure and intracranial pressure-volume dynamics in severe head injury: Relationship with cerebral blood flow. J Neurosurg 77:15, 1992.

293. Juul N, Morris GF, Marshall SB, et al: Intracranial hypertension and cerebral perfusion pressure: Influence on neurological deterioration and outcome in severe head injury. The Executive Committee of the International Selfotel Trial. J Neurosurg 92:1, 2000.

294. Chambers IR, Treadwell L, Mendelow AD: Determination of threshold levels of cerebral perfusion pressure and intracranial pressure in severe head injury by using receiver-operating characteristic curves: An observational study in 291 patients. J Neurosurg 94:412, 2001.

295. Miller JD, Piper IR, Dearden NM: Management of intracranial hypertension in head injury: Matching treatment with cause. Acta Neurochir 57:152, 1993.

296. The Brain Trauma Foundation, The American Association of Neurological Surgeons, The Joint Section on Neurotrauma and Critical Care: Hyperventilation. J Neurotrauma 17:513, 2000.

297. Hulka F, Mullins RJ, Frank EH: Blunt brain injury activates the coagulation process. Arch Surg 131:923, 1996.

298. Robertson CS, Gopinath SP, Goodman JC, et al: SjVO2 monitoring in head-injured patients. J Neurotrauma 12:891, 1995.

299. White H, Baker A: Continuous jugular venous oximetry in the neurointensive care unit—a brief review. Can J Anesth 49:623, 2002.

300. Schneider GH, Helden AV, Lanksch WR, et al: Continuous monitoring of jugular bulb oxygen saturation in comatose patients—therapeutic implications. Acta Neurochir 134:71, 1995.

301. Gunn HC, Matta BF, Lam AM, et al: Accuracy of continuous jugular bulb venous oximetry during intracranial surgery. J Neurosurg Anesthesiol 7:174, 1995.

302. Schell RM, Cole D: Cerebral monitoring: Jugular venous oximetry. Anesth Analg 90:559, 2000.

303. Stocchetti N, Paparella A, Bridelli F, et al: Cerebral venous oxygen saturation studied with bilateral samples in the internal jugular veins. Neurosurgery 34:38, 1994.

304. Metz C, Holzschuh M, Bein T, et al: Monitoring of cerebral oxygen metabolism in the jugular bulb: Reliability of unilateral measurements in severe head injury. J Cereb Blood Flow Metab 18:332, 1998.

305. Muizelaar JP, Schroder ML: Overview of monitoring of cerebral blood flow and metabolism after severe head injury. Can J Neurol Sci 21:S6, 1994.

306. Gopinath SP, Cormio M, Ziegler J, et al: Intraoperative jugular desaturation during surgery for traumatic intracranial hematomas. Anesth Analg 83:1014, 1996.

307. Kett-White R, Hutchinson PJ, Al-Rawi PG, et al: Cerebral oxygen and microdialysis monitoring during aneurysm surgery: Effects of blood pressure, cerebrospinal fluid drainage, and temporary clipping on infarction. J Neurosurg 96:1013, 2002.

308. Lang EW, Czosnyka M, Mehdorn HM: Tissue oxygen reactivity and cerebral autoregulation after severe traumatic brain injury. Crit Care Med 31:267, 2003.

309. Jodicke A, Hubner F, Boker DK: Monitoring of brain tissue oxygenation during aneurysm surgery: Prediction of procedure-related ischemic events. J Neurosurg 98:515, 2003.

310. Marshall LF, Toole BM, Bowers SA: The National Traumatic Coma Data Bank. Part 2: Patients who talk and deteriorate: Implications for treatment. J Neurosurg 59:285, 1983.

311. Drummond JC, Todd MM: Acute sinus arrhythmia during surgery in the fourth ventricle: An indicator of brain-stem irritation. Anesthesiology 60:232, 1984.

312. Lobato RD, Rivas JJ, Sarabia R, et al: Percutaneous microcompression of the gasserian ganglion for trigeminal neuralgia. J Neurosurg 72:546, 1990.

313. Skirving DJ, Dan NG: A 20-year review of percutaneous balloon compression of the trigeminal ganglion. J Neurosurg 94:913, 2001.

314. Korula G, George SP, Rajshekhar V, et al: Effect of controlled hypercapnia on cerebrospinal fluid pressure and operating conditions during transsphenoidal operations for pituitary macroadenoma. J Neurosurg Anesthesiol 13:255, 2001.

315. Nath G, Korula G, Chandy MJ: Effect of intrathecal saline injection and Valsalva maneuver on cerebral perfusion pressure during transsphenoidal surgery for pituitary macroadenoma. J Neurosurg Anesthesiol 7:1, 1995.

316. Spaziante R, DeDivitiis E: Forced subarachnoid air in transsphenoidal excision of pituitary tumors (pumping technique). J Neurosurg 71:864, 1989.

317. Archer DP, McKenna JMA, Morin L, et al: Conscioussedation analgesia during craniotomy for intractable epilepsy: A review of 354 consecutive cases. Can J Anaesth 35:338, 1988.

318. Herrick IA, Craen RA, Gelb AW, et al: Propofol sedation during awake craniotomy for seizures: Patient-controlled administration versus neurolept analgesia. Anesth Analg 84:1280, 1997.

319. Drummond JC, Iragui-Madoz VJ, Alksne JF, et al: Masking of epileptiform activity by propofol during seizure surgery. Anesthesiology 76:652, 1992.

320. Balki M, Manninen PH, McGuire GP, et al: Venous air embolism during awake craniotomy in a supine patient. Can J Anaesth 50:835, 2003.

321. Ard J, Doyle W, Bekker A: Awake craniotomy with dexmedetomidine in pediatric patients. J Neurosurg Anesthesiol 15:263, 2003.

322. Sarang A, Dinsmore J: Anaesthesia for awake craniotomy—evolution of a technique that facilitates awake neurological testing. Br J Anaesth 90:161, 2003.

323. Mack PF, Perrine K, Kobylarz E, et al: Dexmedetomidine and neurocognitive testing in awake craniotomy. J Neurosurg Anesthesiol 16:20, 2004.

324. Bekker AY, Kaufman B, Samir H, et al: The use of dexmedetomidine infusion for awake craniotomy. Anesth Analg 92:1251, 2001.

325. Bustillo MA, Lazar RM, Finck AD, et al: Dexmedetomidine may impair cognitive testing during endovascular embolization of cerebral arteriovenous malformations: A retrospective case report series. J Neurosurg Anesthesiol 14:209, 2002.
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326. Sturaitis MK: Effect of dexmedetomidine on operative conditions and electrocorticographic responses during asleep craniotomy for seizure focus resection [abstract]. Epilepsia 44(Suppl 9):331, 2003.

327. Cascino GD: Pharmacological activation. Electroencephalogr Clin Neurophysiol Suppl 48:70, 1998.

328. Cascino GD, So EL, Sharbrough FW, et al: Alfentanil-induced epileptiform activity in patients with partial epilepsy. J Clin Neurophysiol 10:520, 1993.

329. McGuire G, El-Beheiry H, Manninen P, et al: Activation of electrocorticographic activity with remifentanil and alfentanil during neurosurgical excision of epileptogenic focus. Br J Anaesth 91:651, 2003.

330. Ebrahim ZY, DeBoer GE, Luders H, et al: Effect of etomidate on the electroencephalogram of patients with epilepsy. Anesth Analg 65:1004, 1986.

331. Gancher S, Laxer KD, Krieger W: Activation of epileptogenic activity by etomidate. Anesthesiology 61:616, 1984.

332. Wass CT, Grady RE, Fessler AJ, et al: The effects of remifentanil on epileptiform discharges during intraoperative electrocorticography. Epilepsia 42:1340, 2001.

333. Kofke WA, Tempelhoff R, Dasheiff RM: Anesthetic implications of epilepsy, status epilepticus, and epilepsy surgery. J Neurosurg Anesthesiol 9:349, 1997.

334. Pile-Spellman J, Young WL, Joshi S, et al: Adenosine-induced cardiac pause for endovascular embolization of cerebral arteriovenous malformations: Technical case report. Neurosurgery 44:881, 1999.

335. Molyneux A, Kerr R, Stratton I, et al: International Subarachnoid Aneurysm Trial (ISAT) of neurosurgical clipping versus endovascular coiling in 2143 patients with ruptured intracranial aneurysms: A randomised trial. Lancet 360:1267, 2002.

336. Gray WA, White HJ, Barrett DM, et al: Carotid stenting and endarterectomy: A clinical and cost comparison of revascularization strategies. Stroke 33:1063, 2002.

337. Hobson RW: Rationale and status of randomized controlled clinical trials in carotid artery stenting. Semin Vasc Surg 16:311, 2003.

338. Bracken MB, Shepard MJ, Collins WF: A randomized, controlled trial of methylprednisolone or naloxone in the treatment of acute spinal cord injury. Results of the second National Acute Spinal Cord Injury Study. N Engl J Med 322:1405, 1990.

339. Bracken MB, Shepard MJ, Holford TR, et al: Administration of methylprednisolone for 24 or 48 hours or tirilazad mesylate for 48 hours in the treatment of acute spinal cord injury. JAMA 277:1597, 1997.

340. Hickey R, Albin MS, Bunegin L, et al: Autoregulation of spinal cord blood flow: Is the cord a microcosm of the brain? Anesthesiology 63:A571, 1985.


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