References
- Sundt TM, Jr, Grant WC, Garcia JH. Restoration of middle cerebral artery flow in experimental infarction.] Neurosurg 1969; 31: 311–321
- Sundt TM, Jr, Waltz AG. Cerebral ischemia and reactive hyperemia: Studies of cortical blood flow and microcirculation before, during, and after temporary occlusion of middle cerebral artery of squirrel monkeys. Circ Res 1971; 28: 426–433
- Tasdemiroglu E, Macfarlane R, Wei EP, et al. Pial vessel caliber and cerebral blood flow become dissociated during ischemia—reperfusion in cats. Am] Physiol 1992; 263: H533—H536
- Marchal G, Young AR, Baron JC. Early postischemic hyperperfu-sion: Pathophysiologic insights from positron emission tomogra-phy. J Cereb Blood Flow Metab 1999; 19: 467–482
- Macfarlane R, Moskowitz MA, Tasdemiroglu E, et al. Postischemic cerebral blood flow and neuroeffector mechanisms. Blood Vessels 1991; 28: 46–51
- Macfarlane R, Tasdemiroglu E, Moskowitz MA, et al. Chronic trigeminal ganglionectomy or topical capsaicin application to pial vessels attenuates postocclusive cortical hyperemia but does not influence postischemic hypoperfusion. ] Cereb Blood Flow Metab 1991; 11: 261–271
- Humphreys SA, Koss MC. Role of nitric oxide in post-ischemic cerebral hyperemia in anesthetized rats. Eur J Pharmacol 1998; 347: 223–229
- Hashimoto H, Ohta S, Utsunomiya H, et al. Changes in guanylate cyclase activity in arteriolar smooth muscle cells and hemody-namics after ischemia—reperfusion in rats. Acta Neuropathol 1999; 98: 603–613
- Traupe H, Kruse E, Heiss WD. Reperfusion of focal ischemia of varying duration: Postischemic hyper- and hypo-perfusion. Stroke 1982; 13: 615–622
- Gourley JK, Heistad DD. Characteristics of reactive hyperemia in the cerebral circulation. Am Physiol 1984; 246: H52—H58
- Todd NV, Picozzi P, Crockard HA, et al. Reperfusion after cerebral ischemia: Influence of duration of ischemia. Stroke 1986; 17: 460–466
- Moore WS, Barnett Hi, Beebe HG, et al. Guidelines for carotid endarterectomy. A multidisciplinary consensus statement from the Ad Hoc Committee, American Heart Association. Stroke 1995; 26: 188–201
- Mille T, Tachimiri ME, Klersy C, etal. Near infrared spectroscopy monitoring during carotid endarterectomy: Which threshold value is critical? Eur J Vasc Endovasc Surg 2004; 27: 646–650
- McCormick PW, Stewart M, Goetting MG, et al. Noninvasive cerebral optical spectroscopy for monitoring cerebral oxygen delivery and hemodynamics. Crit Care Med 1991; 19: 89–97
- Samra SK, Dorje P, Zelenock GB, et al. Cerebral oximetry in patients undergoing carotid endarterectomy under regional anesthesia. Stroke 1996; 27: 49–55
- Rigamonti A, Scandroglio M, Minicucci F, et al. A clinical evaluation of near-infrared cerebral oximetry in the awake patient to monitor cerebral perfusion during carotid endarterectomy. JClin Anesth 2005; 17: 426–430
- Kirkpatrick PJ, Smielewski P, Whitfield PC, etal. An observational study of near-infrared spectroscopy during carotid endarterectomy. J Neurosurg 1995; 82: 756–763
- Beese U, Langer H, Lang W, et al. Comparison of near-infrared spectroscopy and somatosensory evoked potentials for the detec-tion of cerebral ischemia during carotid endarterectomy. Stroke 1998; 29: 2032–2037
- Ogasawara K, Konno H, Yukawa H, et al. Transcranial regional cerebral oxygen saturation monitoring during carotid endarter-ectomy as a predictor of postoperative hyperperfusion. Neurosurgery 2003; 53: 309–315
- Ogasawara K, Ito H, Sasoh M, et al. Quantitative measurement of regional cerebrovascular reactivity to acetazolamide using 1231-N-isopropyl-p-iodoamphetamine autoradiography with SPECT: Validation study using H2150 with PET. J Nucl Med 2003; 44: 520–525
- Ogasawara K, Yukawa H, Kobayashi M, et al. Prediction and monitoring of cerebral hyperperfusion after carotid endarterect-omy by using single-photon emission computerized tomography scanning. ] Neurosurg 2003; 99: 504–510
- Litscher G, Hadolt I, Eger E. Transcranial optical spectroscopy: A comparison of the TOS 96 and INVOS 3100 cerebral oximeters. Biomed Tech (Berl) 1998; 43: 133–136
- Nara I, Shiogai T, Hara M, et al. Comparative effects of hypothermia, barbiturate, and osmotherapy for cerebral oxygen metabolism, intracranial pressure, and cerebral perfusion pressure in patients with severe head injury. Acta Neurochir 1998; 71: 22–26
- Hosoda K, Kawaguchi T, Shibata Y, et al. Cerebral vasoreactivity and internal carotid artery flow help to identify patients at risk for hyperperfusion after carotid endarterectomy. Stroke 2001; 32: 1567–1573
- van Mook WN, Rennenberg RJ, Schurink GW, et al. Cerebral hyperperfusion syndrome. Lancet Neurol 2005; 4: 877–888
- Bernstein M, Fleming JF, Deck JH. Cerebral hyperperfusion after carotid endarterectomy: A cause of cerebral hemorrhage. Neurosurgery 1984; 15: 50–56
- Yoshimoto T, Houkin K, Kuroda S, etal. Low cerebral blood flow and perfusion reserve induce hyperperfusion after surgical revascularization: Case reports and analysis of cerebral hemody-namics. Surg Neurol 1997; 48: 132–139
- van der Schaaf IC, Horn J, Moll FL, et al. Transcranial Doppler monitoring after carotid endarterectomy. Ann Vasc Surg 2005; 19: 19–24
- Verhoeven BA, de Vries JP, Pasterkamp G, et al. Carotid atherosclerotic plaque characteristics are associated with micro-embol ization during carotid endarterectomy and procedural out-come. Stroke 2005; 36: 1735-1740
- Wolf O, Heider P, Heinz M, etal. Frequency, clinical significance and course of cerebral ischemic events after carotid endarter-ectomy evaluated by serial diffusion weighted imaging. Eur J Vasc Endovasc Surg 2004; 27: 167–171
- Kagstrom E, Smith ML, Siesjo BK. Recirculation in the rat brain following incomplete ischemia. I Cereb Blood Flow Metab 1983; 3: 183–192
- Singh NC, Kochanek PM, Schiding JK, et al. Uncoupled cerebral blood flow and metabolism after severe global ischemia in rats. I Cereb Blood Flow Metab 1992; 12: 802–808
- Astrup J, Siesjo BK, Symon L. Thresholds in cerebral ischemia: The ischemic penumbra. Stroke 1981; 12: 723–725