Detecting Misery Perfusion in Unilateral Steno-Occlusive Disease of the Internal Carotid Artery or Middle Cerebral Artery by MR Imaging

References

1. 1.↵
   1. Baron JC,
   2. Bousser MG,
   3. Rey A,
   4. et al

   . Reversal of focal “misery perfusion syndrome” by extraintracranial artery bypass in hemodynamic cerebral ischemia: a case study with O15 positron emission tomography. Stroke 1981;12:454–59

   Abstract/FREE Full Text
2. 2.↵
   1. Derdeyn CP,
   2. Videen TO,
   3. Yundt KD,
   4. et al

   . Variability of cerebral blood volume and oxygen extraction: stages of cerebral haemodynamic impairment revisited. Brain 2002;125 (pt 3):595–607

   Abstract/FREE Full Text
3. 3.↵
   1. Powers WJ,
   2. Press GA,
   3. Grubb RL Jr.,
   4. et al

   . The effect of hemodynamically significant carotid artery disease on the hemodynamic status of the cerebral circulation. Ann Intern Med 1987;106:27–35

   CrossRefPubMedWeb of Science
4. 4.↵
   1. Yamauchi H,
   2. Fukuyama H,
   3. Nagahama Y,
   4. et al

   . Significance of increased oxygen extraction fraction in five-year prognosis of major cerebral arterial occlusive diseases. J Nucl Med 1999;40:1992–98

   Abstract/FREE Full Text
5. 5.↵
   1. Grubb RL Jr.,
   2. Derdeyn CP,
   3. Fritsch SM,
   4. et al

   . The importance of hemodynamic factors in the prognosis of symptomatic carotid occlusion. JAMA 1998;280:1055–60

   CrossRefPubMedWeb of Science
6. 6.↵
   1. Hasegawa Y,
   2. Yamaguchi T,
   3. Tsuchiya T,
   4. et al

   . Sequential change of hemodynamic reserve in patients with major cerebral artery occlusion or severe stenosis. Neuroradiology 1992;34:15–21

   CrossRefPubMedWeb of Science
7. 7.↵
   1. Yokota C,
   2. Hasegawa Y,
   3. Minematsu K,
   4. et al

   . Effect of acetazolamide reactivity on [corrected] long-term outcome in patients with major cerebral artery occlusive diseases. Stroke 1998;29:640–44

   Abstract/FREE Full Text
8. 8.↵
   1. Klijn CJ,
   2. Kappelle LJ,
   3. van Huffelen AC,
   4. et al

   . Recurrent ischemia in symptomatic carotid occlusion: prognostic value of hemodynamic factors. Neurology 2000;55:1806–12

   Abstract/FREE Full Text
9. 9.↵
   1. Fisher M,
   2. Sotak CH,
   3. Minematsu K,
   4. et al

   . New magnetic resonance techniques for evaluating cerebrovascular disease. Ann Neurol 1992;32:115–22

   CrossRefPubMedWeb of Science
10. 10.↵
    1. Brown MM,
    2. Wade JP,
    3. Bishop CC,
    4. et al

    . Reactivity of the cerebral circulation in patients with carotid occlusion. J Neurol Neurosurg Psychiatry 1986;49:899–904

    Abstract/FREE Full Text
11. 11.↵
    1. Nöth U,
    2. Kotajima F,
    3. Deichmann R,
    4. et al

    . Mapping of the cerebral vascular response to hypoxia and hypercapnia using quantitative perfusion MRI at 3 T. NMR Biomed 2008;21:464–72

    CrossRefPubMedWeb of Science
12. 12.↵
    1. Geisler BS,
    2. Brandhoff F,
    3. Fiehler J,
    4. et al

    . Blood oxygen level–dependent MRI allows metabolic description of tissue at risk in acute stroke patients. Stroke 2006;37:1778–84

    Abstract/FREE Full Text
13. 13.↵
    1. An H,
    2. Lin W

    . Impact of intravascular signal on quantitative measures of cerebral oxygen extraction and blood volume under normo- and hypercapnic conditions using an asymmetric spin echo approach. Magn Reson Med 2003;50:708–16

    CrossRefPubMed
14. 14.↵
    1. Petersen ET,
    2. Zimine I,
    3. Ho YC,
    4. et al

    . Non-invasive measurement of perfusion: a critical review of arterial spin labelling techniques. Br J Radiol 2006;79:688–701

    Abstract/FREE Full Text
15. 15.↵
    1. An H,
    2. Lin W

    . Quantitative measurements of cerebral blood oxygen saturation using magnetic resonance imaging. J Cereb Blood Flow Metab 2000;20:1225–36

    PubMedWeb of Science
16. 16.↵
    1. Astrup J,
    2. Seisjo BK,
    3. Symon L

    . Thresholds in cerebral ischemia: the ischemic penumbra. Stroke 1981;12:723–25

    FREE Full Text
17. 17.↵
    1. Derdeyn CP,
    2. Grubb RL Jr.,
    3. Powers WJ

    . Cerebral hemodynamic impairment: methods of measurement and association with stroke risk. Neurology 1999;53:251–59

    Abstract/FREE Full Text
18. 18.↵
    1. Tanaka M,
    2. Shimosegawa E,
    3. Kajimoto K,
    4. et al

    . Chronic middle cerebral artery occlusion: a hemodynamic and metabolic study with positron-emission tomography. AJNR Am J Neuroradiol 2008;29:1841–46

    Abstract/FREE Full Text
19. 19.↵
    1. Hokari M,
    2. Kuroda S,
    3. Shiga T,
    4. et al

    . Combination of a mean transit time measurement with an acetazolamide test increases predictive power to identify elevated oxygen extraction fraction in occlusive carotid artery diseases. J Nucl Med 2008;49:1922–27

    Abstract/FREE Full Text
20. 20.↵
    1. van Laar PJ,
    2. Hendrikse J,
    3. Klijn CJ,
    4. et al

    . Symptomatic carotid artery occlusion: flow territories of major brain-feeding arteries. Radiology 2007;242:526–34

    CrossRefPubMedWeb of Science
21. 21.↵
    1. Arakawa S,
    2. Minematsu K,
    3. Hirano T,
    4. et al

    . Topographic distribution of misery perfusion in relation to internal and superficial borderzones. AJNR Am J Neuroradiol 2003;24:427–35

    Abstract/FREE Full Text
22. 22.↵
    1. De Reucka J,
    2. Paemeleire K,
    3. Decoo D,
    4. et al

    . Cerebral blood flow and oxygen metabolism in borderzone and territorial infarcts due to symptomatic carotid artery occlusion. Euro J Neurol 2004;11:225–30

    CrossRef
23. 23.↵
    1. Kuroda S,
    2. Shiga T,
    3. Ishikawa T,
    4. et al

    . Reduced blood flow and preserved vasoreactivity characterize oxygen hypometabolism due to incomplete infarction in occlusive carotid artery diseases. J Nucl Med 2004;45:943–49

    Abstract/FREE Full Text
24. 24.↵
    1. van der Grond J,
    2. Eikelboom BC,
    3. Mali WP

    . Flow-related anaerobic metabolic changes in patients with severe stenosis of the internal carotid artery. Stroke 1996;27:2026–32

    Abstract/FREE Full Text
25. 25.↵
    1. Derdeyn CP,
    2. Khosla A,
    3. Videen TO,
    4. et al

    . Severe hemodynamic impairment and borderzone-region infarction. Radiology 2001;220:195–201

    CrossRefPubMedWeb of Science
26. 26.↵
    1. Caplan LR,
    2. Hennerici M

    . Impaired clearance of emboli (washout) is an important link between hypoperfusion, embolism, and ischemic stroke. Arch Neurol 1988;55:1475–82

    CrossRef
27. 27.↵
    1. Carroll TJ,
    2. Teneggi V,
    3. Jobin M,
    4. et al

    . Absolute quantification of cerebral blood flow with magnetic resonance, reproducibility of the method, and comparison with H2¹⁵O positron emission tomography. J Cereb Blood Flow Metab 2002;22:1149–56

    CrossRefPubMedWeb of Science
28. 28.↵
    1. Qiu M,
    2. Paul Maguire R,
    3. Arora J,
    4. et al

    . Arterial transit time effects in pulsed arterial spin labeling CBF mapping: insight from a PET and MR study in normal human subjects. Magn Reson Med 2010;63:374–84

    CrossRefPubMed
29. 29.↵
    1. Van Osch MJ,
    2. Teeuwisse WM,
    3. Van Walderveen MA,
    4. et al

    . Can arterial spin labeling detect white matter perfusion signal? Magn Reson Med 2009;62:165–73

    CrossRefPubMed
30. 30.↵
    1. Yamauchi H,
    2. Fukuyama H,
    3. Nagahama Y,
    4. et al

    . Cerebral hematocrit decreases with hemodynamic compromise in carotid artery occlusion: a PET study. Stroke 1998;29:98–103

    Abstract/FREE Full Text