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Acta Radiologica Volume 37, 1996 - Issue 5
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Original Article

Susceptibility Contrast Imaging of CO2-Induced Changes in the Blood Volume of the Human Brain

E. Rostrup Danish Research Center of Magnetic Resonance, University of Copenhagen, Denmark
,
H. B. W. Larsson Department of Clinical Physiology and Nuclear Medicine, Hvidovre Hospital, University of Copenhagen, Denmark
,
P. B. Toft Danish Research Center of Magnetic Resonance, University of Copenhagen, Denmark
,
K. Garde Danish Research Center of Magnetic Resonance, University of Copenhagen, Denmark
,
P. B. Ring Danish Research Center of Magnetic Resonance, University of Copenhagen, Denmark
&
O. Henriksen Danish Research Center of Magnetic Resonance, University of Copenhagen, Denmark
Pages 813-822 | Accepted 08 Nov 1995, Published online: 07 Jan 2010

References

  • Axel L. Cerebral blood flow determination by rapid-sequence computed tomography. Theoretical analysis. Radiology 1980; 137: 679
  • Bandettini P. A., Wong E. C., Hinks R. S., Tikofsky R. S., Hyde J. S. Time course EPI of human brain function during task activation. Magn. Reson. Med. 1992; 25: 390
  • Belliveau J. W., Rosen B. R., Kantor H. L., et al. Functional cerebral imaging by susceptibility-contrast NMR. Magn. Reson. Med. 1990; 14: 538
  • Connelly A., Jackson G. D., Frackowiak R. S., Belliveau J. W., Khadem F. Vargha, Gadian D. G. Functional mapping of activated human primary cortex with a clinical MR imaging system. Radiology 1993; 188: 125
  • Constable R. T., McCarthy G., Allison T., Anderson A. W., Gore J. C. Functional brain imaging at 1.5 T using conventional gradient echo MR imaging techniques. Magn. Reson. Imaging 1993; 11: 451
  • Detre J. A., Leigh J. S., Williams D. S., Koretsky A. P. Perfusion imaging. Magn. Reson. Med. 1992; 23: 37
  • Detre J. A., Zhang W., Roberts D. A., et al. Tissue specific perfusion imaging using arterial spin labeling. NMR Biomed. 1994; 7: 75
  • Edelman R. R., Mattle H. P., Atkinson D. J., et al. Cerebral blood flow. Assessment with dynamic contrast-enhanced T2*-weighted MR imaging at 1.5 T. Radiology 1990; 176: 211
  • Edelman R. R., Siewert B., Darby D. G., et al. Qualitative mapping of cerebral blood flow and functional localization with echo-planar MR imaging and signal targeting with alternating radiofrequency. Radiology 1994; 192: 513
  • Ellerman J. M., Flament D., Kim S. G., et al. Spatial patterns of functional activation of the cerebellum investigated using high field (4 T) MRI. NMR Biomed. 1994; 7: 63
  • Ellingsen I., Hauge A., Nicolaysen G., Thoresen M., Walloe L. Changes in human cerebral blood flow due to step changes in PaO2 and PaCO2. Acta Physiol. Scand. 1987; 129: 157
  • Fisel C. R., Ackerman J. L., Buxton R. B., et al. MR contrast due to microscopically heterogeneous magnetic susceptibility. Numerical simulations and applications to cerebral physiology. Magn. Reson. Med. 1991; 17: 336
  • Frahm J., Merboldt K. D., Hanicke W. Functional MRI of human brain activation at high spatial resolution. Magn. Reson. Med. 1993; 29: 139
  • Fritz-Hansen T., Rostrup E., Larsson H. B. W., Sondergaard L., Ring P., Henriksen O. Measurement of the concentration of Gd-DTPA during dynamic conditions. Proc. Soc. Magn. Reson. 1994, abstract 889
  • Gore J. C., Majumdar S. Measurement of tissue blood flow using intravascular relaxation agents and magnetic resonance imaging. Magn. Reson. Med. 1990; 14: 242
  • Greenberg J. H., Alavi A., Reivich M., Kuhl D., Uzzell B. Local cerebral blood volume response to carbon dioxide in man. Circ. Res. 1978; 43: 324
  • Greenberg J. H., Reivich M., Noordergraaf A. A model of cerebral blood flow control in hypercapnia. Ann. Biomed. Eng. 1978; 6: 453
  • Gückel F., Brix G., Rempp K., Deimling M., Rother J., Georgi M. Assessment of cerebral blood volume with dynamic susceptibility contrast enhanced gradient-echo imaging. J. Comput. Assist. Tomogr. 1994; 18: 344
  • Kim S. G., Hendrich K., Hu X., Merkle H., Ugurbil K. Potential pitfalls of functional MRI using conventional gradient-recalled echo techniques. NMR Biomed. 1994; 7: 69
  • Kucharczyk J., Roberts T., Moseley M. E., Watson A. Contrast-enhanced perfusion-sensitive MR imaging in the diagnosis of cerebrovascular disorders. J. Magn. Reson. Imaging 1993; 3: 241
  • Kuhl D. E., Reivich M., Alavi A., Nyary I., Staum M. M. Local cerebral blood volume determined by three-dimensional reconstruction of radionuclide scan data. Circ. Res. 1975; 36: 610
  • Kwong K. K., Belliveau J. W., Chesler D. A., et al. Dynamic magnetic resonance imaging of human brain activity during primary sensory stimulation. Proc. Natl. Acad. Sci. USA 1992; 89: 5675
  • Ladurner G., Zilkha E., Iliff D., du Boulay G. H., Marshall J. Measurement of regional cerebral blood volume by computerized axial tomography. J. Neurol. Neurosurg. Psychiat. 1976; 39: 152
  • Lassen N. A. Cerebral transit of an intravascular tracer may allow measurement of regional blood volume but not regional blood flow (letter). J. Cereb. Blood Flow Metab. 1984; 4: 633
  • Lassen N. A., Henriksen O., Sejrsen P. Indicator methods for measurements of organ and tissue blood flow. Handbook of physiology, J. T. Shepherd, F. M. Abboud. Am. Physiol. Soc. 1983
  • Majumdar S., Zoghbi S., Pope C. F., Gore J. C. A quantitative study of relaxation rate enhancement produced by iron oxide particles in polyacrylamide gels and tissue. Magn. Reson. Med. 1989; 9: 185
  • Mathew N. T., Meyer J. S., Bell R. L., Johnson P. C., Neblett C. R. Regional cerebral blood flow and blood volume measured with the gamma camera. Neuroradiology 1972; 4: 133
  • Moseley M. E., Chew W. M., White D. L., et al. Hypercarbia-induced changes in cerebral blood volume in the cat. A 1H MRI and intravascular contrast agent study. Magn. Reson. Med. 1992; 23: 21
  • Ogawa S., Lee T. M., Kay A. R., Tank D. W. Brain magnetic resonance imaging with contrast dependent on blood oxygenation. Proc. Natl. Acad. Sci. USA 1990; 87: 9868
  • Ogawa S., Tank D. W., Menon R., et al. Intrinsic signal changes accompanying sensory stimulation. Functional brain mapping with magnetic resonance imaging. Proc. Natl. Acad. Sci. USA 1992; 89: 5951
  • Phelps M. E., Grubb R. L., Jr., Pogossian M. M. Ter. Correlation between PaCO2 and regional cerebral blood volume by X-ray fluorescence. J. Appl. Physiol. 1973; 35: 274
  • Prato F. S., Wisenberg G., Marshall T. P., Uksik P., Zabel P. Comparison of the biodistribution of gadolinium-153 DTPA and technetium-99m DTPA in rats. J. Nucl. Med. 1988; 29: 1683
  • Rosen B. R., Belliveau J. W., Aronen H. J., et al. Susceptibility contrast imaging of cerebral blood volume. Human experience. Magn. Reson. Med. 1991; 22: 293
  • Rosen B. R., Belliveau J. W., Vevea J. M., Brady T. J. Perfusion imaging with NMR contrast agents. Magn. Reson. Med. 1990; 14: 249
  • Rostrup E., Larsson H. B. W., Toft P. B., et al. Functional MRI of CO2-induced increase in cerebral perfusion. NMR Biomed. 1994; 7: 29
  • Schwarzbauer C., Syha J., Haase A. Quantification of regional blood volumes by rapid T1 mapping. Magn. Reson. Med. 1993; 29: 709
  • Schwarzbauer C., Zange J., Nöth U., Adolf H., Deichmann R., Haase A. Quantitative dynamical mapping of regional cerebral blood volumes. Proc. Soc. Magn. Reson. 1994, abstract 197
  • Smith A. L., Neufeld G. R., Ominsky A. J., Wollman H. Effect of arterial CO2 tension on cerebral blood flow, mean transit time, and vascular volume. J. Appl. Physiol. 1971; 31: 701
  • Thompson H. K., Starmer F., Whalen R. E., McIntosh H. D. Indicator transit time considered as a gamma variate. Circ. Res. 1964; 14: 502
  • Tzika A. A., Massoth R. J., Ball W. S., Jr., Majumdar S., Dunn R. S., Kirks D. R. Cerebral perfusion in children. Detection with dynamic contrast-enhanced T2*-weighted MR images. Radiology 1993; 187: 449
  • Villringer A., Rosen B. R., Belliveau J. W., et al. Dynamic imaging with lanthanide chelates in normal brain. Contrast due to magnetic susceptibility effects. Magn. Reson. Med. 1988; 6: 164
  • Wendland M. F., White D. L., Aicher K. P., Tzika A. A., Moseley M. E. Detection with echo-planar MR imaging of transit of susceptibility contrast medium in a rat model of regional brain ischemia. J. Magn. Reson. Imaging 1991; 1: 285
  • Zierler K. L. Equations for measuring blood flow by external monitoring of radioisotopes. Circ. Res. 1965; 16: 309

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