Relative Cerebral Blood Volume Maps Corrected for Contrast Agent Extravasation Significantly Correlate with Glioma Tumor Grade, Whereas Uncorrected Maps Do Not

References

1. ↵
   Sugahara T, Korogi Y, Kochi M, et al. Perfusion-sensitive MR imaging of gliomas: comparison between gradient-echo and spin-echo echo-planar imaging techniques. AJNR Am J Neuroradiol 2001;22:1306–15

   Abstract/FREE Full Text
2. ↵
   Knopp EA, Cha S, Johnson G, et al. Glial neoplasms: dynamic contrast-enhanced T2*-weighted MR imaging. Radiology 1999;211:791–98

   CrossRefPubMedWeb of Science
3. ↵
   Lam WW, Chan KW, Wong WL, et al. Pre-operative grading of intracranial glioma. Acta Radiol 2001;42:548–54

   PubMed
4. ↵
   Kremer S, Grand S, Remy C, et al. Cerebral blood volume mapping by MR imaging in the initial evaluation of brain tumors. J Neuroradiol 2002;29:105–13

   PubMed
5. ↵
   Donahue KM, Krouwer HG, Rand SD, et al. Utility of simultaneously acquired gradient-echo and spin-echo cerebral blood volume and morphology maps in brain tumor patients. Magn Reson Med 2000;43:845–53

   CrossRefPubMedWeb of Science
6. ↵
   Law M, Yang S, Babb JS, et al. Comparison of cerebral blood volume and vascular permeability from dynamic susceptibility contrast-enhanced perfusion MR imaging with glioma grade. AJNR Am J Neuroradiol 2004;25:746–55

   Abstract/FREE Full Text
7. ↵
   Lee SJ, Kim JH, Kim YM, et al. Perfusion MR imaging in gliomas: comparison with histologic tumor grade. Korean J Radiol 2001;2:1–7

   PubMed
8. ↵
   Shin JH, Lee HK, Kwun BD, et al. Using relative cerebral blood flow and volume to evaluate the histopathologic grade of cerebral gliomas: preliminary results. AJR Am J Roentgenol 2002;179:783–89

   CrossRefPubMed
9. ↵
   Jackson A, Kassner A, Annesley-Williams D, et al. Abnormalities in the recirculation phase of contrast agent bolus passage in cerebral gliomas: comparison with relative blood volume and tumor grade. AJNR Am J Neuroradiol 2002;23:7–14

   Abstract/FREE Full Text
10. ↵
    Roberts HC, Roberts TP, Bollen AW, et al. Correlation of microvascular permeability derived from dynamic contrast-enhanced MR imaging with histologic grade and tumor labeling index: a study in human brain tumors. Acad Radiol 2001;8:384–91

    CrossRefPubMed
11. ↵
    Tzika AA, Astrakas LG, Zarifi MK, et al. Multiparametric MR assessment of pediatric brain tumors. Neuroradiology 2003;45:1–10

    CrossRefPubMedWeb of Science
12. ↵
    Wu WC, Chen CY, Chung HW, et al. Discrepant MR spectroscopic and perfusion imaging results in a case of malignant transformation of cerebral glioma. AJNR Am J Neuroradiol 2002;23:1775–78

    Abstract/FREE Full Text
13. ↵
    Aronen HJ, Pardo FS, Kennedy DN, et al. High microvascular blood volume is associated with high glucose uptake and tumor angiogenesis in human gliomas. Clin Cancer Res 2000;6:2189–200

    Abstract/FREE Full Text
14. ↵
    Hartmann M, Heiland S, Harting I, et al. Distinguishing of primary cerebral lymphoma from high-grade glioma with perfusion-weighted magnetic resonance imaging. Neurosci Lett 2003;338:119–22

    CrossRefPubMedWeb of Science
15. ↵
    Kremer S, Grand S, Berger F, et al. Dynamic contrast-enhanced MRI: differentiating melanoma and renal carcinoma metastases from high-grade astrocytomas and other metastases. Neuroradiology 2003;45:44–49

    PubMed
16. ↵
    Siegal T, Rubinstein R, Tzuk-Shina T, et al. Utility of relative cerebral blood volume mapping derived from perfusion magnetic resonance imaging in the routine follow up of brain tumors. J Neurosurg 1997;86:22–27

    PubMedWeb of Science
17. ↵
    Cha S, Knopp EA, Johnson G, et al. Dynamic contrast-enhanced T2-weighted MR imaging of recurrent malignant gliomas treated with thalidomide and carboplatin. AJNR Am J Neuroradiol 2000;21:881–90

    Abstract/FREE Full Text
18. ↵
    Fuss M, Wenz F, Essig M, et al. Tumor angiogenesis of low-grade astrocytomas measured by dynamic susceptibility contrast-enhanced MRI (DSC-MRI) is predictive of local tumor control after radiation therapy. Int J Radiat Oncol Biol Phys 2001;51:478–82

    CrossRefPubMed
19. ↵
    Burger PC, Vogel FS, Green SB, et al. Glioblastoma multiforme and anaplastic astrocytoma: pathologic criteria and prognostic implications. Cancer 1985;56:1106–11

    CrossRefPubMedWeb of Science
20. ↵
    Papadimitriou JM, Woods AE. Structural and functional characteristics of the microcirculation in neoplasms. J Pathol 1975;116:65–72

    CrossRefPubMed
21. ↵
    Hacklander T, Hofer M, Reichenbach J, et al. [Possibilities of the use of MR tomography-based cerebral blood volume maps in the diagnosis of brain tumors]. Rofo 1995;163:484–89

    PubMed
22. ↵
    Villringer A, Rosen BR, Belliveau JW, et al. Dynamic imaging with lanthanide chelates in normal brain: contrast due to magnetic susceptibility effects. Magn Reson Med 1988;6:164–74

    CrossRefPubMedWeb of Science
23. ↵
    Rosen BR, Belliveau JW, Vevea JM, et al. Perfusion imaging with NMR contrast agents. Magn Reson Med 1990;14:249–65

    PubMedWeb of Science
24. ↵
    Boxerman JL, Rosen BR, Weisskoff RM. Signal-to-noise analysis of cerebral blood volume maps from dynamic NMR imaging studies. J Magn Reson Imaging 1997;7:528–37

    PubMed
25. ↵
    Kleihues P, Burger PC, Scheithauer BW. The new WHO classification of brain tumours. Brain Pathol 1993;3:255–68

    CrossRefPubMedWeb of Science
26. ↵
    Weisskoff RM, Boxerman JL, Sorensen AG, et al. Simultaneous blood volume and permeability mapping using a single Gd-based contrast injection. In: Proceedings of the Society of Magnetic Resonance, Second Annual Meeting; 1994 Aug 6–12; San Francisco, Calif.; Berkeley, Calif: Society of Magnetic Resonance;1994 :279
27. ↵
    Cox RW. AFNI: software for analysis and visualization of functional magnetic resonance neuroimages. Comput Biomed Res 1996;29:162–73

    CrossRefPubMedWeb of Science
28. ↵
    Cha S, Knopp EA, Johnson G, et al. Intracranial mass lesions: dynamic contrast-enhanced susceptibility-weighted echo-planar perfusion MR imaging. Radiology 2002;223:11–29

    CrossRefPubMedWeb of Science
29. ↵
    Wong JC, Provenzale JM, Petrella JR. Perfusion MR imaging of brain neoplasms. AJR Am J Roentgenol 2000;174:1147–57

    PubMed
30. ↵
    Wetzel SG, Cha S, Johnson G, et al. Relative cerebral blood volume measurements in intracranial mass lesions: interobserver and intraobserver reproducibility study. Radiology 2002;224:797–803

    CrossRefPubMedWeb of Science
31. ↵
    Vonken EJ, van Osch MJ, Bakker CJ, et al. Measurement of cerebral perfusion with dual-echo multi-slice quantitative dynamic susceptibility contrast MRI. J Magn Reson Imaging 1999;10:109–17

    CrossRefPubMed
32. Vonken EP, van Osch MJ, Bakker CJ, et al. Simultaneous quantitative cerebral perfusion and Gd-DTPA extravasation measurement with dual-echo dynamic susceptibility contrast MRI. Magn Reson Med 2000;43:820–27

    CrossRefPubMedWeb of Science
33. ↵
    Uematsu H, Maeda M, Sadato N, et al. Blood volume of gliomas determined by double-echo dynamic perfusion-weighted MR imaging: a preliminary study. AJNR Am J Neuroradiol 2001;22:1915–19

    Abstract/FREE Full Text
34. ↵
    Enochs WS, Harsh G, Hochberg F, et al. Improved delineation of human brain tumors on MR images using a long-circulating, superparamagnetic iron oxide agent. J Magn Reson Imaging 1999;9:228–32

    CrossRefPubMedWeb of Science
35. ↵
    Boxerman JL, Hamberg LM, Rosen BR, et al. MR contrast due to intravascular magnetic susceptibility perturbations. Magn Reson Med 1995;34:555–66

    CrossRefPubMedWeb of Science
36. ↵
    Aronen HJ, Gazit IE, Louis DN, et al. Cerebral blood volume maps of gliomas: comparison with tumor grade and histologic findings. Radiology 1994;191:41–51

    PubMedWeb of Science
37. ↵
    Schmainda KM, Rand SD, Joseph AM, et al. Characterization of a first-pass gradient-echo spin-echo method to predict brain tumor grade and angiogenesis. AJNR Am J Neuroradiol 2004;25:1524–32

    Abstract/FREE Full Text
38. ↵
    Deane BR, Lantos PL. The vasculature of experimental brain tumours. Part 1. A sequential light and electron microscope study of angiogenesis. J Neurol Sci 1981;49:55–66

    CrossRefPubMed
39. ↵
    Zama A, Tamura M, Inoue HK. Three-dimensional observations on microvascular growth in rat glioma using a vascular casting method. J Cancer Res Clin Oncol 1991;117:396–402

    CrossRefPubMedWeb of Science
40. ↵
    Johnson G, Wetzel SG, Cha S, et al. Measuring blood volume and vascular transfer constant from dynamic, T₂*-weighted contrast-enhanced MRI. Magn Reson Med 2004;51:961–68

    CrossRefPubMed
41. ↵
    Yang D, Korogi Y, Sugahara T, et al. Cerebral gliomas: prospective comparison of multivoxel 2D chemical-shift imaging proton MR spectroscopy, echoplanar perfusion and diffusion-weighted MRI. Neuroradiology 2002;44:656–66

    CrossRefPubMed
42. ↵
    Wagner ML, Ulmer JL, Rand SD, et al. Relationship between contrast enhancement and brain tumor neovascularity revealed by blood volume functional imaging. In: ASNR American Society of Neuroradiology 42nd Annual Meeting; 2004 Jun 5–11; Seattle, Wash; Oak Brook, Ill: American Society of Neuroradiology; 2004:18
43. ↵
    Daumas-Duport C, Scheithauer B, O’Fallon J, et al. Grading of astrocytomas. A simple and reproducible method. Cancer 1988;62:2152–65

    CrossRefPubMedWeb of Science
44. ↵
    Lassen NA. Cerebral transit of an intravascular tracer may allow measurement of regional blood volume but not regional blood flow. J Cereb Blood Flow Metab 1984;4:633–34

    PubMedWeb of Science
45. ↵
    Weisskoff RM, Chesler D, Boxerman JL, et al. Pitfalls in MR measurement of tissue blood flow with intravascular tracers: which mean transit time? Magn Reson Med 1993;29:553–58

    PubMedWeb of Science
46. ↵
    Thompson H, Starmer C, Whalen R, et al. Indicator transit time considered as a gamma variate. Circ Res 1964;14:502–15

    FREE Full Text
47. ↵
    Larsson H, Stubgaard M, Frederiksen J, et al. Quantitation of blood-brain barrier defect by magnetic resonance imaging and gadolinium-DTPA in patients with multiple sclerosis and brain tumors. Magn Reson Med 1990;16:117–31

    PubMed
48. ↵
    Donahue KM, Burstein D, Manning WJ, et al. Studies of Gd-DTPA relaxivity and proton exchange rates in tissue. Magn Reson Med 1994;32:66–76

    PubMedWeb of Science
49. ↵
    Quirk JD, Bretthorst GL, Duong TQ, et al. Equilibrium water exchange between the intra- and extracellular spaces of mammalian brain. Magn Reson Med 2003;50:493–99

    CrossRefPubMedWeb of Science