1[1]Roberts HC, Roberts TP, lee TY, et al. Dynamic, contrast-enhanced CT of human brain tumors: quantitative assessment of blood volume, blood flow and microvascular permeability: report of two cases [J]. AJNR Am J Nemroradiol, 2002,23(5):828-832.
2[2]Eastwood JD, Provenzale JM. Cerebral blood flow, blood volume, and vascular permeability of cerebral glioma assessed with dynamic CT perfusion imaging[J]. Neuroradiology, 2003,45(6):373-376.
3[3]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[J]. A JR Am J Roentgenol, 2002,179(3):783-789.
9[10]Provenzale JM, Wang GR, Brenner T, et al. Comparison of permeability in high-grade and low-grade brain tumors using dynamic susceptibility contrast MR imaging[J]. AJR Am J Roentgenol, 2002,178(3):711-716.
2Yeung WT, Lee TY, Del Maestro RF, et al. Effect of steroids on iopamidol blood-brain transfer constant and plasma volume in brain tumors measured with X-ray computed tomography. J Neurooncol, 1994,18:53
3Ford J, Miles K, Hayball M, et al. A simplified method for measurement of blood-brain barrier permeability using CT: preliminary results and the effect of RMP-7. In: Faulkner K et al. editors. Quantitative imaging in oncology. London: British Institute of Radiology, 1
4Miles KA, Hayball MP, Dixon AK. Color perfusion imaging: a new application of computed tomography. Lancet, 1991, 337:643
5Hamberg LM, Hunter GJ, Halpern EF, et al. Quantitative high resolution measurement of cerebral vascular physiology with slip-ring CT.AJNR, 1996, 17:639
6Tereda T, Nambu K, Hyotani G, et al. Cerebral blood flow: a method for quantitative measurement of cerebral vascular permeability using Xray CT and iodinated contrast medium. Neuroradiology, 1992, 34:290
7Cenic A, Nabavi DG, Graen RA, et al. Dynamic CT measurement of cerebral blood flow: a validation study. AJNR 1999, 20:63
8Nabavi DG, Cenic A, Dool J, et al. Quantitative assessment of cerebral hemodynamic using CT: Stability, accuracy, and precision studies in dogs. J Comput Assist Tomogra, 1999, 23:506
9Lee TY, Nabavi DG, Graen RA, et al. Validation of cerebral blood flow maps from contrast-enhanced cine CT scanning: comparison of infarct size from TTC staining and blood flow threshold in a rabbit focal cerebral ischemia model. Radiology, 2000, 213:1305
10Cenic A, Nabavi DG, Graen RA, et al. A CT method to measure hemodynamics in brain tumors: validation and application of cerebral blood flow maps. AJNR, 2000, 21:462
5Zhang M, Kono M. Solitary pulmonary nodules : evaluation of blood flow patterns with dynamic CT[ J ]. Radiology, 1997, 205 (2) : 471 - 478.
6Yi C A, Lee K S, Kim E A,et al. Solitary pulmonary nodules: dynamic enhanced multi-detector row CT study and comparison with vascular endothelial growth factor and microvessel density[J]. Radiology,2004, 233(1): 191-199.
7Lee T Y,Purdie T G,Stewart E. CT imaging of angiogenesis[ J]. Q J Nucl Med, 2003, 47(3) : 171 - 187.
8Dewan N A,Gupta N C,Redepenning L S,et al. Diagnostic efficacy of PET-FDG imaging in solitary pulmonary nodules. Potential role in evaluation and management[J]. Chest, 1993, 104(4) : 997 -1002.
9Littleton J T, Durizeh M L, Moeller G, et al. Pulmonary masses : contrast enhancement[J]. Radiology, 1990, 177(3): 861 -871.
10Swensen S J, Viggiano R W, Midthun D E,et al. Lung nodule enhancement at CT : muhicenter study [ J ]. Radiology, 2000, 214 ( 1 ) : 73 - 80.
