Probing tumor microvascularity by measurement, analysis and display of contrast agent uptake kinetics

This paper describes a measurement protocol for acquiring quantitative dynamic MRI data and novel analysis and display software (Magnetic Resonance Imaging Workbench (MRIW)). Proton density‐weighted and T1‐weighted two‐dimensional gradient echo images are used to quantify tissue contrast agent concentration. The dynamic studies last approximately 7 minutes, with 10‐second temporal resolution. Analyses of signal and concentration changes with time are performed, allowing capillary permeability‐surface area product, tissue leakage space, enhancement onset time, mean enhancement gradient and maximum enhancement level to be mapped as false‐color parametric overlays registered with anatomic images. Quantification of permeability and leakage space provides a method for comparing physiology in patients between visits or for intersite comparisons.

[1]  O Henriksen,et al.  In vivo quantification of the unidirectional influx constant for Gd‐DTPA diffusion across the myocardial capillaries with MR imaging , 1994, Journal of magnetic resonance imaging : JMRI.

[2]  Y. D. Deene,et al.  First-pass images of musculoskeletal lesions: a new and useful diagnostic application of dynamic contrast-enhanced MRI. , 1994, Magnetic resonance imaging.

[3]  S. Cherry,et al.  Measurements of blood-brain barrier permeability in patients undergoing radiotherapy and chemotherapy for primary cerebral lymphoma. , 1991, European journal of cancer.

[4]  R. Gilles,et al.  Assessment of breast cancer recurrence with contrast-enhanced subtraction MR imaging: preliminary results in 26 patients. , 1993, Radiology.

[5]  T. Foster,et al.  Quantitative MRI of Gd‐DTPA uptake in tumors: Response to photo dynamic therapy , 1994, Magnetic resonance in medicine.

[6]  D M Shames,et al.  Measurement of capillary permeability to macromolecules by dynamic magnetic resonance imaging: A quantitative noninvasive technique , 1993, Magnetic resonance in medicine.

[7]  W. J. Lorenz,et al.  Pharmacokinetic Mapping of the Breast: A New Method for Dynamic MR Mammography , 1995, Magnetic resonance in medicine.

[8]  O Lucidarme,et al.  Nonpalpable breast tumors: diagnosis with contrast-enhanced subtraction dynamic MR imaging. , 1994, Radiology.

[9]  C. Pozzilli,et al.  Simplified, noninvasive PET measurement of blood-brain barrier permeability. , 1987, Journal of computer assisted tomography.

[10]  S. Edge,et al.  Suspect breast lesions: findings at dynamic gadolinium-enhanced MR imaging correlated with mammographic and pathologic features. , 1995, Radiology.

[11]  P S Tofts,et al.  Quantitative Analysis of Dynamic Gd‐DTPA Enhancement in Breast Tumors Using a Permeability Model , 1995, Magnetic resonance in medicine.

[12]  T. Murakami,et al.  Detection of Hypervascular Hepatocellular Carcinoma by Dynamic MRI and Dynamic Spiral CT , 1995, Journal of computer assisted tomography.

[13]  Y. Yamashita,et al.  Dynamic MRI of Small Renal Cell Carcinoma , 1995, Journal of computer assisted tomography.

[14]  J T Ennis,et al.  Breast disease: tissue characterization with Gd-DTPA enhancement profiles. , 1990, Radiology.

[15]  B. Rosen,et al.  Pitfalls in MR measurement of tissue blood flow with intravascular tracers: Which mean transit time? , 1993, Magnetic resonance in medicine.

[16]  J. Folkman What is the evidence that tumors are angiogenesis dependent? , 1990, Journal of the National Cancer Institute.

[17]  O Nalcioglu,et al.  Measurement of vascular volume fraction and blood‐tissue permeability constants with a pharmacokinetic model: Studies in rat muscle tumors with dynamic Gd‐DTPA enhanced MRI , 1994, Magnetic resonance in medicine.

[18]  I. Gribbestad,et al.  Comparative signal intensity measurements in dynamic gadolinium‐enhanced MR mammography , 1994, Journal of magnetic resonance imaging : JMRI.

[19]  H. Genant,et al.  Musculoskeletal neoplasm: perineoplastic edema versus tumor on dynamic postcontrast MR images with spatial mapping of instantaneous enhancement rates. , 1995, Radiology.

[20]  P. Tofts,et al.  Measurement of the blood‐brain barrier permeability and leakage space using dynamic MR imaging. 1. Fundamental concepts , 1991, Magnetic resonance in medicine.

[21]  H. Junkermann,et al.  Pharmakokinetische Analyse der Gd-DTPA-Anreicherung in der MRT beim Mammakarzinom , 1994 .

[22]  K Ito,et al.  Multislice Dynamic MRI of Hepatic Tumors , 1993, Journal of computer assisted tomography.

[23]  W. Kaiser,et al.  MR imaging of the breast: fast imaging sequences with and without Gd-DTPA. Preliminary observations. , 1989, Radiology.

[24]  B. D. Klein,et al.  Dynamic MR mammography: A technique for potentially reducing the biopsy rate for benign breast disease , 1994, Journal of magnetic resonance imaging : JMRI.

[25]  D. Le Guludec,et al.  Functional evaluation of normal and ischemic kidney by means of gadolinium-DOTA enhanced TurboFLASH MR imaging: a preliminary comparison with 99Tc-MAG3 dynamic scintigraphy. , 1994, Magnetic resonance imaging.

[26]  J. Allison,et al.  Differentiation of benign from malignant breast masses by time-intensity evaluation of contrast enhanced MRI. , 1993, Magnetic resonance imaging.

[27]  W J Manning,et al.  Studies of Gd‐DTPA relaxivity and proton exchange rates in tissue , 1994, Magnetic resonance in medicine.

[28]  M Recht,et al.  Method for the quantitative assessment of contrast agent uptake in dynamic contrast‐enhanced MRI , 1994, Magnetic resonance in medicine.

[29]  G. Newstead,et al.  MR imaging of the breast. , 1995, Radiology.

[30]  P. Gowland,et al.  Dynamic studies of gadolinium uptake in brain tumors using inversion‐recovery echo‐planar imaging , 1992, Magnetic resonance in medicine.

[31]  M Cortsen,et al.  In vivo measurements of proton relaxation times in human brain, liver, and skeletal muscle: a multicenter MRI study. , 1993, Magnetic resonance imaging.

[32]  P. S. Tofts,et al.  Rapid Measurement of Capillary Permeability Using the Early Part of the Dynamic Gd-DTPA MRI Enhancement Curve , 1993 .

[33]  L R Schad,et al.  Pharmacokinetic parameters in CNS Gd-DTPA enhanced MR imaging. , 1991, Journal of computer assisted tomography.

[34]  Janet E. Husband,et al.  The role of intravenous contrast enhancement in magnetic resonance imaging of prostatic carcinoma , 1995 .

[35]  William H. Press,et al.  The Art of Scientific Computing Second Edition , 1998 .

[36]  A. Haase,et al.  Snapshot flash mri. applications to t1, t2, and chemical‐shift imaging , 1990, Magnetic resonance in medicine.