Your search keyword '"Law, Meng"' showing total 553 results

551. Proton MR spectroscopy of tumefactive demyelinating lesions.

Author

Saindane AM, Cha S, Law M, Xue X, Knopp EA, and Zagzag D

Subjects

Adult, Aspartic Acid metabolism, Brain metabolism, Brain Neoplasms metabolism, Creatine metabolism, Demyelinating Diseases metabolism, Diagnosis, Differential, Female, Glioma metabolism, Humans, Male, Middle Aged, Retrospective Studies, Aspartic Acid analogs & derivatives, Brain pathology, Brain Neoplasms diagnosis, Demyelinating Diseases diagnosis, Glioma diagnosis, Magnetic Resonance Spectroscopy

Abstract

Background and Purpose: Tumefactive demyelinating lesions (TDLs) can simulate intracranial neoplasms in clinical presentation and MR imaging appearance, and surgical biopsy is often performed in suspected tumors. Proton MR spectroscopy has been applied in assessing various intracranial diseases and is increasingly used in diagnosis and clinical management. Our purpose was to determine if multivoxel proton MR spectroscopy can be used to differentiate TDLs and high-grade gliomas., Methods: Conventional MR images, proton MR spectra, and medical records were retrospectively reviewed in six patients with TDLs diagnosed by means of biopsy or by documented clinical improvement, with or without supporting laboratory testing and follow-up imaging. Proton MR spectra of 10 high-grade gliomas with similar conventional MR imaging appearances were used for comparison. In contrast-enhancing, central, and perilesional areas of each lesion, peak heights of N-acetylaspartate (NAA), choline (Cho), and creatine (Cr) were measured and the lactate peak noted. Cho/Cr and NAA/Cr ratios of corresponding regions in TDLs and gliomas were compared., Results: No significant differences in mean Cho/Cr ratios were found in the corresponding contrast-enhancing, central, or perilesional areas of TDLs and gliomas. The mean central-region NAA/Cr ratio in gliomas was significantly lower than that of TDLs, but mean NAA/Cr ratios in other regions were not significantly different. A lactate peak was identified in four of six TDLs and three of 10 gliomas., Conclusion: In the cases examined, the NAA/Cr ratio in the central region of TDLs and high-grade gliomas differed significantly. However, overall metabolite profiles of both lesions were similar; this finding emphasizes the need for the cautious interpretation of spectroscopic findings.

Published

2002

552. Relative cerebral blood volume measurements in intracranial mass lesions: interobserver and intraobserver reproducibility study.

Author

Wetzel SG, Cha S, Johnson G, Lee P, Law M, Kasow DL, Pierce SD, and Xue X

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Child, Child, Preschool, Female, Humans, Male, Middle Aged, Observer Variation, Reproducibility of Results, Blood Volume Determination methods, Brain Neoplasms physiopathology, Cerebrovascular Circulation physiology, Magnetic Resonance Imaging

Abstract

Purpose: To assess inter- and intraobserver reproducibility for different techniques of measuring relative cerebral blood volume (rCBV) in patients with intracranial mass lesions., Materials and Methods: Three independent observers (neuroradiology fellows) who were blinded to the histopathologic diagnosis performed rCBV measurements in 50 patients with various intracranial mass lesions. Three different methods were compared. With method 1, placement of a single region of interest was guided by a color overlay map. With methods 2 and 3, the highest rCBV value and the mean of repeated rCBV measurements, respectively, were recorded. Calculations of the intraclass correlation coefficient, coefficient of variation (CV), and descriptive statistics were used to determine the levels of reproducibility. A multiple linear regression model was used to evaluate for possible explanatory factors for interobserver variance., Results: Method 2 had, overall, the best reproducibility of all techniques, with an intraclass interobserver correlation coefficient of 0.71 (indicating good agreement), interobserver CV of 30%, and intraobserver CV in the range of 32%-41%. Measurement variations between observers correlated significantly (P <.001) with increasing rCBV values., Conclusion: In this study, interobserver and intraobserver reproducibility of rCBV measurements were clinically acceptable., (Copyright RSNA, 2002)

Published

2002

553. High-grade gliomas and solitary metastases: differentiation by using perfusion and proton spectroscopic MR imaging.

Author

Law M, Cha S, Knopp EA, Johnson G, Arnett J, and Litt AW

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Aspartic Acid analysis, Blood Volume, Brain Chemistry, Brain Neoplasms blood supply, Brain Neoplasms chemistry, Brain Neoplasms pathology, Cerebrovascular Circulation, Choline analysis, Contrast Media, Creatine analysis, Diagnosis, Differential, Female, Glioma blood supply, Glioma chemistry, Humans, Male, Middle Aged, Aspartic Acid analogs & derivatives, Brain pathology, Brain Neoplasms diagnosis, Glioma diagnosis, Glioma secondary, Magnetic Resonance Imaging, Magnetic Resonance Spectroscopy

Abstract

Purpose: To determine whether perfusion-weighted and proton spectroscopic MR imaging can be used to differentiate high-grade primary gliomas and solitary metastases on the basis of differences in vascularity and metabolite levels in the peritumoral region., Materials and Methods: Fifty-one patients with a solitary brain tumor (33 gliomas, 18 metastases) underwent conventional, contrast material--enhanced perfusion-weighted, and proton spectroscopic MR imaging before surgical resection or stereotactic biopsy. Of the 33 patients with gliomas, 22 underwent perfusion-weighted MR imaging; nine, spectroscopic MR imaging; and two underwent both. Of the 18 patients with metastases, 12 underwent perfusion-weighted MR imaging, and six, spectroscopic MR imaging. The peritumoral region was defined as the area in the white matter immediately adjacent to the enhancing (hyperintense on T2-weighted images, but not enhancing on postcontrast T1-weighted images) portion of the tumor. Relative cerebral blood volumes in these regions were calculated from perfusion-weighted MR data. Spectra from the enhancing tumor, the peritumoral region, and normal brain were obtained from the two-dimensional spectroscopic MR acquisition. The Student t test was used to determine if there was a statistically significant difference in relative cerebral blood volume and metabolic ratios between high-grade gliomas and metastases., Results: The measured relative cerebral blood volumes in the peritumoral region in high-grade gliomas and metastases were 1.31 +/- 0.97 (mean +/- SD) and 0.39 +/- 0.19, respectively. The difference was statistically significant (P <.001). Spectroscopic imaging demonstrated elevated choline levels (choline-to-creatine ratio was 2.28 +/- 1.24) in the peritumoral region of gliomas but not in metastases (choline-to-creatine ratio was 0.76 +/- 0.23). The difference was statistically significant (P =.001)., Conclusion: Although conventional MR imaging characteristics of solitary metastases and primary high-grade gliomas may sometimes be similar, perfusion-weighted and spectroscopic MR imaging enable distinction between the two.

Published

2002