BACKGROUND AND PURPOSE: Contrast leakage results in underestimation of the CBV of brain tumors. Our aim was to compare the diagnostic performance of DSC perfusion MR imaging without and with mathematic contrast-leakage correction in differentiating PCNSLs and glioblastomas. %26lt;br%26gt;MATERIALS AND METHODS: Perfusion parametersCBV, corrected CBV, and leakage coefficientwere measured in enhancing tumor portions and contralateral NAWM of 15 PCNSLs and 20 glioblastomas, respectively. The ratios of CBV and corrected CBV were calculated by dividing the tumor values by those obtained from contralateral NAWM. A paired t test was used to compare tumor K-2 and NAWM K-2, as well as tumor CBV ratios without and with leakage correction. Comparisons of CBV, corrected CBV, and K-2 between PCNSLs and glioblastomas were done by using a 2-sample t test. The diagnostic performance of DSC perfusion MR imaging without and with contrast-leakage correction was assessed with receiver operating characteristic curve analysis. %26lt;br%26gt;RESULTS: PCNSLs and glioblastomas demonstrated higher K-2 than those in their contralateral NAWM. Corrected CBV ratios were significantly higher than the uncorrected ones for both tumors. PCNSLs had lower CBV ratios (P %26lt; .001), lower corrected CBV ratios (P %26lt; .001), and higher K-2 (P = .001) compared with glioblastomas. In differentiating between PCNSLs and glioblastomas, the area under the curve of the CBV ratio, corrected CBV ratio, and K-2 were 0.984, 0.940, and 0.788, respectively. %26lt;br%26gt;CONCLUSIONS: PCNSL can be differentiated from glioblastoma with CBV ratios, corrected CBV ratios, and K-2. CBV without contrast-leakage correction seems to have the best diagnostic performance in differentiating the 2 tumors.

• 出版日期2013-6
• 单位长春大学