TY - JOUR T1 - Is Volume Transfer Coefficient (K<sup>trans</sup>) Related to Histologic Grade in Human Gliomas? JF - American Journal of Neuroradiology JO - Am. J. Neuroradiol. SP - 2455 LP - 2465 VL - 26 IS - 10 AU - Tufail F. Patankar AU - Hamied A. Haroon AU - Samantha J. Mills AU - Danielle Balériaux AU - David L. Buckley AU - Geoff J.M. Parker AU - Alan Jackson Y1 - 2005/11/01 UR - http://www.ajnr.org/content/26/10/2455.abstract N2 - PURPOSE: The purpose of this study was to examine the relationship between contrast transfer coefficient [Ktrans] and grade in gliomas.MATERIAL AND METHODS: Median values of Ktrans, CBVT1, and of the 95th percentile (95%) of the distribution (Ktrans [95%] and CBVT1 [95%]) were calculated in 39 patients with glioma. Group comparisons and post hoc pairwise comparisons were performed. The relationship between variables and grade used Spearman rho and canonical discriminant analysis. The separation of high- from low-grade tumors was separately assessed by using Mann-Whitney U tests and logistic regression. Receiver operator curve analysis was performed for high- and low-grade tumors and grade III and grade IV tumors.RESULTS: There were significant differences between grades for all variables (P &lt; .001). Pairwise comparisons demonstrated significant differences between grades II and III and II and IV for all variables except Ktrans, which did not show significance in the grade II and III comparison, and between III and IV for CBVT1 and CBVT1 (95%; P &lt; .01). All variables correlated with grade (P &lt; .01). Discriminant analysis showed independent relation between both CBVT1 and Ktrans (95%) and grade, and the canonical function produced a total correct classification of 74.4% of cases. Logistic regression analysis for low- versus high-grade tumors showed Ktrans (95%) and CBVT1 to be independent factors (P &lt; .01 and P &lt; .05).CONCLUSION: There are strong independent relationships between both CBV and Ktrans and histologic grade in gliomas. Both measurements show good discriminative power in distinguishing between low- and high-grade tumors with diagnostic sensitivity and specificity &gt;90%. ER -