Evaluation of MRI tumor characteristics and quantitative FDG-PET assessments of cerebro-cerebellar diaschisis: Pathophysiologic implications for gliomas
Research output: Contribution to journal › Conference abstract in journal › Research › peer-review
Standard
Evaluation of MRI tumor characteristics and quantitative FDG-PET assessments of cerebro-cerebellar diaschisis: Pathophysiologic implications for gliomas. / Segtnan, E. A.; Holm, J.; Decker, J. H.; Constantinescu, C.; Gjedde, A.; Hoilund-Carlsen, P. F.; Ivanidze, J.
In: Journal of Cerebral Blood Flow and Metabolism, Vol. 37, No. S1, PS03-008, 04.2017, p. 245-245.Research output: Contribution to journal › Conference abstract in journal › Research › peer-review
Harvard
APA
Vancouver
Author
Bibtex
}
RIS
TY - ABST
T1 - Evaluation of MRI tumor characteristics and quantitative FDG-PET assessments of cerebro-cerebellar diaschisis: Pathophysiologic implications for gliomas
AU - Segtnan, E. A.
AU - Holm, J.
AU - Decker, J. H.
AU - Constantinescu, C.
AU - Gjedde, A.
AU - Hoilund-Carlsen, P. F.
AU - Ivanidze, J.
PY - 2017/4
Y1 - 2017/4
N2 - Purpose: Using FDG-PET-based THGr methodology and MRI-based volume segmentation of key lesion characteristics, we sought to improve understanding of the implications of cerebral and cerebellar diaschisis in the diagnosis and management of supratentorial gliomas.Methods: A prospective cohort of 14 glioma patients (5 men, 9 women; mean age 63 years, range 35–77) underwent baseline PET-CT and MRI. Tumor, edema, and necrosis volume were obtained based on volume segmentation of gadolinium-enhanced T1-weighted images using 3D Slicer Software, Version 4.5 (http://www.slicer.org). We obtained total hemispheric glucose metabolic ratios (THGr) by dividing total hemispheric FDG uptake in each hemisphere with the expected diaschisis site, i.e., the ipsilateral cerebral hemisphere (THGr(Ce)) and the contralateral cerebellar hemisphere (THGr(Cb)), to its respective contralateral side. THGr values were compared with qualitative assessment of diaschisis. Linear regression analysis was performed using GraphPad Prism 6 software.Results: Volumetric segmentation yielded the following volumes in mL (mean followed by (standard deviation)): (enhancing) tumor 30.25 (23.50); edema 94.83 (62.65); necrosis 5.51 (5.23). Using the same notation, quantitative PET analysis yielded the following THGr values: THGr(Ce), 0.72 (0.24); THGr(Cb), 0.83 (0.22). Logistic regression analysis demonstrated the following R-square values (with p values in parentheses): THGr(Ce) versus edema volume, 0.2 (0.10); THGr(Ce) versus enhancing lesion volume, 0.03 (0.5); THGr(Ce) versus necrosis volume, 0.001 (0.9). THGr(Cb) versus edema volume, 0.47 (0.0065); THGr(Cb) versus enhancing lesion volume, 0.11 (0.2579); THGr(Cb) versus necrosis volume, 0.009 (0.74).Conclusions: The THGr(Cb) and MRI segmentation analyses demonstrated an inverse correlation of cerebellar diaschisis with edema volumes. In contrast, there was no correlation of diaschisis to lesion volume or necrosis. Given the prognostic value of diaschisis in glioma assessment, our findings have important pathophysiologic and clinical implications, laying the foundation for future studies evaluating diaschisis and tumor-associated edema in a larger cohort
AB - Purpose: Using FDG-PET-based THGr methodology and MRI-based volume segmentation of key lesion characteristics, we sought to improve understanding of the implications of cerebral and cerebellar diaschisis in the diagnosis and management of supratentorial gliomas.Methods: A prospective cohort of 14 glioma patients (5 men, 9 women; mean age 63 years, range 35–77) underwent baseline PET-CT and MRI. Tumor, edema, and necrosis volume were obtained based on volume segmentation of gadolinium-enhanced T1-weighted images using 3D Slicer Software, Version 4.5 (http://www.slicer.org). We obtained total hemispheric glucose metabolic ratios (THGr) by dividing total hemispheric FDG uptake in each hemisphere with the expected diaschisis site, i.e., the ipsilateral cerebral hemisphere (THGr(Ce)) and the contralateral cerebellar hemisphere (THGr(Cb)), to its respective contralateral side. THGr values were compared with qualitative assessment of diaschisis. Linear regression analysis was performed using GraphPad Prism 6 software.Results: Volumetric segmentation yielded the following volumes in mL (mean followed by (standard deviation)): (enhancing) tumor 30.25 (23.50); edema 94.83 (62.65); necrosis 5.51 (5.23). Using the same notation, quantitative PET analysis yielded the following THGr values: THGr(Ce), 0.72 (0.24); THGr(Cb), 0.83 (0.22). Logistic regression analysis demonstrated the following R-square values (with p values in parentheses): THGr(Ce) versus edema volume, 0.2 (0.10); THGr(Ce) versus enhancing lesion volume, 0.03 (0.5); THGr(Ce) versus necrosis volume, 0.001 (0.9). THGr(Cb) versus edema volume, 0.47 (0.0065); THGr(Cb) versus enhancing lesion volume, 0.11 (0.2579); THGr(Cb) versus necrosis volume, 0.009 (0.74).Conclusions: The THGr(Cb) and MRI segmentation analyses demonstrated an inverse correlation of cerebellar diaschisis with edema volumes. In contrast, there was no correlation of diaschisis to lesion volume or necrosis. Given the prognostic value of diaschisis in glioma assessment, our findings have important pathophysiologic and clinical implications, laying the foundation for future studies evaluating diaschisis and tumor-associated edema in a larger cohort
U2 - 10.1177/0271678X17695987
DO - 10.1177/0271678X17695987
M3 - Conference abstract in journal
VL - 37
SP - 245
EP - 245
JO - Journal of Cerebral Blood Flow and Metabolism
JF - Journal of Cerebral Blood Flow and Metabolism
SN - 0271-678X
IS - S1
M1 - PS03-008
ER -
ID: 182544515