TY - JOUR
T1 - Intraoperative visualization of residual tumor
T2 - The role of perfusion-weighted imaging in a high-field intraoperative magnetic resonance scanner
AU - Roder, Constantin
AU - Bender, Benjamin
AU - Ritz, Rainer
AU - Honegger, Jürgen
AU - Feigl, Guenther C.
AU - Naegele, Thomas
AU - Tatagiba, Marcos Soares
AU - Ernemann, Ulrike
AU - Bisdas, Sotirios
PY - 2013/6/1
Y1 - 2013/6/1
N2 - BACKGROUND:: High-field, intraoperative magnetic resonance imaging (iMRI) achieves free tumor margins in glioma surgery by involving anatomic neuronavigation and sophisticated functional imaging. OBJECTIVE:: To evaluate the role of perfusion-weighted iMRI as an aid to detect residual tumor and to guide its resection. METHODS:: Twenty-two patients undergoing intraoperative scanning (in a dual-room 1.5-T magnet setting) during the resection of high-grade gliomas were examined with perfusion-weighted iMRI. The generated relative cerebral blood volume (rCBV) maps were scrutinized for any hot spots indicative of tumor remnants, and region-of-interest analysis was performed. Differences among the rCBV region-of-interest estimates in residual tumor, free tumor margins, and normal white matter were analyzed. Histopathology of the tissue specimens and the neurosurgeon's intraoperative macroscopic estimations were considered the reference standards. RESULTS:: In all cases, diagnostic rCBV perfusion maps were generated. Interpretation of perfusion maps demonstrated that gross total resection of gliomas was achieved in 4 of 22 cases (18%), which was macroscopically and histopathologically verified, whereas in 18 of 22 cases (82%), the perfusion-weighted iMRI revealed hot spots indicating subtotal tumor removal. The latter proved to be true in all but 1 case. The receiver-operating characteristic curves of the qualitative visual and quantitative analyses showed excellent sensitivity and specificity rates. Statistical analysis demonstrated statistically significant differences for the mean rCBV and maximum rCBV between residual disease and tumor-free margins (P = .002 for both). CONCLUSION:: Perfusion-weighted iMRI may be implemented easily into imaging protocols and may assist the surgeon in detecting residual tumor volume. ABBREVIATIONS:: CBV, cerebral blood volumeCI, confidence intervaliMRI, intraoperative magnetic resonance imagingrCBV, relative cerebral blood volumeROC, receiver-operating characteristicWHO, World Health Organization.
AB - BACKGROUND:: High-field, intraoperative magnetic resonance imaging (iMRI) achieves free tumor margins in glioma surgery by involving anatomic neuronavigation and sophisticated functional imaging. OBJECTIVE:: To evaluate the role of perfusion-weighted iMRI as an aid to detect residual tumor and to guide its resection. METHODS:: Twenty-two patients undergoing intraoperative scanning (in a dual-room 1.5-T magnet setting) during the resection of high-grade gliomas were examined with perfusion-weighted iMRI. The generated relative cerebral blood volume (rCBV) maps were scrutinized for any hot spots indicative of tumor remnants, and region-of-interest analysis was performed. Differences among the rCBV region-of-interest estimates in residual tumor, free tumor margins, and normal white matter were analyzed. Histopathology of the tissue specimens and the neurosurgeon's intraoperative macroscopic estimations were considered the reference standards. RESULTS:: In all cases, diagnostic rCBV perfusion maps were generated. Interpretation of perfusion maps demonstrated that gross total resection of gliomas was achieved in 4 of 22 cases (18%), which was macroscopically and histopathologically verified, whereas in 18 of 22 cases (82%), the perfusion-weighted iMRI revealed hot spots indicating subtotal tumor removal. The latter proved to be true in all but 1 case. The receiver-operating characteristic curves of the qualitative visual and quantitative analyses showed excellent sensitivity and specificity rates. Statistical analysis demonstrated statistically significant differences for the mean rCBV and maximum rCBV between residual disease and tumor-free margins (P = .002 for both). CONCLUSION:: Perfusion-weighted iMRI may be implemented easily into imaging protocols and may assist the surgeon in detecting residual tumor volume. ABBREVIATIONS:: CBV, cerebral blood volumeCI, confidence intervaliMRI, intraoperative magnetic resonance imagingrCBV, relative cerebral blood volumeROC, receiver-operating characteristicWHO, World Health Organization.
KW - Glioma
KW - Intraoperative magnetic resonance imaging
KW - Perfusion-weighted magnetic resonance imaging
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U2 - 10.1227/NEU.0b013e318277c606
DO - 10.1227/NEU.0b013e318277c606
M3 - Article
C2 - 23147782
AN - SCOPUS:84879690711
SN - 0148-396X
VL - 72
JO - Neurosurgery
JF - Neurosurgery
ER -