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Diffusion-Weighted Imaging in Meningioma: Prediction of Tumor Grade and Association with Histopathological Parameters()()

OBJECTIVES: To analyze diffusion-weighted imaging (DWI) findings of meningiomas and to compare them with tumor grade, cell count, and proliferation index and to test a possibility of use of apparent diffusion coefficient (ADC) to differentiate benign from atypical/malignant tumors. METHODS: Forty-ni...

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Autores principales: Surov, Alexey, Gottschling, Sebastian, Mawrin, Christian, Prell, Julian, Spielmann, Rolf Peter, Wienke, Andreas, Fiedler, Eckhard
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Neoplasia Press 2015
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4700293/
https://www.ncbi.nlm.nih.gov/pubmed/26692534
http://dx.doi.org/10.1016/j.tranon.2015.11.012
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author Surov, Alexey
Gottschling, Sebastian
Mawrin, Christian
Prell, Julian
Spielmann, Rolf Peter
Wienke, Andreas
Fiedler, Eckhard
author_facet Surov, Alexey
Gottschling, Sebastian
Mawrin, Christian
Prell, Julian
Spielmann, Rolf Peter
Wienke, Andreas
Fiedler, Eckhard
author_sort Surov, Alexey
collection PubMed
description OBJECTIVES: To analyze diffusion-weighted imaging (DWI) findings of meningiomas and to compare them with tumor grade, cell count, and proliferation index and to test a possibility of use of apparent diffusion coefficient (ADC) to differentiate benign from atypical/malignant tumors. METHODS: Forty-nine meningiomas were analyzed. DWI was done using a multislice single-shot echo-planar imaging sequence. A polygonal region of interest was drawn on ADC maps around the margin of the lesion. In all lesions, minimal ADC values (ADC(min)) and mean ADC values (ADC(mean)) were estimated. Normalized ADC (NADC) was calculated in every case as a ratio ADC(mean) meningioma/ADC(mean) white matter. All meningiomas were surgically resected and analyzed histopathologically. The tumor proliferation index was estimated on Ki-67 antigen–stained specimens. Cell density was calculated. Collected data were evaluated by means of descriptive statistics. Analyses of ADC/NADC values were performed by means of two-sided t tests. RESULTS: The mean ADC(mean) value was higher in grade I meningiomas in comparison to grade II/III tumors (0.96 vs 0.80 × 10(− 3) mm(2)s(− 1), P = .006). Grade II/III meningiomas showed lower NADC values in comparison to grade I tumors (1.05 vs 1.26, P = .015). There was no significant difference in ADC(min) values between grade I and II/III tumors (0.69 vs 0.63 × 10(− 3) mm(2)s(− 1), P = .539). The estimated cell count varied from 486 to 2091 (mean value, 1158.20 ± 333.74; median value, 1108). There were no significant differences in cell count between grade I and grade II/III tumors (1163.93 vs 1123.86 cells, P = .77). The mean level of the proliferation index was 4.78 ± 5.08%, the range was 1% to 18%, and the median value was 2%. The proliferation index was statistically significant higher in grade II/III meningiomas in comparison to grade I tumors (15.43% vs 3.00%, P = .001). Ki-67 was negatively associated with ADC(mean) (r = − 0.61, P < .001) and NADC (r = − 0.60, P < .001). No significant correlations between cell count and ADC(mean) (r = − 0.20, P = .164) or NADC (r = − 0.25, P = .079) were found. ADC(min) correlated statistically significant with cell count (r = − 0.44, P = .002) but not with Ki-67 (r = − 0.22, P = .129). Furthermore, the association between ADCmin and cell count was stronger in grade II/III tumors (r = − 0.79, P = .036) versus grade I meningiomas (r = − 0.41, P = .008). An ADC(mean) value of less than 0.85 × 10(− 3) mm(2)s(− 1) was determined as the threshold in differentiating between grade I and grade II/III meningiomas (sensitivity 72.9%, specificity 73.1%, accuracy 73.0%). The positive and negative predictive values were 33.3% and 96.8%, respectively. The same threshold ADC(mean) value was used in differentiating between tumors with Ki-67 level ≥ 5% and meningiomas with low proliferation index (Ki-67 < 5%). This threshold yielded a sensitivity of 70.6%, a specificity of 81.2%, and an accuracy of 77.6%. The positive and negative predictive values were 66.6% and 83.9%, respectively. CONCLUSIONS: Grade II/III tumors had lower ADC(mean) values than grade I meningiomas. ADC(mean) correlated negatively with tumor proliferation index and ADC(min) with tumor cell count. These associations were different in several meningiomas. ADC(mean) can be used for distinguishing between benign and atypical/malignant tumors.
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spelling pubmed-47002932016-02-01 Diffusion-Weighted Imaging in Meningioma: Prediction of Tumor Grade and Association with Histopathological Parameters()() Surov, Alexey Gottschling, Sebastian Mawrin, Christian Prell, Julian Spielmann, Rolf Peter Wienke, Andreas Fiedler, Eckhard Transl Oncol Original article OBJECTIVES: To analyze diffusion-weighted imaging (DWI) findings of meningiomas and to compare them with tumor grade, cell count, and proliferation index and to test a possibility of use of apparent diffusion coefficient (ADC) to differentiate benign from atypical/malignant tumors. METHODS: Forty-nine meningiomas were analyzed. DWI was done using a multislice single-shot echo-planar imaging sequence. A polygonal region of interest was drawn on ADC maps around the margin of the lesion. In all lesions, minimal ADC values (ADC(min)) and mean ADC values (ADC(mean)) were estimated. Normalized ADC (NADC) was calculated in every case as a ratio ADC(mean) meningioma/ADC(mean) white matter. All meningiomas were surgically resected and analyzed histopathologically. The tumor proliferation index was estimated on Ki-67 antigen–stained specimens. Cell density was calculated. Collected data were evaluated by means of descriptive statistics. Analyses of ADC/NADC values were performed by means of two-sided t tests. RESULTS: The mean ADC(mean) value was higher in grade I meningiomas in comparison to grade II/III tumors (0.96 vs 0.80 × 10(− 3) mm(2)s(− 1), P = .006). Grade II/III meningiomas showed lower NADC values in comparison to grade I tumors (1.05 vs 1.26, P = .015). There was no significant difference in ADC(min) values between grade I and II/III tumors (0.69 vs 0.63 × 10(− 3) mm(2)s(− 1), P = .539). The estimated cell count varied from 486 to 2091 (mean value, 1158.20 ± 333.74; median value, 1108). There were no significant differences in cell count between grade I and grade II/III tumors (1163.93 vs 1123.86 cells, P = .77). The mean level of the proliferation index was 4.78 ± 5.08%, the range was 1% to 18%, and the median value was 2%. The proliferation index was statistically significant higher in grade II/III meningiomas in comparison to grade I tumors (15.43% vs 3.00%, P = .001). Ki-67 was negatively associated with ADC(mean) (r = − 0.61, P < .001) and NADC (r = − 0.60, P < .001). No significant correlations between cell count and ADC(mean) (r = − 0.20, P = .164) or NADC (r = − 0.25, P = .079) were found. ADC(min) correlated statistically significant with cell count (r = − 0.44, P = .002) but not with Ki-67 (r = − 0.22, P = .129). Furthermore, the association between ADCmin and cell count was stronger in grade II/III tumors (r = − 0.79, P = .036) versus grade I meningiomas (r = − 0.41, P = .008). An ADC(mean) value of less than 0.85 × 10(− 3) mm(2)s(− 1) was determined as the threshold in differentiating between grade I and grade II/III meningiomas (sensitivity 72.9%, specificity 73.1%, accuracy 73.0%). The positive and negative predictive values were 33.3% and 96.8%, respectively. The same threshold ADC(mean) value was used in differentiating between tumors with Ki-67 level ≥ 5% and meningiomas with low proliferation index (Ki-67 < 5%). This threshold yielded a sensitivity of 70.6%, a specificity of 81.2%, and an accuracy of 77.6%. The positive and negative predictive values were 66.6% and 83.9%, respectively. CONCLUSIONS: Grade II/III tumors had lower ADC(mean) values than grade I meningiomas. ADC(mean) correlated negatively with tumor proliferation index and ADC(min) with tumor cell count. These associations were different in several meningiomas. ADC(mean) can be used for distinguishing between benign and atypical/malignant tumors. Neoplasia Press 2015-12-12 /pmc/articles/PMC4700293/ /pubmed/26692534 http://dx.doi.org/10.1016/j.tranon.2015.11.012 Text en © 2015 The Authors http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Original article
Surov, Alexey
Gottschling, Sebastian
Mawrin, Christian
Prell, Julian
Spielmann, Rolf Peter
Wienke, Andreas
Fiedler, Eckhard
Diffusion-Weighted Imaging in Meningioma: Prediction of Tumor Grade and Association with Histopathological Parameters()()
title Diffusion-Weighted Imaging in Meningioma: Prediction of Tumor Grade and Association with Histopathological Parameters()()
title_full Diffusion-Weighted Imaging in Meningioma: Prediction of Tumor Grade and Association with Histopathological Parameters()()
title_fullStr Diffusion-Weighted Imaging in Meningioma: Prediction of Tumor Grade and Association with Histopathological Parameters()()
title_full_unstemmed Diffusion-Weighted Imaging in Meningioma: Prediction of Tumor Grade and Association with Histopathological Parameters()()
title_short Diffusion-Weighted Imaging in Meningioma: Prediction of Tumor Grade and Association with Histopathological Parameters()()
title_sort diffusion-weighted imaging in meningioma: prediction of tumor grade and association with histopathological parameters()()
topic Original article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4700293/
https://www.ncbi.nlm.nih.gov/pubmed/26692534
http://dx.doi.org/10.1016/j.tranon.2015.11.012
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