Relative ADC and Location Differ between Posterior Fossa Pilocytic Astrocytomas with and without Gangliocytic Differentiation

Harreld, Julie H.; Hwang, Scott N.; Qaddoumi, Ibrahim; Tatevossian, Ruth; Li, X.; Dalton, James; Haupfear, Kelly; Li, Y.; Ellison, David W.

doi:10.3174/ajnr.a4892

Cited by 5 publications

(8 citation statements)

References 40 publications

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“…Molecular analyses were performed to test the presence of BRAF V600E mutation which was confirmed by sequencing. In particular, the BRAF V600E mutation hotspot was sequenced in genomic DNA, and quantitative reverse-transcription polymerase chain reaction was performed by using first-strand complementary DNA synthesized from total RNA, as previously described [20].…”

Section: Patient Populationmentioning

confidence: 99%

Role of diffusion weighted imaging for differentiating cerebral pilocytic astrocytoma and ganglioglioma BRAF V600E-mutant from wild type

et al. 2019

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Purpose BRAF V600E mutation is a distinctive genomic alteration of pediatric low-grade gliomas with prognostic and therapeutic implications. The aim of this retrospective multicenter study was to analyze imaging features of BRAF V600E-mutant and wild-type cerebral pilocytic astrocytomas (PAs) and gangliogliomas (GGs), focusing on the role of diffusion weighted imaging (DWI). Methods We retrospectively evaluated 56 pediatric patients with histologically proven, treatment-naïve PAs and GGs who underwent conventional MRI, DWI, and molecular analysis for BRAF V600E mutation. Twenty-three subjects presented BRAF V600E-mutant (12 PAs and 11 GGs) and 33 BRAF V600E wild-type (26 PAs and 7 GGs) tumors. Imaging studies were reviewed for dominant site, margin definition, hemorrhage, calcification, cystic components, contrast enhancement, and relative mean and minimum ADC values (rADCmean and rADCmin). Statistics included Fisher's exact test, Student t test, general linear model, and receiver operating characteristic (ROC) analysis. Results PA and GG BRAF V600E-mutant had significantly lower rADCmean (p < 0.001) and rADCmin (p < 0.001) values than wild type, regardless of tumor histology and location. ROC analysis demonstrated similar performances between these parameters in predicting BRAF V600E status (rADCmean: AUC 0.831, p < 0.001; rADCmin: AUC 0.885, p < 0.001).No significant differences regarding additional imaging features emerged between BRAF V600E-mutant and wild-type lesions, with the exception of the number of tumors with cystic components, significantly higher in BRAF V600E-mutant PAs (p = 0.011) Conclusion Assessment of the DWI characteristics of GGs and PAs may assist in predicting BRAF V600E status, suggesting a radiogenomic correlation and prompt molecular characterization of these tumors.

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Section: Patient Populationmentioning

confidence: 99%

Role of diffusion weighted imaging for differentiating cerebral pilocytic astrocytoma and ganglioglioma BRAF V600E-mutant from wild type

et al. 2019

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“…(11) demonstrated in a case series that the signal intensity of the tumors was isointense to slightly hyperintense on DWI (without calculated ADC value) in the nine infratentorial gangliogliomas. In a more recent study that reported imaging features of ganglioglioma, the minimum rADC ratios were 1.01 ± 0.17 in the six tumors (16). In this study, our results are similar to the previously published reports in the DWI signal and minimum rADC ratios of infratentorial ganglioglioma.…”

Section: Discussionmentioning

confidence: 81%

“…DWI with ADC measurements could offer quantitative information regarding the Brownian movement of water molecules and partly reflect the tissue cellularity (14,19,20). Although there are several diffusion imaging reports of ganglioglioma in supratentorial and infratentorial brain, dedicated diffusion MRI studies of infratentorial ganglioglioma are rare (11,16,17,22,23). Lou et al.…”

Section: Discussionmentioning

confidence: 99%

“…Advanced MRI techniques including diffusion-weighted imaging (DWI) and dynamic susceptibility contrast-enhanced perfusion weighted imaging (DSC-PWI) can supplement functional and physiological information not available from conventional MRI, such as the tissue cellularity and vascularity of infratentorial brain tumor (13–15). To the best of our knowledge, there have been limited studies concerning the use of DWI and DSC-PWI for distinguishing infratentorial ganglioglioma from pilocytic astrocytoma (16). In this study, we investigated whether an infratentorial ganglioglioma can be discriminated from pilocytic astrocytoma with conventional MRI, DWI, and DSC-PWI.…”

Section: Introductionmentioning

confidence: 99%

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Comparison of conventional, diffusion, and perfusion MRI between infratentorial ganglioglioma and pilocytic astrocytoma

She

Xiong

et al. 2019

Acta Radiol

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Background The differentiation of infratentorial ganglioglioma and pilocytic astrocytoma may be therapeutically relevant, which is sometimes challenging to both pathologists and neuroradiologists. Purpose To evaluate the conventional magnetic resonance imaging (MRI), diffusion-weighted imaging (DWI), and dynamic susceptibility contrast-enhanced perfusion weighted imaging (DSC-PWI) features of infratentorial ganglioglioma compared with pilocytic astrocytoma. Material and Methods This retrospective study enrolled 12 patients with infratentorial ganglioglioma and 61 patients with pilocytic astrocytoma who underwent MRI before surgery. DSC-PWI was performed in 20 patients (4 gangliogliomas, 16 pilocytic astrocytoma). Demographics, conventional imaging characteristics (tumor location, margin, cystic change, enhancement, peritumoral edema, and ipsilateral cerebellar atrophy), rADCmin, and rCBVmax ratio were compared. The optimum threshold, sensitivity, and specificity for rADCmin and rCBVmax ratios were determined. Results Infratentorial ganglioglioma appeared similar to pilocytic astrocytoma but was more likely to have an ill-defined margin (P = 0.035), ipsilateral cerebellar atrophy (P < 0.001), lower rADCmin ratio (1.24 ± 0.27 vs. 2.04 ± 0.46, P < 0.001), and higher rCBVmax ratio (3.05 ± 1.12 vs. 1.64 ± 0.39; P = 0.008). The threshold values ≤1.66 for rADCmin ratio provide sensitivity and specificity of 91.67% and 77.05%, respectively, for discriminating ganglioglioma from pilocytic astrocytoma. The optimal threshold value for rCBVmax ratio was >1.64. Conclusion Conventional MRI, DWI, and DSC-PWI can help to differentiate infratentorial ganglioglioma from pilocytic astrocytoma. DWI offers optimal sensitivity.

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“…Also, many pilocytic astrocytomas-classically described as cystic tumors with mural modularity-localize to cerebellar hemisphere, particularly those without gangliocytic differentiation. 4 Medulloblastomas characteristically present as midline masses along the 4th ventricle roof in pediatric patients; whereas, cerebellar hemisphere medulloblastomas typically belong to the sonic hedgehog molecular subtype and are commonly seen in adults. 5,6 On the other hand, infratentorial ependymomas tend to present as 4th ventricle floor lesions extending through the foramina of Luschka and Magendie.…”

Section: Introductionmentioning

confidence: 99%

Volumetric voxelwise apparent diffusion coefficient histogram analysis for differentiation of the fourth ventricular tumors

Payabvash

Tihan

2018

Neuroradiol J

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Relative ADC and Location Differ between Posterior Fossa Pilocytic Astrocytomas with and without Gangliocytic Differentiation

Cited by 5 publications

References 40 publications

Role of diffusion weighted imaging for differentiating cerebral pilocytic astrocytoma and ganglioglioma BRAF V600E-mutant from wild type

Role of diffusion weighted imaging for differentiating cerebral pilocytic astrocytoma and ganglioglioma BRAF V600E-mutant from wild type

Comparison of conventional, diffusion, and perfusion MRI between infratentorial ganglioglioma and pilocytic astrocytoma

Volumetric voxelwise apparent diffusion coefficient histogram analysis for differentiation of the fourth ventricular tumors

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