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W2801639927 endingPage "e0197056" @default.
W2801639927 startingPage "e0197056" @default.
W2801639927 abstract "Peritumoral edema impedes the full delineation of fiber tracts due to partial volume effects in image voxels that contain a mixture of cerebral parenchyma and extracellular water. The purpose of this study is to investigate the effect of incorporating a free water (FW) model of edema for white matter tractography in the presence of edema.We retrospectively evaluated 26 consecutive brain tumor patients with diffusion MRI and T2-weighted images acquired presurgically. Tractography of the arcuate fasciculus (AF) was performed using the two-tensor unscented Kalman filter tractography (UKFt) method, the UKFt method with a reduced fiber tracking stopping fractional anisotropy (FA) threshold (UKFt+rFA), and the UKFt method with the addition of a FW compartment (UKFt+FW). An automated white matter fiber tract identification approach was applied to delineate the AF. Quantitative measurements included tract volume, edema volume, and mean FW fraction. Visual comparisons were performed by three experts to evaluate the quality of the detected AF tracts.The AF volume in edematous brain hemispheres was significantly larger using the UKFt+FW method (p<0.0001) compared to UKFt, but not significantly larger (p = 0.0996) in hemispheres without edema. The AF size increase depended on the volume of edema: a significant correlation was found between AF volume affected by (intersecting) edema and AF volume change with the FW model (Pearson r = 0.806, p<0.0001). The mean FW fraction was significantly larger in tracts intersecting edema (p = 0.0271). Compared to the UKFt+rFA method, there was a significant increase of the volume of the AF tract that intersected the edema using the UKFt+FW method, while the whole AF volumes were similar. Expert judgment results, based on the five patients with the smallest AF volumes, indicated that the expert readers generally preferred the AF tract obtained by using the FW model, according to their anatomical knowledge and considering the potential influence of the final results on the surgical route.Our results indicate that incorporating biophysical models of edema can increase the sensitivity of tractography in regions of peritumoral edema, allowing better tract visualization in patients with high grade gliomas and metastases." @default.
W2801639927 created "2018-05-17" @default.
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W2801639927 date "2018-05-10" @default.
W2801639927 modified "2023-10-12" @default.
W2801639927 title "Free water modeling of peritumoral edema using multi-fiber tractography: Application to tracking the arcuate fasciculus for neurosurgical planning" @default.
W2801639927 cites W1556167233 @default.
W2801639927 cites W1575096488 @default.
W2801639927 cites W1602210621 @default.
W2801639927 cites W1645205604 @default.
W2801639927 cites W1749494163 @default.
W2801639927 cites W1831984264 @default.
W2801639927 cites W1851493380 @default.
W2801639927 cites W188359927 @default.
W2801639927 cites W1969637629 @default.
W2801639927 cites W1978415409 @default.
W2801639927 cites W1982988332 @default.
W2801639927 cites W2004180096 @default.
W2801639927 cites W2010125850 @default.
W2801639927 cites W2014720049 @default.
W2801639927 cites W2018202134 @default.
W2801639927 cites W2019307288 @default.
W2801639927 cites W2021077321 @default.
W2801639927 cites W2026616100 @default.
W2801639927 cites W2029524659 @default.
W2801639927 cites W2032254014 @default.
W2801639927 cites W2039105484 @default.
W2801639927 cites W2050781164 @default.
W2801639927 cites W2051633555 @default.
W2801639927 cites W2055823814 @default.
W2801639927 cites W2069284781 @default.
W2801639927 cites W2072539597 @default.
W2801639927 cites W2075286074 @default.
W2801639927 cites W2080094149 @default.
W2801639927 cites W2080403608 @default.
W2801639927 cites W2085510136 @default.
W2801639927 cites W2091910928 @default.
W2801639927 cites W2094148161 @default.
W2801639927 cites W2094435366 @default.
W2801639927 cites W2097459348 @default.
W2801639927 cites W2097742934 @default.
W2801639927 cites W2098063347 @default.
W2801639927 cites W2099742943 @default.
W2801639927 cites W2102391253 @default.
W2801639927 cites W2104572811 @default.
W2801639927 cites W2108839564 @default.
W2801639927 cites W2114856020 @default.
W2801639927 cites W2116810533 @default.
W2801639927 cites W2117987496 @default.
W2801639927 cites W2130199747 @default.
W2801639927 cites W2137437334 @default.
W2801639927 cites W2138328476 @default.
W2801639927 cites W2149092213 @default.
W2801639927 cites W2156819509 @default.
W2801639927 cites W2163722576 @default.
W2801639927 cites W2169499022 @default.
W2801639927 cites W2186234307 @default.
W2801639927 cites W2194834710 @default.
W2801639927 cites W2207252094 @default.
W2801639927 cites W2218023409 @default.
W2801639927 cites W2233985300 @default.
W2801639927 cites W2238818133 @default.
W2801639927 cites W2323036440 @default.
W2801639927 cites W2323935001 @default.
W2801639927 cites W2325305575 @default.
W2801639927 cites W2331570685 @default.
W2801639927 cites W2340542435 @default.
W2801639927 cites W2475695804 @default.
W2801639927 cites W2551620403 @default.
W2801639927 cites W2625448573 @default.
W2801639927 cites W2677983544 @default.
W2801639927 cites W2790488276 @default.
W2801639927 cites W88165185 @default.
W2801639927 doi "https://doi.org/10.1371/journal.pone.0197056" @default.
W2801639927 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5944935" @default.
W2801639927 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29746544" @default.
W2801639927 hasPublicationYear "2018" @default.
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