2019
DOI: 10.1093/ons/opz196
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Intraoperative Computed Tomography and Finite Element Modelling for Multimodal Image Fusion in Brain Surgery

Abstract: BACKGROUND intraoperative computer tomography (iCT) and advanced image fusion algorithms could improve the management of brainshift and the navigation accuracy. OBJECTIVE To evaluate the performance of an iCT-based fusion algorithm using clinical data. METHODS Ten patients with brain tumors were enrolled; preoperative MRI was acquired. The iCT was applied at … Show more

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Cited by 20 publications
(14 citation statements)
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“…Thirty-eight (38) tumor samples were collected from adult subjects undergoing surgery for presumptive glioma tumors. All procedures were performed with imaging and neurophysiological guidance [12,13] in order to achieve, when feasible, a safe supra-marginal resection [3]. We collected 21 samples from IDH-mutated tumors and 17 samples from IDH-WT tumors.…”
Section: Study Population and Experimental Designmentioning
confidence: 99%
“…Thirty-eight (38) tumor samples were collected from adult subjects undergoing surgery for presumptive glioma tumors. All procedures were performed with imaging and neurophysiological guidance [12,13] in order to achieve, when feasible, a safe supra-marginal resection [3]. We collected 21 samples from IDH-mutated tumors and 17 samples from IDH-WT tumors.…”
Section: Study Population and Experimental Designmentioning
confidence: 99%
“…While the rigid registration improved the alignment of the MRI and IOUS image volumes, considering the fact that brain-shift is a nonlinear process, deformable registration has the potential to further improve the results ( 88 ). Future sophisticated fusion algorithms might use IOUS image as anatomical reference, similarly to intraoperative CT, and enable deformation of preoperative 3D MRI image into “virtual intraoperative MRI” ( 89 ).…”
Section: Future Perspectivesmentioning
confidence: 99%
“…The thickness of each slice increased from 1 to 2.5 mm using this modification and they were automatically fused using an algorithm. 9,10 After fusion, we measured the distance between the corresponding head pins and the height of the pins from the NI-plane. We referred to the maximal distance of pins that had slipped >2.5 mm among the three pins because distances <2.4 mm could not be measured due to the thickness of the CT slices.…”
Section: Measurement Of Head Slippage As a Primary Outcomementioning
confidence: 99%