Intraoperative brain deformation, so called brain shift, affects the applicability of preoperative magnetic resonance imaging (MRI) data to assist the procedures of intraoperative ultrasound (iUS) guidance during neurosurgery. This paper proposes a deep learning-based approach for fast and accurate deformable registration of preoperative MRI to iUS images to correct brain shift. Based on the architecture of 3D convolutional neural networks, the proposed deep MRI-iUS registration method has been successfully tested and evaluated on the retrospective evaluation of cerebral tumors (RESECT) dataset. This study showed that our proposed method outperforms other registration methods in previous studies with an average mean squared error (MSE) of 8...
Purpose In brain tumor surgeries, maximum removal of cancerous tissue without compromising normal br...
BACKGROUND AND PURPOSE: Intraoperative brain deformation is an important factor compromising the acc...
Current neuronavigation systems cannot adapt to changing intraoperative conditions over time. To ove...
Intraoperative brain deformation, so-called brain shift, affects the applicability of preoperative m...
Accurate and safe neurosurgical intervention can be affected by intra-operative tissue deformation, ...
Despite the recent advances in image-guided neurosurgery, reliable and accurate estimation of the br...
In brain tumor resection, soft tissue deformation (i.e., brain shift) causes the pre-operative image...
Intraoperative imaging can assist neurosurgeons to define brain tumours and other surrounding ...
International audienceIn brain tumor surgery, the quality and safety of the procedure can be impacte...
Background: Brainshift is still a major issue in neuronavigation. Incorporating intra-operative ultr...
Purpose: Brain shift and tissue deformation during surgery for intracranial lesions are the main act...
During neurosurgery, medical images of the brain are used to locate tumors and critical structures, ...
Early brain tumor resection can effectively improve the patient’s survival rate (Jakola et al. 2012)...
International audienceBrain shift is a non-rigid deformation of brain tissue that is affected by los...
AbstractWe consider the problem of improving outcomes for neurosurgery patients by enhancing intraop...
Purpose In brain tumor surgeries, maximum removal of cancerous tissue without compromising normal br...
BACKGROUND AND PURPOSE: Intraoperative brain deformation is an important factor compromising the acc...
Current neuronavigation systems cannot adapt to changing intraoperative conditions over time. To ove...
Intraoperative brain deformation, so-called brain shift, affects the applicability of preoperative m...
Accurate and safe neurosurgical intervention can be affected by intra-operative tissue deformation, ...
Despite the recent advances in image-guided neurosurgery, reliable and accurate estimation of the br...
In brain tumor resection, soft tissue deformation (i.e., brain shift) causes the pre-operative image...
Intraoperative imaging can assist neurosurgeons to define brain tumours and other surrounding ...
International audienceIn brain tumor surgery, the quality and safety of the procedure can be impacte...
Background: Brainshift is still a major issue in neuronavigation. Incorporating intra-operative ultr...
Purpose: Brain shift and tissue deformation during surgery for intracranial lesions are the main act...
During neurosurgery, medical images of the brain are used to locate tumors and critical structures, ...
Early brain tumor resection can effectively improve the patient’s survival rate (Jakola et al. 2012)...
International audienceBrain shift is a non-rigid deformation of brain tissue that is affected by los...
AbstractWe consider the problem of improving outcomes for neurosurgery patients by enhancing intraop...
Purpose In brain tumor surgeries, maximum removal of cancerous tissue without compromising normal br...
BACKGROUND AND PURPOSE: Intraoperative brain deformation is an important factor compromising the acc...
Current neuronavigation systems cannot adapt to changing intraoperative conditions over time. To ove...