A biomechanical model-based deformable image registration incorporating specimen-specific changes in material properties is optimized and evaluated for correlating histology of clinical prostatectomy specimens with in vivo MRI. In this methodology, a three-step registration based on biomechanics calculates the transformations between histology and fixed, fixed and fresh, and fresh and in vivo states. A heterogeneous linear elastic material model is constructed based on magnetic resonance elastography (MRE) results. The ex vivo tissue MRE data provide specimen-specific information for the fresh and fixed tissue to account for the changes due to fixation. The accuracy of the algorithm was quantified by calculating the target registration erro...
Preoperative diagnostic magnetic resonance (MR) breast images can provide good contrast between diff...
Accounting for tissue deformation in medical imaging through Deformable Image Registration (DIR) is ...
Objective: Medical image registration can be formulated as a tissue deformation problem, where param...
Magnetic resonance imaging (MRI) is being used increasingly for image-guided targeted biopsy and foc...
Magnetic resonance imaging (MRI) and magnetic resonance spectroscopic imaging (MRSI) have been shown...
Adding magnetic resonance (MR)-derived information to standard transrectal ultrasound (TRUS) images ...
TransRectal Ultrasound (TRUS) is used for image guidance during prostate biopsy and for treatment pl...
Noninvasive detection and localization of prostate cancer in medical imaging is an important, yet di...
This paper introduces a fast non-rigid registration method for aligning pre-operative 1.5 T MR image...
Background and purpose: The diagnostic accuracy of new imaging techniques requires validation, prefe...
External beam radiation treatment (EBRT) is a popular method for treating prostate cancer (CaP) invo...
PurposeTo evaluate a semiautomatic software-based method of registering in vivo prostate MR images t...
This work presents new approaches to in-vivo and ex-vivo human prostate cancer imaging using magneti...
Statistical shape models of soft-tissue organ motion provide a useful means of imposing physical con...
Abstract Background Advanced clinical applications, such as dose accumulation and adaptive radiation...
Preoperative diagnostic magnetic resonance (MR) breast images can provide good contrast between diff...
Accounting for tissue deformation in medical imaging through Deformable Image Registration (DIR) is ...
Objective: Medical image registration can be formulated as a tissue deformation problem, where param...
Magnetic resonance imaging (MRI) is being used increasingly for image-guided targeted biopsy and foc...
Magnetic resonance imaging (MRI) and magnetic resonance spectroscopic imaging (MRSI) have been shown...
Adding magnetic resonance (MR)-derived information to standard transrectal ultrasound (TRUS) images ...
TransRectal Ultrasound (TRUS) is used for image guidance during prostate biopsy and for treatment pl...
Noninvasive detection and localization of prostate cancer in medical imaging is an important, yet di...
This paper introduces a fast non-rigid registration method for aligning pre-operative 1.5 T MR image...
Background and purpose: The diagnostic accuracy of new imaging techniques requires validation, prefe...
External beam radiation treatment (EBRT) is a popular method for treating prostate cancer (CaP) invo...
PurposeTo evaluate a semiautomatic software-based method of registering in vivo prostate MR images t...
This work presents new approaches to in-vivo and ex-vivo human prostate cancer imaging using magneti...
Statistical shape models of soft-tissue organ motion provide a useful means of imposing physical con...
Abstract Background Advanced clinical applications, such as dose accumulation and adaptive radiation...
Preoperative diagnostic magnetic resonance (MR) breast images can provide good contrast between diff...
Accounting for tissue deformation in medical imaging through Deformable Image Registration (DIR) is ...
Objective: Medical image registration can be formulated as a tissue deformation problem, where param...