Spatial and soft tissue information provided by magnetic resonance imaging can be very valuable during image-guided procedures, where usually only realtime two-dimensional (2D) x-ray images are available. Registration of 2D x-ray images to three-dimensional (3D) magnetic resonance imaging (MRI) data, acquired prior to the procedure, can provide optimal information to guide the procedure. However, registering x-ray images to MRI data is not a trivial task because of their fundamental difference in tissue contrast. This paper presents a technique that generates pseudo-computed tomography (CT) data from multi-spectral MRI acquisitions which is sufficiently similar to real CT data to enable registration of x-ray to MRI with comparable accuracy ...
The purpose of this study was to evaluate eight possible approaches to create pseudo-CT images for r...
Image registration is a fundamental problem that can be found in a diverse range of fields within th...
Radiotherapy planning and attenuation correction of PET images require simulation of radiation trans...
Spatial and soft tissue information provided by magnetic resonance imaging can be very valuable duri...
Clinical procedures that are conventionally guided by 2D x-ray imaging, may benefit from the additio...
WWith increasing interests in magnetic resonance imaging (MRI)-only radiation therapy (RT) and the e...
The purpose of a registration process is to find a geometric transformation, that relates correspond...
For the retrospective, rigid body registration of two 3D datasets from different modalities (MR, CT ...
Registration of 2-D projection images and 3-D volume images is still a largely unsolved problem. In ...
We present a set of new methods for efficient and precise registration of any X-Ray modality (fluoro...
Magnetic Resonance Imaging (MRI) is a non-invasive, non-ionising imaging modality which allows three...
Magnetic resonance imaging (MRI), together with histology, is widely used to diagnose and to monitor...
This study aimed to generate synthetic MR images from real CT images. CT# mean and standard deviatio...
Background Magnetic resonance imaging (MRI), together with histology, is widely used to diagnose and...
The purpose of this study was to evaluate eight possible approaches to create pseudo-CT images for r...
Image registration is a fundamental problem that can be found in a diverse range of fields within th...
Radiotherapy planning and attenuation correction of PET images require simulation of radiation trans...
Spatial and soft tissue information provided by magnetic resonance imaging can be very valuable duri...
Clinical procedures that are conventionally guided by 2D x-ray imaging, may benefit from the additio...
WWith increasing interests in magnetic resonance imaging (MRI)-only radiation therapy (RT) and the e...
The purpose of a registration process is to find a geometric transformation, that relates correspond...
For the retrospective, rigid body registration of two 3D datasets from different modalities (MR, CT ...
Registration of 2-D projection images and 3-D volume images is still a largely unsolved problem. In ...
We present a set of new methods for efficient and precise registration of any X-Ray modality (fluoro...
Magnetic Resonance Imaging (MRI) is a non-invasive, non-ionising imaging modality which allows three...
Magnetic resonance imaging (MRI), together with histology, is widely used to diagnose and to monitor...
This study aimed to generate synthetic MR images from real CT images. CT# mean and standard deviatio...
Background Magnetic resonance imaging (MRI), together with histology, is widely used to diagnose and...
The purpose of this study was to evaluate eight possible approaches to create pseudo-CT images for r...
Image registration is a fundamental problem that can be found in a diverse range of fields within th...
Radiotherapy planning and attenuation correction of PET images require simulation of radiation trans...