Add to ORKGMedical imaging modalities, such as magnetic resonance (MR), histological images, and positron emission tomography (PET), enable study of anatomy and function in animals and humans. The technology to collect such data greatly exceeds tools to analyze it. This research seeks to address this issue by developing methods that automatically synthesize labeled electronic atlases tailored to individuals. The approac
This work aims to develop a methodology for automated atlas-guided analysis of small animal positron...
Brain atlases are a fundamental resource for neuroscience research. In the past few decades they hav...
Statistical atlases enable the individualization of atlas information for patient specific applicati...
Human anatomy, morphology, and associated diseases can be studied using medical imaging data. Howeve...
We introduce a new approach to medical image analysis that combines deformable model methodologies w...
Medicine has always been and will be a topical area for research, because the lives of other people ...
Registering medical images of different individuals is difficult due to inherent anatomical variabil...
Medical imaging can provide data for useful views of the interior details of human anatomy. In addit...
The number of medical images acquired yearly in hospitals increases all the time. These imaging data...
Medical imaging technologies allow the collection of remarkable, three-dimensional pictures of the i...
This thesis presents a computational framework and new algorithms for creating geometric models and ...
PURPOSE: Using three publicly available small-animal atlases (Sprague-Dawley rat, MOBY, and Digimous...
We introduce a new approach to medical image analysis that combines deformable model methodologies w...
Abstract. In this paper we introduce the concept of statistical deformation mod-els (SDM) which allo...
Barbeito, A., Painho, M., Cabral, P., & Goyri O'Neill, J. (2017). Beyond digital human body atlases:...
This work aims to develop a methodology for automated atlas-guided analysis of small animal positron...
Brain atlases are a fundamental resource for neuroscience research. In the past few decades they hav...
Statistical atlases enable the individualization of atlas information for patient specific applicati...
Human anatomy, morphology, and associated diseases can be studied using medical imaging data. Howeve...
We introduce a new approach to medical image analysis that combines deformable model methodologies w...
Medicine has always been and will be a topical area for research, because the lives of other people ...
Registering medical images of different individuals is difficult due to inherent anatomical variabil...
Medical imaging can provide data for useful views of the interior details of human anatomy. In addit...
The number of medical images acquired yearly in hospitals increases all the time. These imaging data...
Medical imaging technologies allow the collection of remarkable, three-dimensional pictures of the i...
This thesis presents a computational framework and new algorithms for creating geometric models and ...
PURPOSE: Using three publicly available small-animal atlases (Sprague-Dawley rat, MOBY, and Digimous...
We introduce a new approach to medical image analysis that combines deformable model methodologies w...
Abstract. In this paper we introduce the concept of statistical deformation mod-els (SDM) which allo...
Barbeito, A., Painho, M., Cabral, P., & Goyri O'Neill, J. (2017). Beyond digital human body atlases:...
This work aims to develop a methodology for automated atlas-guided analysis of small animal positron...
Brain atlases are a fundamental resource for neuroscience research. In the past few decades they hav...
Statistical atlases enable the individualization of atlas information for patient specific applicati...