2 research outputs found
Automatic whole heart segmentation based on image registration
Whole heart segmentation can provide important morphological information of the heart, potentially
enabling the development of new clinical applications and the planning and guidance
of cardiac interventional procedures. This information can be extracted from medical images,
such as these of magnetic resonance imaging (MRI), which is becoming a routine modality
for the determination of cardiac morphology. Since manual delineation is labour intensive and
subject to observer variation, it is highly desirable to develop an automatic method. However,
automating the process is complicated by the large shape variation of the heart and limited
quality of the data. The aim of this work is to develop an automatic and robust segmentation
framework from cardiac MRI while overcoming these difficulties.
The main challenge of this segmentation is initialisation of the substructures and inclusion
of shape constraints. We propose the locally affine registration method (LARM) and the freeform
deformations with adaptive control point status to tackle the challenge. They are applied
to the atlas propagation based segmentation framework, where the multi-stage scheme is used to
hierarchically increase the degree of freedom. In this segmentation framework, it is also needed
to compute the inverse transformation for the LARM registration. Therefore, we propose a
generic method, using Dynamic Resampling And distance Weighted interpolation (DRAW), for
inverting dense displacements. The segmentation framework is validated on a clinical dataset
which includes nine pathologies.
To further improve the nonrigid registration against local intensity distortions in the images,
we propose a generalised spatial information encoding scheme and the spatial information
encoded mutual information (SIEMI) registration. SIEMI registration is applied to the segmentation
framework to improve the accuracy. Furthermore, to demonstrate the general applicability
of SIEMI registration, we apply it to the registration of cardiac MRI, brain MRI, and the
contrast enhanced MRI of the liver. SIEMI registration is shown to perform well and achieve
significantly better accuracy compared to the registration using normalised mutual information