Reference database driven statistical analysis of automated frameless CT-MRI registration developed for radiosurgical investigations

The aims of this study were (I) to describe statistically the fluctuation of the goodness of automated CT-MRI registration method (2) to evaluate a numerical parameter, scaled to [0,1] interval (lambda), for characterizing the population level accuracy of any automated CT-MRI registration algorithm...

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Main Authors: Opposits, G., Kis, S. A., Spisak, T., Berenyi, E., Szucs, B., Bognar, L., Dobai, J. G., Takacs, E., Gulyas, L., Emri, M.
Format: Conference Proceeding
Language:English
Online Access:Request full text
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Summary:The aims of this study were (I) to describe statistically the fluctuation of the goodness of automated CT-MRI registration method (2) to evaluate a numerical parameter, scaled to [0,1] interval (lambda), for characterizing the population level accuracy of any automated CT-MRI registration algorithm on voxel similarity basis. The population level distribution of crosscorrelation values between the reference T1-weighted images and the automatically registered images were investigated in five patient groups (brain metastatis, cavernoma, cranial nerve schwannoma, meningioma, trigeminal neuralgia). The evaluated distributions appeared as the mixture of two Gaussians and a peak at the 1.0 value. The evaluated distributions appeared as the mixture of two Gaussians and a peak at the 1.0 value, therefore we classified the result of automated registration into three accuracy types (AT), AT1: cross-correlation equals to 1.0, AT2: when the automatically registered image slightly differs from the reference one, cross-correlation ≈1.0, and AT3: when the crosscorrelation is about 0.4. P auto was introduced as the ratio of well fitted automated registration relative to number of all the registrations, C upper and C lower are the mean of AT2 and A T3 distributions. The A=P auto *C upper /C lower product was used as the measure of the goodness of automated image registration procedure at population level. The evaluated lambda parameter will be used to control the impacts of software modifications and to optimize the functional parameters of the evaluated preprocessing steps.
ISSN:1082-3654
2577-0829
DOI:10.1109/NSSMIC.2012.6551634