Your search keyword '"Hajnal, Jo V"' showing total 6 results

1. 3-D Reconstruction in Canonical Co-Ordinate Space From Arbitrarily Oriented 2-D Images.

Author

Hou, Benjamin, Khanal, Bishesh, Alansary, Amir, McDonagh, Steven, Davidson, Alice, Rutherford, Mary, Hajnal, Jo V., Rueckert, Daniel, Glocker, Ben, and Kainz, Bernhard

Subjects

MAGNETIC resonance imaging, CANONICAL coordinates, FETAL brain abnormalities, CANONICAL correlation (Statistics), NEURAL circuitry

Abstract

Limited capture range, and the requirement to provide high quality initialization for optimization-based 2-D/3-D image registration methods, can significantly degrade the performance of 3-D image reconstruction and motion compensation pipelines. Challenging clinical imaging scenarios, which contain significant subject motion, such as fetal in-utero imaging, complicate the 3-D image and volume reconstruction process. In this paper, we present a learning-based image registration method capable of predicting 3-D rigid transformations of arbitrarily oriented 2-D image slices, with respect to a learned canonical atlas co-ordinate system. Only image slice intensity information is used to perform registration and canonical alignment, no spatial transform initialization is required. To find image transformations, we utilize a convolutional neural network architecture to learn the regression function capable of mapping 2-D image slices to a 3-D canonical atlas space. We extensively evaluate the effectiveness of our approach quantitatively on simulated magnetic resonance imaging (MRI), fetal brain imagery with synthetic motion and further demonstrate qualitative results on real fetal MRI data where our method is integrated into a full reconstruction and motion compensation pipeline. Our learning based registration achieves an average spatial prediction error of 7 mm on simulated data and produces qualitatively improved reconstructions for heavily moving fetuses with gestational ages of approximately 20 weeks. Our model provides a general and computationally efficient solution to the 2-D/3-D registration initialization problem and is suitable for real-time scenarios. [ABSTRACT FROM AUTHOR]

Published

2018

2. Super-resolution reconstruction of cardiac MRI using coupled dictionary learning

Author

Bhatia, Kanwal K., primary, Price, Anthony N., additional, Shi, Wenzhe, additional, Hajnal, Jo V., additional, and Rueckert, Daniel, additional

Published

2014

3. LISA: Longitudinal image registration via spatio-temporal atlases

Author

Serag, Ahmed, primary, Aljabar, Paul, additional, Counsell, Serena, additional, Boardman, James, additional, Hajnal, Jo V., additional, and Rueckert, Daniel, additional

Published

2012

4. Tracking developmental changes in subcortical structures of the preterm brain using multi-modal MRI

Author

Serag, Ahmed, primary, Aljabar, Paul, additional, Counsell, Serena, additional, Boardman, James, additional, Hajnal, Jo V., additional, and Rueckert, Daniel, additional

Published

2011

5. Construction of a 4D atlas of the developing brain using non-rigid registration

Author

Serag, Ahmed, primary, Aljabar, Paul, additional, Counsell, Serena, additional, Boardman, James, additional, Hajnal, Jo V., additional, and Rueckert, Daniel, additional

Published

2011

6. Enhanced gene transfection in vivo using magnetic localisation of ultrasound contrast agents: Preliminary results

Author

Mulvana, Helen, primary, Eckersley, Robert J., additional, Browning, Richard, additional, Hajnal, Jo V, additional, Stride, Eleanor, additional, Barrack, Tom, additional, Tang, Mengxing, additional, Pankhurst, Quentin, additional, and Wells, Dominic, additional

Published

2010