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1. CINA: Conditional Implicit Neural Atlas for Spatio-Temporal Representation of Fetal Brains

Author

Dannecker, Maik, Kyriakopoulou, Vanessa, Cordero-Grande, Lucilio, Price, Anthony N., Hajnal, Joseph V., and Rueckert, Daniel

Subjects
Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition
Abstract

We introduce a conditional implicit neural atlas (CINA) for spatio-temporal atlas generation from Magnetic Resonance Images (MRI) of the neurotypical and pathological fetal brain, that is fully independent of affine or non-rigid registration. During training, CINA learns a general representation of the fetal brain and encodes subject specific information into latent code. After training, CINA can construct a faithful atlas with tissue probability maps of the fetal brain for any gestational age (GA) and anatomical variation covered within the training domain. Thus, CINA is competent to represent both, neurotypical and pathological brains. Furthermore, a trained CINA model can be fit to brain MRI of unseen subjects via test-time optimization of the latent code. CINA can then produce probabilistic tissue maps tailored to a particular subject. We evaluate our method on a total of 198 T2 weighted MRI of normal and abnormal fetal brains from the dHCP and FeTA datasets. We demonstrate CINA's capability to represent a fetal brain atlas that can be flexibly conditioned on GA and on anatomical variations like ventricular volume or degree of cortical folding, making it a suitable tool for modeling both neurotypical and pathological brains. We quantify the fidelity of our atlas by means of tissue segmentation and age prediction and compare it to an established baseline. CINA demonstrates superior accuracy for neurotypical brains and pathological brains with ventriculomegaly. Moreover, CINA scores a mean absolute error of 0.23 weeks in fetal brain age prediction, further confirming an accurate representation of fetal brain development., Comment: Submitted to MICCAI 2024

Published
2024

2. Neonatal brain dynamic functional connectivity in term and preterm infants and its association with early childhood neurodevelopment

Author

França, Lucas G. S., Ciarrusta, Judit, Gale-Grant, Oliver, Fenn-Moltu, Sunniva, Fitzgibbon, Sean, Chew, Andrew, Falconer, Shona, Dimitrova, Ralica, Cordero-Grande, Lucilio, Price, Anthony N., Hughes, Emer, O’Muircheartaigh, Jonathan, Duff, Eugene, Tuulari, Jetro J., Deco, Gustavo, Counsell, Serena J., Hajnal, Joseph V., Nosarti, Chiara, Arichi, Tomoki, Edwards, A. David, McAlonan, Grainne, and Batalle, Dafnis

Published
2024
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3. Maturational networks of human fetal brain activity reveal emerging connectivity patterns prior to ex-utero exposure

Author

Karolis, Vyacheslav R., Fitzgibbon, Sean P., Cordero-Grande, Lucilio, Farahibozorg, Seyedeh-Rezvan, Price, Anthony N., Hughes, Emer J., Fetit, Ahmed E., Kyriakopoulou, Vanessa, Pietsch, Maximilian, Rutherford, Mary A., Rueckert, Daniel, Hajnal, Joseph V., Edwards, A. David, O’Muircheartaigh, Jonathan, Duff, Eugene P., and Arichi, Tomoki

Published
2023
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4. Structural and functional asymmetry of the neonatal cerebral cortex

Author

Williams, Logan Z. J., Fitzgibbon, Sean P., Bozek, Jelena, Winkler, Anderson M., Dimitrova, Ralica, Poppe, Tanya, Schuh, Andreas, Makropoulos, Antonios, Cupitt, John, O’Muircheartaigh, Jonathan, Duff, Eugene P., Cordero-Grande, Lucilio, Price, Anthony N., Hajnal, Joseph V., Rueckert, Daniel, Smith, Stephen M., Edwards, A. David, and Robinson, Emma C.

Published
2023
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5. Complementary Time-Frequency Domain Networks for Dynamic Parallel MR Image Reconstruction

Author

Qin, Chen, Duan, Jinming, Hammernik, Kerstin, Schlemper, Jo, Küstner, Thomas, Botnar, René, Prieto, Claudia, Price, Anthony N., Hajnal, Joseph V., and Rueckert, Daniel

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Purpose: To introduce a novel deep learning based approach for fast and high-quality dynamic multi-coil MR reconstruction by learning a complementary time-frequency domain network that exploits spatio-temporal correlations simultaneously from complementary domains. Theory and Methods: Dynamic parallel MR image reconstruction is formulated as a multi-variable minimisation problem, where the data is regularised in combined temporal Fourier and spatial (x-f) domain as well as in spatio-temporal image (x-t) domain. An iterative algorithm based on variable splitting technique is derived, which alternates among signal de-aliasing steps in x-f and x-t spaces, a closed-form point-wise data consistency step and a weighted coupling step. The iterative model is embedded into a deep recurrent neural network which learns to recover the image via exploiting spatio-temporal redundancies in complementary domains. Results: Experiments were performed on two datasets of highly undersampled multi-coil short-axis cardiac cine MRI scans. Results demonstrate that our proposed method outperforms the current state-of-the-art approaches both quantitatively and qualitatively. The proposed model can also generalise well to data acquired from a different scanner and data with pathologies that were not seen in the training set. Conclusion: The work shows the benefit of reconstructing dynamic parallel MRI in complementary time-frequency domains with deep neural networks. The method can effectively and robustly reconstruct high-quality images from highly undersampled dynamic multi-coil data ($16 \times$ and $24 \times$ yielding 15s and 10s scan times respectively) with fast reconstruction speed (2.8s). This could potentially facilitate achieving fast single-breath-hold clinical 2D cardiac cine imaging., Comment: Accepted by Magnetic Resonance in Medicine

Published
2020

6. Motion corrected MRI with DISORDER: Distributed and Incoherent Sample Orders for Reconstruction Deblurring using Encoding Redundancy

Author

Cordero-Grande, Lucilio, Ferrazzi, Giulio, Teixeira, Rui Pedro A. G., O'Muircheartaigh, Jonathan, Price, Anthony N., and Hajnal, Joseph V.

Subjects
Physics - Medical Physics, Electrical Engineering and Systems Science - Image and Video Processing, 65F20
Abstract

Purpose: To enable rigid-body motion tolerant parallel volumetric magnetic resonance imaging by retrospective head motion correction on a variety of spatio-temporal scales and imaging sequences. Theory and methods: Tolerance against rigid-body motion is based on distributed and incoherent sampling orders for boosting a joint retrospective motion estimation and reconstruction framework. Motion resilience stems from the encoding redundancy in the data, as generally provided by the coil array. Hence, it does not require external sensors, navigators or training data, so the methodology is readily applicable to sequences using 3D encodings. Results: Simulations are performed showing full inter-shot corrections for usual levels of in-vivo motion, large number of shots, standard levels of noise and moderate acceleration factors. Feasibility of inter- and intra-shot corrections is shown under controlled motion in-vivo. Practical efficacy is illustrated by high quality results in most corrupted of 208 volumes from a series of 26 clinical pediatric examinations collected using standard protocols. Conclusion: The proposed framework addresses the rigid motion problem in volumetric anatomical brain scans with sufficient encoding redundancy which has enabled reliable pediatric examinations without sedation., Comment: 22 pages, 9 figures, 1 table, accepted in Magnetic Resonance in Medicine

Published
2019

7. In utero diffusion MRI: challenges, advances, and applications

Author

Christiaens, Daan, Slator, Paddy J., Cordero-Grande, Lucilio, Price, Anthony N., Deprez, Maria, Alexander, Daniel C., Rutherford, Mary, Hajnal, Joseph V., and Hutter, Jana

Subjects
Physics - Medical Physics, Physics - Data Analysis, Statistics and Probability
Abstract

In utero diffusion MRI provides unique opportunities to non-invasively study the microstructure of tissue during fetal development. A wide range of developmental processes, such as the growth of white matter tracts in the brain, the maturation of placental villous trees, or the fibres in the fetal heart remain to be studied and understood in detail. Advances in fetal interventions and surgery furthermore increase the need for ever more precise antenatal diagnosis from fetal MRI. However, the specific properties of the in utero environment, such as fetal and maternal motion, increased field-of-view, tissue interfaces and safety considerations, are significant challenges for most MRI techniques, and particularly for diffusion. Recent years have seen major improvements, driven by the development of bespoke techniques adapted to these specific challenges in both acquisition and processing. Fetal diffusion MRI, an emerging research tool, is now adding valuable novel information for both research and clinical questions. This paper will highlight specific challenges, outline strategies to target them, and discuss two main applications: fetal brain connectomics and placental maturation.

Published
2019

8. Scattered slice SHARD reconstruction for motion correction in multi-shell diffusion MRI

Author

Christiaens, Daan, Cordero-Grande, Lucilio, Pietsch, Maximilian, Hutter, Jana, Price, Anthony N., Hughes, Emer J., Vecchiato, Katy, Deprez, Maria, Edwards, A. David, Hajnal, Joseph V., and Tournier, J-Donald

Subjects
Physics - Medical Physics
Abstract

Diffusion MRI offers a unique probe into neural microstructure and connectivity in the developing brain. However, analysis of neonatal brain imaging data is complicated by inevitable subject motion, leading to a series of scattered slices that need to be aligned within and across diffusion-weighted contrasts. Here, we develop a reconstruction method for scattered slice multi-shell high angular resolution diffusion imaging (HARDI) data, jointly estimating an uncorrupted data representation and motion parameters at the slice or multiband excitation level. The reconstruction relies on data-driven representation of multi-shell HARDI data using a bespoke spherical harmonics and radial decomposition (SHARD), which avoids imposing model assumptions, thus facilitating to compare various microstructure imaging methods in the reconstructed output. Furthermore, the proposed framework integrates slice-level outlier rejection, distortion correction, and slice profile correction. We evaluate the method in the neonatal cohort of the developing Human Connectome Project (650 scans). Validation experiments demonstrate accurate slice-level motion correction across the age range and across the range of motion in the population. Results in the neonatal data show successful reconstruction even in severely motion-corrupted subjects. In addition, we illustrate how local tissue modelling can extract advanced microstructure features such as orientation distribution functions from the motion-corrected reconstructions., Comment: revision. 15 pages, 10 figures, 2 tables

Published
2019

9. Generalizing Deep Learning MRI Reconstruction across Different Domains

Author

Ouyang, Cheng, Schlemper, Jo, Biffi, Carlo, Seegoolam, Gavin, Caballero, Jose, Price, Anthony N., Hajnal, Joseph V., and Rueckert, Daniel

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We look into the robustness of deep learning based MRI reconstruction when tested on unseen contrasts and organs. We then propose to generalize the network by training with large publicly-available natural image datasets with synthesized phase information to achieve high cross-domain reconstruction performance which is competitive with domain-specific training. To explain its generalization mechanism, we have also analyzed patch sets for different training datasets., Comment: Accepted for ISBI2019 as a 1-page abstract

Published
2019

10. Complex diffusion-weighted image estimation via matrix recovery under general noise models

Author

Cordero-Grande, Lucilio, Christiaens, Daan, Hutter, Jana, Price, Anthony N., and Hajnal, Joseph V.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Statistics - Applications, 62P10
Abstract

We propose a patch-based singular value shrinkage method for diffusion magnetic resonance image estimation targeted at low signal to noise ratio and accelerated acquisitions. It operates on the complex data resulting from a sensitivity encoding reconstruction, where asymptotically optimal signal recovery guarantees can be attained by modeling the noise propagation in the reconstruction and subsequently simulating or calculating the limit singular value spectrum. Simple strategies are presented to deal with phase inconsistencies and optimize patch construction. The pertinence of our contributions is quantitatively validated on synthetic data, an in vivo adult example, and challenging neonatal and fetal cohorts. Our methodology is compared with related approaches, which generally operate on magnitude-only data and use data-based noise level estimation and singular value truncation. Visual examples are provided to illustrate effectiveness in generating denoised and debiased diffusion estimates with well preserved spatial and diffusion detail., Comment: 26 pages, 9 figures

Published
2018

11. Fetal whole-heart 4D imaging using motion-corrected multi-planar real-time MRI

Author

van Amerom, Joshua FP, Lloyd, David FA, Deprez, Maria, Price, Anthony N, Malik, Shaihan J, Pushparajah, Kuberan, van Poppel, Milou PM, Rutherford, Mary A, Razavi, Reza, and Hajnal, Joseph V

Subjects
Physics - Medical Physics
Abstract

Purpose: To develop a MRI acquisition and reconstruction framework for volumetric cine visualisation of the fetal heart and great vessels in the presence of maternal and fetal motion. Methods: Four-dimensional depiction was achieved using a highly-accelerated multi-planar real-time balanced steady state free precession acquisition combined with retrospective image-domain techniques for motion correction, cardiac synchronisation and outlier rejection. The framework was evaluated and optimised using a numerical phantom, and evaluated in a study of 20 mid- to late-gestational age human fetal subjects. Reconstructed cine volumes were evaluated by experienced cardiologists and compared with matched ultrasound. A preliminary assessment of flow-sensitive reconstruction using the velocity information encoded in the phase of dynamic images is included. Results: Reconstructed cine volumes could be visualised in any 2D plane without the need for highly-specific scan plane prescription prior to acquisition or for maternal breath hold to minimise motion. Reconstruction was fully automated aside from user-specified masks of the fetal heart and chest. The framework proved robust when applied to fetal data and simulations confirmed that spatial and temporal features could be reliably recovered. Expert evaluation suggested the reconstructed volumes can be used for comprehensive assessment of the fetal heart, either as an adjunct to ultrasound or in combination with other MRI techniques. Conclusion: The proposed methods show promise as a framework for motion-compensated 4D assessment of the fetal heart and great vessels.

Published
2018
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13. Learning compact q-space representations for multi-shell diffusion-weighted MRI

Author

Christiaens, Daan, Cordero-Grande, Lucilio, Hutter, Jana, Price, Anthony N., Deprez, Maria, Hajnal, Joseph V., and Tournier, J-Donald

Subjects
Physics - Medical Physics
Abstract

Diffusion-weighted MRI measures the direction and scale of the local diffusion process in every voxel through its spectrum in q-space, typically acquired in one or more shells. Recent developments in microstructure imaging and multi-tissue decomposition have sparked renewed attention in the radial b-value dependence of the signal. Applications in motion correction and outlier rejection therefore require a compact linear signal representation that extends over the radial as well as angular domain. Here, we introduce SHARD, a data-driven representation of the q-space signal based on spherical harmonics and a radial decomposition into orthonormal components. This representation provides a complete, orthogonal signal basis, tailored to the spherical geometry of q-space and calibrated to the data at hand. We demonstrate that the rank-reduced decomposition outperforms model-based alternatives in human brain data, whilst faithfully capturing the micro- and meso-structural information in the signal. Furthermore, we validate the potential of joint radial-spherical as compared to single-shell representations. As such, SHARD is optimally suited for applications that require low-rank signal predictions, such as motion correction and outlier rejection. Finally, we illustrate its application for the latter using outlier robust regression., Comment: Accepted author manuscript, including supplementary materials

Published
2018
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14. Integrated and efficient diffusion-relaxometry using ZEBRA

Author

Hutter, Jana, Slator, Paddy J, Christiaens, Daan C, Teixeira, Rui Pedro AG, Roberts, Thomas, Jackson, Laurence, Price, Anthony N, Malik, Shaihan, and Hajnal, Joseph V

Subjects
Physics - Medical Physics
Abstract

The emergence of multiparametric diffusion models combining diffusion and relaxometry measurements provide powerful new ways to explore tissue microstructure with the potential to provide new insights into tissue structure and function. However, their ability to provide rich analyses and the potential for clinical translation critically depends on the availability of efficient, integrated, multi-dimensional acquisitions. We propose a fully integrated sequence simultaneously sampling the acquisition parameter spaces required for T1 and T2* relaxometry and diffusion MRI. Slice-level interleaved diffusion encoding, multiple spin/gradient echoes and slice-shuffling are combined for higher efficiency, sampling flexibility and enhanced internal consistency. In-vivo data was successfully acquired on healthy adult brains. Obtained parametric maps as well as clustering results demonstrate the potential of the technique regarding its ability to provide eloquent data with an acceleration of roughly 20 compared to conventionally used approaches. The proposed integrated acquisition, called ZEBRA, offers significant acceleration and flexibility compared to existing diffusion-relaxometry studies and thus facilitates wider use of these techniques both for research-driven and clinical applications.

Published
2018

15. Predicting age and clinical risk from the neonatal connectome

Author

Taoudi-Benchekroun, Yassine, Christiaens, Daan, Grigorescu, Irina, Gale-Grant, Oliver, Schuh, Andreas, Pietsch, Maximilian, Chew, Andrew, Harper, Nicholas, Falconer, Shona, Poppe, Tanya, Hughes, Emer, Hutter, Jana, Price, Anthony N, Tournier, J-Donald, Cordero-Grande, Lucilio, Counsell, Serena J, Rueckert, Daniel, Arichi, Tomoki, Hajnal, Joseph V, Edwards, A David, Deprez, Maria, and Batalle, Dafnis

Published
2022
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18. In vivo T2 measurements of the fetal brain using single‐shot fast spin echo sequences

Author

Bhattacharya, Suryava, primary, Price, Anthony N., additional, Uus, Alena, additional, Sousa, Helena S., additional, Marenzana, Massimo, additional, Colford, Kathleen, additional, Murkin, Peter, additional, Lee, Maggie, additional, Cordero‐Grande, Lucilio, additional, Teixeira, Rui Pedro A. G., additional, Malik, Shaihan J., additional, and Deprez, Maria, additional

Published
2024
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19. Acquiring and Predicting Multidimensional Diffusion (MUDI) Data: An Open Challenge

Author

Pizzolato, Marco, Palombo, Marco, Bonet-Carne, Elisenda, Tax, Chantal M. W., Grussu, Francesco, Ianus, Andrada, Bogusz, Fabian, Pieciak, Tomasz, Ning, Lipeng, Larochelle, Hugo, Descoteaux, Maxime, Chamberland, Maxime, Blumberg, Stefano B., Mertzanidou, Thomy, Alexander, Daniel C., Afzali, Maryam, Aja-Fernández, Santiago, Jones, Derek K., Westin, Carl-Fredrik, Rathi, Yogesh, Baete, Steven H., Cordero-Grande, Lucilio, Ladner, Thilo, Slator, Paddy J., Hajnal, Joseph V, Thiran, Jean-Philippe, Price, Anthony N., Sepehrband, Farshid, Zhang, Fan, Hutter, Jana, Hege, Hans-Christian, Series Editor, Hoffman, David, Series Editor, Johnson, Christopher R., Series Editor, Polthier, Konrad, Series Editor, Bonet-Carne, Elisenda, editor, Hutter, Jana, editor, Palombo, Marco, editor, Pizzolato, Marco, editor, Sepehrband, Farshid, editor, and Zhang, Fan, editor

Published
2020
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20. Preterm birth alters the development of cortical microstructure and morphology at term-equivalent age

Author

Dimitrova, Ralica, Pietsch, Maximilian, Ciarrusta, Judit, Fitzgibbon, Sean P., Williams, Logan Z.J., Christiaens, Daan, Cordero-Grande, Lucilio, Batalle, Dafnis, Makropoulos, Antonios, Schuh, Andreas, Price, Anthony N., Hutter, Jana, Teixeira, Rui PAG, Hughes, Emer, Chew, Andrew, Falconer, Shona, Carney, Olivia, Egloff, Alexia, Tournier, J-Donald, McAlonan, Grainne, Rutherford, Mary A., Counsell, Serena J., Robinson, Emma C., Hajnal, Joseph V., Rueckert, Daniel, Edwards, A. David, and O'Muircheartaigh, Jonathan

Published
2021
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23. The developing Human Connectome Project (dHCP) automated resting-state functional processing framework for newborn infants

Author

Fitzgibbon, Sean P., Harrison, Samuel J., Jenkinson, Mark, Baxter, Luke, Robinson, Emma C., Bastiani, Matteo, Bozek, Jelena, Karolis, Vyacheslav, Cordero Grande, Lucilio, Price, Anthony N., Hughes, Emer, Makropoulos, Antonios, Passerat-Palmbach, Jonathan, Schuh, Andreas, Gao, Jianliang, Farahibozorg, Seyedeh-Rezvan, O'Muircheartaigh, Jonathan, Ciarrusta, Judit, O'Keeffe, Camilla, Brandon, Jakki, Arichi, Tomoki, Rueckert, Daniel, Hajnal, Joseph V., Edwards, A. David, Smith, Stephen M., Duff, Eugene, and Andersson, Jesper

Published
2020
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25. High resolution and contrast 7 tesla MR brain imaging of the neonate

Author

Bridgen, Philippa, primary, Tomi-Tricot, Raphael, additional, Uus, Alena, additional, Cromb, Daniel, additional, Quirke, Megan, additional, Almalbis, Jennifer, additional, Bonse, Beya, additional, De la Fuente Botella, Miguel, additional, Maggioni, Alessandra, additional, Cio, Pierluigi Di, additional, Cawley, Paul, additional, Casella, Chiara, additional, Dokumaci, Ayse Sila, additional, Thomson, Alice R., additional, Willers Moore, Jucha, additional, Bridglal, Devi, additional, Saravia, Joao, additional, Finck, Thomas, additional, Price, Anthony N., additional, Pickles, Elisabeth, additional, Cordero-Grande, Lucilio, additional, Egloff, Alexia, additional, O’Muircheartaigh, Jonathan, additional, Counsell, Serena J., additional, Giles, Sharon L., additional, Deprez, Maria, additional, De Vita, Enrico, additional, Rutherford, Mary A., additional, Edwards, A. David, additional, Hajnal, Joseph V., additional, Malik, Shaihan J., additional, and Arichi, Tomoki, additional

Published
2024
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26. Bayesian Deep Learning for Accelerated MR Image Reconstruction

Author

Schlemper, Jo, Castro, Daniel C., Bai, Wenjia, Qin, Chen, Oktay, Ozan, Duan, Jinming, Price, Anthony N., Hajnal, Jo, Rueckert, Daniel, Hutchison, David, Series Editor, Kanade, Takeo, Series Editor, Kittler, Josef, Series Editor, Kleinberg, Jon M., Series Editor, Mattern, Friedemann, Series Editor, Mitchell, John C., Series Editor, Naor, Moni, Series Editor, Pandu Rangan, C., Series Editor, Steffen, Bernhard, Series Editor, Terzopoulos, Demetri, Series Editor, Tygar, Doug, Series Editor, Weikum, Gerhard, Series Editor, Knoll, Florian, editor, Maier, Andreas, editor, and Rueckert, Daniel, editor

Published
2018
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29. Automated processing pipeline for neonatal diffusion MRI in the developing Human Connectome Project

Author

Bastiani, Matteo, Andersson, Jesper L.R., Cordero-Grande, Lucilio, Murgasova, Maria, Hutter, Jana, Price, Anthony N., Makropoulos, Antonios, Fitzgibbon, Sean P., Hughes, Emer, Rueckert, Daniel, Victor, Suresh, Rutherford, Mary, Edwards, A. David, Smith, Stephen M., Tournier, Jacques-Donald, Hajnal, Joseph V., Jbabdi, Saad, and Sotiropoulos, Stamatios N.

Published
2019
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30. Exploration of the potential of high resolution and contrast 7 Tesla MR brain imaging in neonates

Author

Bridgen, Philippa, primary, Tomi-Tricot, Raphael, additional, Uus, Alena, additional, Cromb, Daniel, additional, Quirke, Megan, additional, Almalbis, Jennifer, additional, Bonse, Beya, additional, De La Fuente Botella, Miguel, additional, Maggioni, Alessandra, additional, Di Cio, Pierluigi, additional, Cawley, Paul, additional, Casella, Chiara, additional, Dokumaci, Ayse Sila, additional, Thomson, Alice R, additional, Willers Moore, Jucha, additional, Bridglal, Devi, additional, Saravia, Joao, additional, Finck, Thomas, additional, Price, Anthony N, additional, Pickles, Elisabeth, additional, Cordero-Grande, Lucilio, additional, Egloff, Alexia, additional, O'Muircheartaigh, Jonathan, additional, Counsell, Serena J, additional, Giles, Sharon L, additional, Deprez, Maria, additional, de Vita, Enrico, additional, Rutherford, Mary A, additional, Edwards, A David, additional, Hajnal, Joseph V, additional, Malik, Shaihan J, additional, and Arichi, Tomoki, additional

Published
2023
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31. Acquiring and Predicting Multidimensional Diffusion (MUDI) Data: An Open Challenge

Author

Pizzolato, Marco, primary, Palombo, Marco, additional, Bonet-Carne, Elisenda, additional, Tax, Chantal M. W., additional, Grussu, Francesco, additional, Ianus, Andrada, additional, Bogusz, Fabian, additional, Pieciak, Tomasz, additional, Ning, Lipeng, additional, Larochelle, Hugo, additional, Descoteaux, Maxime, additional, Chamberland, Maxime, additional, Blumberg, Stefano B., additional, Mertzanidou, Thomy, additional, Alexander, Daniel C., additional, Afzali, Maryam, additional, Aja-Fernández, Santiago, additional, Jones, Derek K., additional, Westin, Carl-Fredrik, additional, Rathi, Yogesh, additional, Baete, Steven H., additional, Cordero-Grande, Lucilio, additional, Ladner, Thilo, additional, Slator, Paddy J., additional, Hajnal, Joseph V, additional, Thiran, Jean-Philippe, additional, Price, Anthony N., additional, Sepehrband, Farshid, additional, Zhang, Fan, additional, and Hutter, Jana, additional

Published
2020
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32. Construction of a neonatal cortical surface atlas using Multimodal Surface Matching in the Developing Human Connectome Project

Author

Bozek, Jelena, Makropoulos, Antonios, Schuh, Andreas, Fitzgibbon, Sean, Wright, Robert, Glasser, Matthew F., Coalson, Timothy S., O'Muircheartaigh, Jonathan, Hutter, Jana, Price, Anthony N., Cordero-Grande, Lucilio, Teixeira, Rui Pedro A.G., Hughes, Emer, Tusor, Nora, Baruteau, Kelly Pegoretti, Rutherford, Mary A., Edwards, A. David, Hajnal, Joseph V., Smith, Stephen M., Rueckert, Daniel, Jenkinson, Mark, and Robinson, Emma C.

Published
2018
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34. The developing human connectome project: A minimal processing pipeline for neonatal cortical surface reconstruction

Author

Makropoulos, Antonios, Robinson, Emma C., Schuh, Andreas, Wright, Robert, Fitzgibbon, Sean, Bozek, Jelena, Counsell, Serena J., Steinweg, Johannes, Vecchiato, Katy, Passerat-Palmbach, Jonathan, Lenz, Gregor, Mortari, Filippo, Tenev, Tencho, Duff, Eugene P., Bastiani, Matteo, Cordero-Grande, Lucilio, Hughes, Emer, Tusor, Nora, Tournier, Jacques-Donald, Hutter, Jana, Price, Anthony N., Teixeira, Rui Pedro A.G., Murgasova, Maria, Victor, Suresh, Kelly, Christopher, Rutherford, Mary A., Smith, Stephen M., Edwards, A. David, Hajnal, Joseph V., Jenkinson, Mark, and Rueckert, Daniel

Published
2018
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37. Fetal whole heart blood flow imaging using 4D cine MRI

Author

Roberts, Thomas A., van Amerom, Joshua F. P., Uus, Alena, Lloyd, David F. A., van Poppel, Milou P. M., Price, Anthony N., Tournier, Jacques-Donald, Mohanadass, Chloe A., Jackson, Laurence H., Malik, Shaihan J., Pushparajah, Kuberan, Rutherford, Mary A., Razavi, Reza, Deprez, Maria, and Hajnal, Joseph V.

Published
2020
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39. BOUNTI: Brain vOlumetry and aUtomated parcellatioN for 3D feTal MRI

Author

Uus, Alena U., primary, Kyriakopoulou, Vanessa, additional, Makropoulos, Antonios, additional, Fukami-Gartner, Abi, additional, Cromb, Daniel, additional, Davidson, Alice, additional, Cordero-Grande, Lucilio, additional, Price, Anthony N., additional, Grigorescu, Irina, additional, Williams, Logan Z. J., additional, Robinson, Emma C., additional, Lloyd, David, additional, Pushparajah, Kuberan, additional, Story, Lisa, additional, Hutter, Jana, additional, Counsell, Serena J., additional, Edwards, A. David, additional, Rutherford, Mary A., additional, Hajnal, Joseph V., additional, and Deprez, Maria, additional

Published
2023
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42. Contributors

Author

Azhibekov, Timur, primary, Blank, Douglas, additional, Breatnach, Colm Riobard, additional, Cox, David J., additional, Boode, Willem-Pieter de, additional, de Waal, Koert, additional, Dempsey, Eugene, additional, Diab, Karim Assaad, additional, Dix, Laura, additional, du Plessis, Adré J., additional, Dyson, R.M., additional, El-Khuffash, Afif Faisal, additional, Eriksen, Beate Horsberg, additional, Evans, Nicholas, additional, Fairchild, Karen D., additional, Fernandez, Erika F., additional, Fugelseth, Drude, additional, Greisen, Gorm, additional, Groves, Alan M., additional, Gupta, Samir, additional, Hijazi, Ziyad M., additional, Hooper, Stuart B., additional, Jain, Amish, additional, Katheria, Anup C., additional, Kluckow, Martin, additional, Lakshminrusimha, Satyan, additional, Lemmers, Petra, additional, Mathew, Bobby, additional, McNamara, Patrick Joseph, additional, Mulkey, Sarah B., additional, Naulaers, Gunnar, additional, Nestaas, Eirik, additional, Nijres, Bassel Mohammad, additional, Noori, Shahab, additional, Osypka, Markus, additional, Phad, Nilkant, additional, Price, Anthony N., additional, Pruetz, Jay D., additional, Rath, Chandra, additional, Seri, Istvan, additional, Shah, Prakesh S., additional, Singh, Yogen, additional, Soleymani, Sadaf, additional, Stark, M.J., additional, Sullivan, Brynne A., additional, Tesoriero, Linda, additional, Ting, Joseph, additional, van Bel, Frank, additional, Victor, Suresh, additional, Votava-Smith, Jodie K., additional, Weindling, Michael, additional, Weisz, Dany, additional, Wright, Ian M.R., additional, and Wu, Tai-Wei, additional

Published
2019
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44. Fast Reconstruction of Accelerated Dynamic MRI Using Manifold Kernel Regression

Author

Bhatia, Kanwal K., Caballero, Jose, Price, Anthony N., Sun, Ying, Hajnal, Jo V., Rueckert, Daniel, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Navab, Nassir, editor, Hornegger, Joachim, editor, Wells, William M., editor, and Frangi, Alejandro F., editor

Published
2015
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46. Characterisation of placental, fetal brain and maternal cardiac structure and function in pre-eclampsia using MRI

Author

Hall, Megan, primary, de Marvao, Antonio, additional, Schweitzer, Ronny, additional, Cromb, Daniel, additional, Colford, Kathleen, additional, Jandu, Priya, additional, O'Regan, Declan P, additional, Ho, Alison Elizabeth Puiyun, additional, Price, Anthony N, additional, Chappell, Lucy C., additional, Rutherford, Mary A., additional, Story, Lisa, additional, and Hutter, Jana, additional

Published
2023
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48. Spatiotemporal tissue maturation of thalamocortical pathways in the human fetal brain

Author

Wilson, Sian, primary, Pietsch, Maximilian, additional, Cordero-Grande, Lucilio, additional, Christiaens, Daan, additional, Uus, Alena, additional, Karolis, Vyacheslav R, additional, Kyriakopoulou, Vanessa, additional, Colford, Kathleen, additional, Price, Anthony N, additional, Hutter, Jana, additional, Rutherford, Mary A, additional, Hughes, Emer J, additional, Counsell, Serena J, additional, Tournier, Jacques-Donald, additional, Hajnal, Joseph V, additional, Edwards, A David, additional, O'Muicheartaigh, Jonathan, additional, and Arichi, Tomoki, additional

Published
2023
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49. Author response: Spatiotemporal tissue maturation of thalamocortical pathways in the human fetal brain

Author

Wilson, Siân, primary, Pietsch, Maximilian, additional, Cordero-Grande, Lucilio, additional, Christiaens, Daan, additional, Uus, Alena, additional, Karolis, Vyacheslav R, additional, Kyriakopoulou, Vanessa, additional, Colford, Kathleen, additional, Price, Anthony N, additional, Hutter, Jana, additional, Rutherford, Mary A, additional, Hughes, Emer J, additional, Counsell, Serena J, additional, Tournier, Jacques-Donald, additional, Hajnal, Joseph V, additional, Edwards, A David, additional, O'Muicheartaigh, Jonathan, additional, and Arichi, Tomoki, additional

Published
2023
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50. Application-Driven MRI: Joint Reconstruction and Segmentation from Undersampled MRI Data

Author

Caballero, Jose, Bai, Wenjia, Price, Anthony N., Rueckert, Daniel, Hajnal, Joseph V., Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Kobsa, Alfred, Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Golland, Polina, editor, Hata, Nobuhiko, editor, Barillot, Christian, editor, Hornegger, Joachim, editor, and Howe, Robert, editor

Published
2014
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