Your search keyword '"Colford, Kathleen"' showing total 23 results

1. Fully automated planning for anatomical fetal brain MRI on 0.55T

Author

Silva, Sara Neves, McElroy, Sarah, Verdera, Jordina Aviles, Colford, Kathleen, Clair, Kamilah St, Tomi-Tricot, Raphael, Uus, Alena, Ozenne, Valery, Hall, Megan, Story, Lisa, Pushparajah, Kuberan, Rutherford, Mary A, Hajnal, Joseph V, and Hutter, Jana

Subjects

Physics - Medical Physics

Abstract

Purpose: Widening the availability of fetal MRI with fully automatic real-time planning of radiological brain planes on 0.55T MRI. Methods: Deep learning-based detection of key brain landmarks on a whole-uterus EPI scan enables the subsequent fully automatic planning of the radiological single-shot Turbo Spin Echo acquisitions. The landmark detection pipeline was trained on over 120 datasets from varying field strength, echo times and resolutions and quantitatively evaluated. The entire automatic planning solution was tested prospectively in nine fetal subjects between 20 and 37 weeks. Comprehensive evaluation of all steps, the distance between manual and automatic landmarks, the planning quality and the resulting image quality was conducted. Results: Prospective automatic planning was performed in real-time without latency in all subjects. The landmark detection accuracy was 4.21+-2.56 mm for the fetal eyes and 6.47+-3.23 for the cerebellum, planning quality was 2.44/3 (compared to 2.56/3 for manual planning) and diagnostic image quality was 2.14 compared to 2.07 for manual planning. Conclusions: Real-time automatic planning of all three key fetal brain planes was successfully achieved and will pave the way towards simplifying the acquisition of fetal MRI thereby widening the availability of this modality in non-specialist centres., Comment: 17 pages, 8 figures, 1 table, MRM

Published

2024

2. Quantitative T2 Relaxometry in Fetal Brain: Validation Using Modified FaBiaN Fetal Brain MRI Simulator

Author

Bhattacharya, Suryava, Price, Anthony, Uus, Alena, Sousa, Helena S., Marenzana, Massimo, Colford, Kathleen, Murkin, Peter, Lee, Maggie, Cordero-Grande, Lucilio, Teixeira, Rui Pedro Azeredo Gomes, Malik, Shaihan J., Deprez, Maria, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Link-Sourani, Daphna, editor, Abaci Turk, Esra, editor, Macgowan, Christopher, editor, Hutter, Jana, editor, Melbourne, Andrew, editor, and Licandro, Roxane, editor

Published

2023

3. A Fast Anatomical and Quantitative MRI Fetal Exam at Low Field

Author

Aviles, Jordina, Colford, Kathleen, Hall, Megan, Marenzana, Massimo, Uus, Alena, Giles, Sharon, Bridgen, Philippa, Rutherford, Mary A., Malik, Shaihan J., Hajnal, Joseph V., Tomi-Tricot, Raphael, Hutter, Jana, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Licandro, Roxane, editor, Melbourne, Andrew, editor, Abaci Turk, Esra, editor, Macgowan, Christopher, editor, and Hutter, Jana, editor

Published

2022

4. Cardiac and placental imaging (CARP) in pregnancy to assess aetiology of preeclampsia

Author

Colford, Kathleen, Price, Anthony N., Sigurdardottir, Julie, Fotaki, Anastasia, Steinweg, Johannes, Story, Lisa, Ho, Alison, Chappell, Lucy C., Hajnal, Joseph V., Rutherford, Mary, Pushparajah, Kuberan, Lamata, Pablo, and Hutter, Jana

Published

2022

5. Scanner-based real-time 3D brain+body slice-to-volume reconstruction for T2-weighted 0.55T low field fetal MRI

Author

Uus, Alena U., primary, Neves Silva, Sara, additional, Aviles Verdera, Jordina, additional, Payette, Kelly, additional, Hall, Megan, additional, Colford, Kathleen, additional, Luis, Aysha, additional, Sousa, Helena S., additional, Ning, Zihan, additional, Roberts, Thomas, additional, McElroy, Sarah, additional, Deprez, Maria, additional, Hajnal, Joseph, additional, Rutherford, Mary A., additional, Story, Lisa, additional, and Hutter, Jana, additional

Published

2024

6. Fully automated planning for anatomical fetal brain MRI on 0.55T

Author

Neves Silva, Sara, primary, McElroy, Sarah, additional, Aviles Verdera, Jordina, additional, Colford, Kathleen, additional, St Clair, Kamilah, additional, Tomi‐Tricot, Raphael, additional, Uus, Alena, additional, Ozenne, Valéry, additional, Hall, Megan, additional, Story, Lisa, additional, Pushparajah, Kuberan, additional, Rutherford, Mary A., additional, Hajnal, Joseph V., additional, and Hutter, Jana, additional

Published

2024

7. 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

8. Preeclampsia Associated Differences in the Placenta, Fetal Brain, and Maternal Heart Can Be Demonstrated Antenatally: An Observational Cohort Study 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, additional, Price, Anthony, additional, Chappell, Lucy C., additional, Rutherford, Mary A., additional, Story, Lisa, additional, Lamata, Pablo, additional, and Hutter, Jana, additional

Published

2024

9. T2* placental MRI in pregnancies complicated with fetal congenital heart disease

Author

Steinweg, Johannes K., Hui, Grace Tin Yan, Pietsch, Maximilian, Ho, Alison, van Poppel, Milou PM., Lloyd, David, Colford, Kathleen, Simpson, John M., Razavi, Reza, Pushparajah, Kuberan, Rutherford, Mary, and Hutter, Jana

Published

2021

10. Brain volumetry in fetuses that deliver very preterm: An MRI pilot study

Author

Story, Lisa, Davidson, Alice, Patkee, Prachi, Fleiss, Bobbi, Kyriakopoulou, Vanessa, Colford, Kathleen, Sankaran, Srividhya, Seed, Paul, Jones, Alice, Hutter, Jana, Shennan, Andrew, and Rutherford, Mary

Published

2021

11. Widespread, depth‐dependent cortical microstructure alterations in pediatric focal epilepsy

Author

Casella, Chiara, primary, Vecchiato, Katy, additional, Cromb, Daniel, additional, Guo, Yourong, additional, Winkler, Anderson M., additional, Hughes, Emer, additional, Dillon, Louise, additional, Green, Elaine, additional, Colford, Kathleen, additional, Egloff, Alexia, additional, Siddiqui, Ata, additional, Price, Anthony, additional, Grande, Lucilio Cordero, additional, Wood, Tobias C., additional, Malik, Shaihan, additional, Teixeira, Rui Pedro A. G., additional, Carmichael, David W., additional, and O'Muircheartaigh, Jonathan, additional

Published

2023

12. Widespread, depth‐dependent cortical microstructure alterations in pediatric focal epilepsy.

Author

Casella, Chiara, Vecchiato, Katy, Cromb, Daniel, Guo, Yourong, Winkler, Anderson M., Hughes, Emer, Dillon, Louise, Green, Elaine, Colford, Kathleen, Egloff, Alexia, Siddiqui, Ata, Price, Anthony, Grande, Lucilio Cordero, Wood, Tobias C., Malik, Shaihan, Teixeira, Rui Pedro A. G., Carmichael, David W., and O'Muircheartaigh, Jonathan

Subjects

PARTIAL epilepsy, FOCAL cortical dysplasia, MAGNETIC resonance imaging, MICROSTRUCTURE

Abstract

Objective: Tissue abnormalities in focal epilepsy may extend beyond the presumed focus. The underlying pathophysiology of these broader changes is unclear, and it is not known whether they result from ongoing disease processes or treatment‐related side effects, or whether they emerge earlier. Few studies have focused on the period of onset for most focal epilepsies, childhood. Fewer still have utilized quantitative magnetic resonance imaging (MRI), which may provide a more sensitive and interpretable measure of tissue microstructural change. Here, we aimed to determine common spatial modes of changes in cortical architecture in children with heterogeneous drug‐resistant focal epilepsy and, secondarily, whether changes were related to disease severity. Methods: To assess cortical microstructure, quantitative T1 and T2 relaxometry (qT1 and qT2) was measured in 43 children with drug‐resistant focal epilepsy (age range = 4–18 years) and 46 typically developing children (age range = 2–18 years). We assessed depth‐dependent qT1 and qT2 values across the neocortex, as well as their gradient of change across cortical depths. We also determined whether global changes seen in group analyses were driven by focal pathologies in individual patients. Finally, as a proof‐of‐concept, we trained a classifier using qT1 and qT2 gradient maps from patients with radiologically defined abnormalities (MRI positive) and healthy controls, and tested whether this could classify patients without reported radiological abnormalities (MRI negative). Results: We uncovered depth‐dependent qT1 and qT2 increases in widespread cortical areas in patients, likely representing microstructural alterations in myelin or gliosis. Changes did not correlate with disease severity measures, suggesting they may represent antecedent neurobiological alterations. Using a classifier trained with MRI‐positive patients and controls, sensitivity was 71.4% at 89.4% specificity on held‐out MRI‐negative patients. Significance: These findings suggest the presence of a potential imaging endophenotype of focal epilepsy, detectable irrespective of radiologically identified abnormalities. [ABSTRACT FROM AUTHOR]

Published

2024

13. 618 Widespread, depth-dependent microstructural alterations in the cortex of children with drug-resistant focal epilepsy: a quantitative T1 and T2 mapping study

Author

Casella, Chiara, primary, Vecchiato, Katy, additional, Cromb, Daniel, additional, Guo, Yourong, additional, Winkler, Anderson M, additional, Hughes, Emer, additional, Dillon, Louise, additional, Green, Elaine, additional, Colford, Kathleen, additional, Egloff, Alexia, additional, Siddiqui, Ata, additional, Price, Anthony, additional, Grande, Lucilio Cordero, additional, Wood, Tobias C, additional, Malik, Shaihan, additional, Texeira, Rui Pedro AG, additional, Carmichael, David W, additional, and O’Muircheartaigh, Jonathan, additional

Published

2023

14. 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

15. 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

16. 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

17. Widespread, depth-dependent microstructural damage in the cortex of children with drug resistant focal epilepsy: A quantitative T1 and T2 mapping study

Author

Casella, Chiara, primary, Vecchiato, Katy, additional, Cromb, Daniel, additional, Guo, Yourong, additional, Winkler, Anderson M., additional, Hughes, Emer, additional, Dillon, Louise, additional, Green, Elaine, additional, Colford, Kathleen, additional, Egloff, Alexia, additional, Siddiqui, Ata, additional, Price, Anthony, additional, Grande, Lucilio Cordero, additional, Wood, Tobias C., additional, Malik, Shaihan, additional, A.G. Teixeira, Rui Pedro, additional, Carmichael, David W., additional, and O’Muircheartaigh, Jonathan, additional

Published

2022

18. 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, 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’Muircheartaigh, Jonathan, additional, and Arichi, Tomoki, additional

Published

2022

19. The Developing Human Connectome Project Neonatal Data Release

Author

Edwards, A. David, primary, Rueckert, Daniel, additional, Smith, Stephen M., additional, Abo Seada, Samy, additional, Alansary, Amir, additional, Almalbis, Jennifer, additional, Allsop, Joanna, additional, Andersson, Jesper, additional, Arichi, Tomoki, additional, Arulkumaran, Sophie, additional, Bastiani, Matteo, additional, Batalle, Dafnis, additional, Baxter, Luke, additional, Bozek, Jelena, additional, Braithwaite, Eleanor, additional, Brandon, Jacqueline, additional, Carney, Olivia, additional, Chew, Andrew, additional, Christiaens, Daan, additional, Chung, Raymond, additional, Colford, Kathleen, additional, Cordero-Grande, Lucilio, additional, Counsell, Serena J., additional, Cullen, Harriet, additional, Cupitt, John, additional, Curtis, Charles, additional, Davidson, Alice, additional, Deprez, Maria, additional, Dillon, Louise, additional, Dimitrakopoulou, Konstantina, additional, Dimitrova, Ralica, additional, Duff, Eugene, additional, Falconer, Shona, additional, Farahibozorg, Seyedeh-Rezvan, additional, Fitzgibbon, Sean P., additional, Gao, Jianliang, additional, Gaspar, Andreia, additional, Harper, Nicholas, additional, Harrison, Sam J., additional, Hughes, Emer J., additional, Hutter, Jana, additional, Jenkinson, Mark, additional, Jbabdi, Saad, additional, Jones, Emily, additional, Karolis, Vyacheslav, additional, Kyriakopoulou, Vanessa, additional, Lenz, Gregor, additional, Makropoulos, Antonios, additional, Malik, Shaihan, additional, Mason, Luke, additional, Mortari, Filippo, additional, Nosarti, Chiara, additional, Nunes, Rita G., additional, O’Keeffe, Camilla, additional, O’Muircheartaigh, Jonathan, additional, Patel, Hamel, additional, Passerat-Palmbach, Jonathan, additional, Pietsch, Maximillian, additional, Price, Anthony N., additional, Robinson, Emma C., additional, Rutherford, Mary A., additional, Schuh, Andreas, additional, Sotiropoulos, Stamatios, additional, Steinweg, Johannes, additional, Teixeira, Rui Pedro Azeredo Gomes, additional, Tenev, Tencho, additional, Tournier, Jacques-Donald, additional, Tusor, Nora, additional, Uus, Alena, additional, Vecchiato, Katy, additional, Williams, Logan Z. J., additional, Wright, Robert, additional, Wurie, Julia, additional, and Hajnal, Joseph V., additional

Published

2022

20. Evaluation of DISORDER: retrospective image motion correction for volumetric brain MRI in a pediatric setting

Author

Vecchiato, Katy, primary, Egloff, Alexia, additional, Carney, Olivia, additional, Siddiqui, Ata, additional, Hughes, Emer, additional, Dillon, Louise, additional, Colford, Kathleen, additional, Green, Elaine, additional, Texeria, Rui Pedro A.G., additional, Price, Anthony N., additional, Ferrazzi, Giulio, additional, Hajnal, Joseph V., additional, Carmichael, David W, additional, Cordero-Grande, Lucilio, additional, and O’Muircheartaigh, Jonathan, additional

Published

2020

21. A comparison of child and adult perceptions and experiences of having an MRI at 7T

Author

Bridgen, Pip, primary, Colford, Kathleen, additional, Wilkinson, Thomas, additional, Sedlacik, Jan, additional, Vecchiato, Katy, additional, Casella, Chiara, additional, Tomi-Tricott, Raphael, additional, Carmichael, David, additional, O’Muircheartaigh, Jonathan, additional, Malik, Shaihan, additional, Giles, Sharon, additional, Hajnal, Joseph, additional, and Hughes, Emer, additional

22. Automated Craniofacial Biometry with 3D T2w Fetal MRI.

Author

Matthew J, Uus A, Collado AE, Luis A, Arulkumaran S, Fukami-Gartner A, Kyriakopoulou V, Cromb D, Wright R, Colford K, Deprez M, Hutter J, O'Muircheartaigh J, Malamateniou C, Razavi R, Story L, Hajnal J, and Rutherford MA

Abstract

Objectives: Evaluating craniofacial phenotype-genotype correlations prenatally is increasingly important; however, it is subjective and challenging with 3D ultrasound. We developed an automated landmark propagation pipeline using 3D motion-corrected, slice-to-volume reconstructed (SVR) fetal MRI for craniofacial measurements., Methods: A literature review and expert consensus identified 31 craniofacial biometrics for fetal MRI. An MRI atlas with defined anatomical landmarks served as a template for subject registration, auto-labelling, and biometric calculation. We assessed 108 healthy controls and 24 fetuses with Down syndrome (T21) in the third trimester (29-36 weeks gestational age, GA) to identify meaningful biometrics in T21. Reliability and reproducibility were evaluated in 10 random datasets by four observers., Results: Automated labels were produced for all 132 subjects with a 0.03% placement error rate. Seven measurements, including anterior base of skull length and maxillary length, showed significant differences with large effect sizes between T21 and control groups (ANOVA, p<0.001). Manual measurements took 25-35 minutes per case, while automated extraction took approximately 5 minutes. Bland-Altman plots showed agreement within manual observer ranges except for mandibular width, which had higher variability. Extended GA growth charts (19-39 weeks), based on 280 control fetuses, were produced for future research., Conclusion: This is the first automated atlas-based protocol using 3D SVR MRI for fetal craniofacial biometrics, accurately revealing morphological craniofacial differences in a T21 cohort. Future work should focus on improving measurement reliability, larger clinical cohorts, and technical advancements, to enhance prenatal care and phenotypic characterisation., Competing Interests: Additional information Competing interests The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2024

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

Author

Hall M, de Marvao A, Schweitzer R, Cromb D, Colford K, Jandu P, O'Regan DP, Ho A, Price A, Chappell LC, Rutherford MA, Story L, Lamata P, and Hutter J

Abstract

Background: Pre-eclampsia is a multiorgan disease of pregnancy that has short- and long-term implications for the woman and fetus, whose immediate impact is poorly understood. We present a novel multi-system approach to MRI investigation of pre-eclampsia, with acquisition of maternal cardiac, placental, and fetal brain anatomical and functional imaging., Methods: A prospective study was carried out recruiting pregnant women with pre-eclampsia, chronic hypertension, or no medical complications, and a non-pregnant female cohort. All women underwent a cardiac MRI, and pregnant women underwent a fetal-placental MRI. Cardiac analysis for structural, morphological and flow data was undertaken; placenta and fetal brain volumetric and T2* data were obtained. All results were corrected for gestational age., Results: Seventy-eight MRIs were obtained during pregnancy. Pregnancies affected by pre-eclampsia demonstrated lower placental and fetal brain T2*. Within the pre-eclampsia group, three placental T2* results were within the normal range, these were the only cases with normal placental histopathology. Similarly, three fetal brain T2* results were within the normal range; these cases had no evidence of cerebral redistribution on fetal Dopplers. Cardiac MRI analysis demonstrated higher left ventricular mass in pre-eclampsia with 3D modelling revealing additional specific characteristics of eccentricity and outflow track remodelling., Conclusions: We present the first holistic assessment of the immediate implications of pre-eclampsia on the placenta, maternal heart, and fetal brain. As well as having potential clinical implications for the risk-stratification and management of women with pre-eclampsia, this gives an insight into disease mechanism., Competing Interests: Disclosures The authors declare no conflicts of interest.

Published

2023