Search

Your search keyword '"Chiribiri Amedeo"' showing total 1,364 results
Start Over Author "Chiribiri Amedeo"
1,364 results on '"Chiribiri Amedeo"'

1. Improved 3D Whole Heart Geometry from Sparse CMR Slices

Author

Xu, Yiyang, Xu, Hao, Sinclair, Matthew, Puyol-Antón, Esther, Niederer, Steven A, Chiribiri, Amedeo, Williams, Steven E, Williams, Michelle C, and Young, Alistair A

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Cardiac magnetic resonance (CMR) imaging and computed tomography (CT) are two common non-invasive imaging methods for assessing patients with cardiovascular disease. CMR typically acquires multiple sparse 2D slices, with unavoidable respiratory motion artefacts between slices, whereas CT acquires isotropic dense data but uses ionising radiation. In this study, we explore the combination of Slice Shifting Algorithm (SSA), Spatial Transformer Network (STN), and Label Transformer Network (LTN) to: 1) correct respiratory motion between segmented slices, and 2) transform sparse segmentation data into dense segmentation. All combinations were validated using synthetic motion-corrupted CMR slice segmentation generated from CT in 1699 cases, where the dense CT serves as the ground truth. In 199 testing cases, SSA-LTN achieved the best results for Dice score and Huasdorff distance (94.0% and 4.7 mm respectively, average over 5 labels) but gave topological errors in 8 cases. STN was effective as a plug-in tool for correcting all topological errors with minimal impact on overall performance (93.5% and 5.0 mm respectively). SSA also proves to be a valuable plug-in tool, enhancing performance over both STN-based and LTN-based models. The code for these different combinations is available at https://github.com/XESchong/STACOM2024., Comment: 13 pages, STACOM2024

Published
2024

3. High-Resolution Maps of Left Atrial Displacements and Strains Estimated with 3D Cine MRI using Online Learning Neural Networks

Author

Galazis, Christoforos, Shepperd, Samuel, Brouwer, Emma, Queirós, Sandro, Alskaf, Ebraham, Anjari, Mustafa, Chiribiri, Amedeo, Lee, Jack, Bharath, Anil A., and Varela, Marta

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

The functional analysis of the left atrium (LA) is important for evaluating cardiac health and understanding diseases like atrial fibrillation. Cine MRI is ideally placed for the detailed 3D characterization of LA motion and deformation but is lacking appropriate acquisition and analysis tools. Here, we propose tools for the Analysis for Left Atrial Displacements and DeformatIons using online learning neural Networks (Aladdin) and present a technical feasibility study on how Aladdin can characterize 3D LA function globally and regionally. Aladdin includes an online segmentation and image registration network, and a strain calculation pipeline tailored to the LA. We create maps of LA Displacement Vector Field (DVF) magnitude and LA principal strain values from images of 10 healthy volunteers and 8 patients with cardiovascular disease (CVD), of which 2 had large left ventricular ejection fraction (LVEF) impairment. We additionally create an atlas of these biomarkers using the data from the healthy volunteers. Results showed that Aladdin can accurately track the LA wall across the cardiac cycle and characterize its motion and deformation. Global LA function markers assessed with Aladdin agree well with estimates from 2D Cine MRI. A more marked active contraction phase was observed in the healthy cohort, while the CVD LVEF group showed overall reduced LA function. Aladdin is uniquely able to identify LA regions with abnormal deformation metrics that may indicate focal pathology. We expect Aladdin to have important clinical applications as it can non-invasively characterize atrial pathophysiology. All source code and data are available at: https://github.com/cgalaz01/aladdin_cmr_la.

Published
2023

6. Physics-informed self-supervised deep learning reconstruction for accelerated first-pass perfusion cardiac MRI

Author

Martín-González, Elena, Alskaf, Ebraham, Chiribiri, Amedeo, Casaseca-de-la-Higuera, Pablo, Alberola-López, Carlos, Nunes, Rita G, and Correia, Teresa M

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Machine Learning, Physics - Medical Physics
Abstract

First-pass perfusion cardiac magnetic resonance (FPP-CMR) is becoming an essential non-invasive imaging method for detecting deficits of myocardial blood flow, allowing the assessment of coronary heart disease. Nevertheless, acquisitions suffer from relatively low spatial resolution and limited heart coverage. Compressed sensing (CS) methods have been proposed to accelerate FPP-CMR and achieve higher spatial resolution. However, the long reconstruction times have limited the widespread clinical use of CS in FPP-CMR. Deep learning techniques based on supervised learning have emerged as alternatives for speeding up reconstructions. However, these approaches require fully sampled data for training, which is not possible to obtain, particularly high-resolution FPP-CMR images. Here, we propose a physics-informed self-supervised deep learning FPP-CMR reconstruction approach for accelerating FPP-CMR scans and hence facilitate high spatial resolution imaging. The proposed method provides high-quality FPP-CMR images from 10x undersampled data without using fully sampled reference data., Comment: Workshop on Machine Learning for Medical Image Reconstruction, MLMIR 2021, held in Conjunction with MICCAI 2021

Published
2023
Full Text
View/download PDF

8. Diagnostic utility of electrocardiogram for screening of cardiac injury on cardiac magnetic resonance in post-hospitalised COVID-19 patients: a prospective multicenter study

Author

Samat, Azlan Helmy Abd, Cassar, Mark P., Akhtar, Abid M., McCracken, Celeste, Ashkir, Zakariye M., Mills, Rebecca, Moss, Alastair J., Finnigan, Lucy E.M., Lewandowski, Adam J., Mahmod, Masliza, Ogbole, Godwin I., Tunnicliffe, Elizabeth M., Lukaschuk, Elena, Piechnik, Stefan K., Ferreira, Vanessa M., Nikolaidou, Chrysovalantou, Rahman, Najib M., Ho, Ling-Pei, Harris, Victoria C., Singapuri, Amisha, Manisty, Charlotte, O'Regan, Declan P., Weir-McCall, Jonathan R., Steeds, Richard P., LLM, Krisnah Poinasamy, Cuthbertson, Dan J., Kemp, Graham J., Horsley, Alexander, Miller, Christopher A., O'Brien, Caitlin, Chiribiri, Amedeo, Francis, Susan T., Chalmers, James D., Plein, Sven, Poener, Ana-Maria, Wild, James M., Treibel, Thomas A., Marks, Michael, Toshner, Mark, Wain, Louise V., Evans, Rachael A., Brightling, Christopher E., Neubauer, Stefan, McCann, Gerry P., and Raman, Betty

Published
2024
Full Text
View/download PDF

9. Clinical Significance of Myocardial Injury in Patients Hospitalized for COVID-19: A Prospective, Multicenter, Cohort Study

Author

Greenwood, J.P., McCann, G.P., Berry, C., Dweck, M., Miller, C.M., Chiribiri, A., Prasad, S., Ferreira, V.M., Bucciarelli-Ducci, C., Dawson, D., Moon, James C., Artico, Jessica, Shiwani, Hunain, Davies, Rhodri, Dweck, Marc, Berry, Colin, Roditi, Giles, Young, Robin, McConnachie, Alex, Kelly, Bernard, Macfarlane, Peter W., Miller, Christopher A., Levelt, Eylem, Goreka, Miroslawa, Somers, Kathryn, Byrom-Goulthorp, Roo J., Anderson, Michelle, Britton, Laura, Richards, Fiona, Jones, Laura M., Arnold, Ranjit, Moss, Alastair, Fisher, Jude, Wormleighton, Joanne, Parke, Kelly, Wright, Rachel, Yeo, Jian, Dawson, Dana, Falconer, Judith, Harries, Valerie, Henderson, Paula, Singh, Trisha, Newby, David, Piechnik, Stefan, Popescu, Iulia, Lukaschuk, Elena, Zhang, Qiang, Shanmuganathan, Mayooran, Neubauer, Stefan, Raman, Betty, Channon, Keith, Krasopoulos, Catherine, Nunes, Claudia, Da Silva Rodrigues, Liliana, Nixon, Harriet, Panopoulou, Athanasia, Fletcher, Alison, Manley, Peter, Mangion, Kenneth, Morrow, Andrew, Sykes, Robert, Fallon, Kirsty, Brown, Ammani, Kelly, Laura, McGinley, Christopher, Briscoe, Michael, Woodward, Rosemary, Hopkins, Tracey, McLennan, Evonne, Tynan, Nicola, Dymock, Laura, Swoboda, Peter, Wright, Judith, Exley, Donna, Steeds, Richard, Hutton, Kady, MacDonald, Sonia, Treibel, Thomas, Shetye, Abhishek, Miller, Christopher M., Orsborne, Christopher, Woodville-Jones, William, Ferguson, Susan, Bratis, Konstantinos, Fairbairn, Timothy, Sionas, Michail, Widdows, Peris, Chew, Pei Gee, Marsden, Christian, Collins, Tom, George, Linsha, Kearney, Lisa, Flett, Andrew, Smith, Simon, Zhenge, Alice, Harvey, Jake, Inacio, Liliana, Hanam-Penfold, Tomas, Gruner, Lucy, Fontana, Marianna, Razvi, Yousuf S.K., Crause, Jacolene, Davies, Nina M., Brown, James T., Chaco, Liza, Patel, Rishi, Kotecha, Tushar, Knight, Dan S., Green, Thomas, Ripley, David, Thompson, Maria, Chiribiri, Amedeo, Akerele, Ugochi, Cifra, Elna, Alskaf, Ebraham, Crawley, Richard, Villa, Adriana, Bucciarelli-Ducci, Chiara, Nightingale, Angus K., Wright, Kim, Bonnick, Esther D., Hopkins, Emma, George, Jessy, Joseph, Linta, Cole, Graham, Vimalesvaran, Kavitha, Ali, Nadine, Carr, Caitlin R., Ross, Alexandra A.R., King, Clara, Prasad, Sanjay, Farzad, Zohreh, Salmi, Sara A., Kirby, Kevin, McDiarmid, Adam, Stevenson, Hannah J., Matsvimbo, Pamela S., Joji, Lency, Fearby, Margaret, Brown, Benjamin, Bunce, Nicholas, Jennings, Robert, Sookhoo, Vennessa, Joshi, Shatabdi, Kanagala, Prathap, Fullalove, Sandra, Toohey, Catherine, Fenlon, Kate, Bellenger, Nicholas, He, Jingzhou, Statton, Sarah, Pamphilon, Nicola, Steele, Anna, Ball, Claire, McGahey, Ann, Balma, Silvia, Wilkes, Lynsey, Lewis, Katy, Walter, Michelle, Ionescu, Adrian, Ninan, Tishi, Richards, Suzanne, Williams, Marie, Alfakih, Khaled, Pilgrim, Samia, Joy, George, Manisty, Charlotte H., Hussain, Ifza, Gorecka, Miroslawa, McCann, Gerry P., Alzahir, Mohammed, Ramirez, Sara, Lin, Andrew, Swoboda, Peter P., McDiarmid, Adam K., Manisty, Charlotte, Treibel, Thomas A., Piechnik, Stefan K., Davies, Rhodri H., Ferreira, Vanessa M., Dweck, Marc R., and Greenwood, John P.

Published
2024
Full Text
View/download PDF

10. Effect of PCI on Health Status in Ischemic Left Ventricular Dysfunction: Insights From REVIVED-BCIS2

Author

Perera, Divaka, Chiribiri, Amedeo, Carr-White, Gerry, Pavlidis, Antonis, Redwood, Simon, Clapp, Brian, Rinaldi, Aldo, Rahman, Haseeb, Briceno, Natalia, Arnold, Sophie, Raynsford, Amy, Wilson, Karen, Clack, Lucy, Petrie, Mark, McEntegart, Margaret, Watkins, Stuart, Shaukat, Aadil, Rocchiccioli, Paul, McAdam, Marion, McPherson, Elizabeth, Cowan, Louise, Wood, Marie, Weerackody, Roshan, Davies, Ceri, Smith, Elliot, Modi, Bhavik, Mathew, Bindu, Mitchelmore, Oliver, Adrego, Rita, Andiapen, Mervyn, O’Kane, Peter, Din, Jehangir, Kennard, Sarah, Orr, Sarah, Purnell, Cathie, Greenwood, John, Blaxill, Jonathan, Mozid, Abdul, Anderson, Michelle, Somers, Kathryn, Dixon, Lana, Walsh, Simon, Spence, Mark, Glover, Patricia, Brown, Caroline, Edwards, Richard, McDiarmid, Adam, Egred, Mohaned, Narytnyk, Alla, Wealleans, Vera, Amin-Youssef, George, Shah, Ajay, McDonagh, Theresa, Byrne, Jonathan, Pareek, Nilesh, Breeze, Jonathan, Antao, Catherine, De Silva, Kalpa, Strange, Julian, Johnson, Tom, Nightingale, Angus, Gallego, Laura, Medina, Cristina, Gershlick, Anthony, McCann, Gerald, Ladwiniec, Andrew, Squire, Iain, Davison, Joanna, Kenmuir-Hogg, Kris, Spratt, James, Cosgrove, Claudia, Williams, Rupert, Firoozi, Sam, Lim, Pitt, Bonato, Giovanna, Sookhoo, Vennessa, Conway, Dwayne, Brooksby, Paul, Wright, Judith, Exley, Donna, Cotton, James, Horton, Richard, Metherell, Stella, Smallwood, Andrew, Hogrefe, Kai, Cheng, Adrian, Beirnes, Charmaine, Sidgwick, Sian, Lockie, Tim, Patel, Niket, Rakhit, Roby, Davies, Nina, Smit, Angelique, Ahmed, Fozia, Hendry, Cara, Fath-Odoubadi, Farzin, Fraser, Douglas, Mamas, Mamas, Oommen, Anu, Charles, Thabitha, Behan, Miles, Japp, Alan, Rif, Belinda, Jenkins, Nicholas, McClure, Sam, Oates, Pauline, Martin, Karen, Abdelaal, Eltigani, Sarma, Jaydeep, Shastri, Sanjay, Riley, Jo, Giannopoulou, Sarra, Quinn, Sophie, Magapu, Pradeep, Stables, Rod, Wright, David, Barton, Janet, Clarkson, Nichola, Mahmoudi, Michael, Flett, Andrew, Curzen, Nick, Radmore, Judith, Gough, Sam, Ludman, Andrew, Kurdi, Hibba, Keenan, Samantha, Banerjee, Prithwish, Tapp, Luke, Edwards, Nigel, Gibson, Catherine, Kukreja, Neville, Lynch, Mary, Barratt, Claire, de Belder, Mark, Thambyrajah, Jeet, Swanson, Neil, Richardson, Cath, Atkinson, Bev, Viswanathan, Girish, Waugh, Darren, Routledge, Helen, Trevelyan, Jasper, Doughty, Angela, Pegge, Nick, Dhamrait, Sukhbir, Moore, Sally, Galasko, Gavin, Cassidy, Christopher, Waddington, Natalia, Edwards, Tim, Iqbal, Javed, Witherow, Fraser, Birch, Jenny, Munro, Melanie, Wells, Tim, Sinha, Manas, Frost, Linda, Lee, Kaeng, Beattie, James, Pitt, Mike, Chung, Alan, Ramcharitar, Steve, McCafferty, Laura, Martin, Thomas, Irving, John, Iskandar, Zaid, Hutcheon, Anita, Gunn, Julian, Al-Mohammad, Abdallah, Agyemang, Michael, Griffiths, Huw, Kalra, Paul, Howe, Serena, Gray, Tim, Sobolewska, Jolanta, Morby, Louise, Glover, Jason, Beynon, James, Knight, Janet, Das, Paul, Bellamy, Chris, Harman, Emily, Pye, Maurice, Megarry, Simon, McGill, Yvonne, Redfearn, Heidi, Ryan, Matthew, Taylor, Dylan, Dodd, Matthew, Spertus, John A., Kosiborod, Mikhail N., Docherty, Kieran F., Clayton, Tim, and Petrie, Mark C.

Published
2024
Full Text
View/download PDF

12. Quantitative assessment of magnetic resonance derived perfusion measurements using advanced techniques: comparison with microspheres in an explanted pig heart system

Author

Schuster Andreas, Zarinabad Niloufar, Ishida Masaki, Sinclair Matthew, van den Wijngaard Jeroen P, Morton Geraint, Hautvast Gilion, Bigalke Boris, van Horssen Pepijn, Smith Nic, Spaan Jos A, Siebes Maria, Chiribiri Amedeo, and Nagel Eike

Subjects
Diseases of the circulatory (Cardiovascular) system, RC666-701
Published
2013
Full Text
View/download PDF

20. Myocardial Blood Flow by Magnetic Resonance in Patients With Suspected Coronary Stenosis: Comparison to PET and Invasive Physiology

Author

Rasmussen, Laust Dupont, Murphy, Theodore, Milidonis, Xenios, Eftekhari, Ashkan, Karim, Salma Raghad, Westra, Jelmer, Dahl, Jonathan Nørtoft, Isaksen, Christin, Brix, Lau, Ejlersen, June Anita, Nyegaard, Mette, Johansen, Jane Kirk, Søndergaard, Hanne Maare, Mortensen, Jesper, Gormsen, Lars Christian, Christiansen, Evald Høj, Chiribiri, Amedeo, Petersen, Steffen E., Bøttcher, Morten, and Winther, Simon

Published
2024
Full Text
View/download PDF

25. Increased endocardial to epicardial flow ratio present at rest disappears during exercise stress perfusion CMR in normal volunteers - a potential mechanism for exercise induced subendocardial ischaemia

Author

Asrress Kaleab N, Williams Rupert, Lockie Tim, Biglands John D, Chiribiri Amedeo, Radjenovic Aleksandra, Jogiya Roy, De Silva Kalpa, Kozerke Sebastian, Chowienczyk Phil, Nagel Eike, Marber Michael, Redwood Simon, and Plein Sven

Subjects
Diseases of the circulatory (Cardiovascular) system, RC666-701
Published
2012
Full Text
View/download PDF

40. CardiSort: a convolutional neural network for cross vendor automated sorting of cardiac MR images

Author

Lim, Ruth P, Kachel, Stefan, Villa, Adriana DM, Kearney, Leighton, Bettencourt, Nuno, Young, Alistair A, Chiribiri, Amedeo, and Scannell, Cian M

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Objectives: To develop an image-based automatic deep learning method to classify cardiac MR images by sequence type and imaging plane for improved clinical post-processing efficiency. Methods: Multi-vendor cardiac MRI studies were retrospectively collected from 4 centres and 3 vendors. A two-head convolutional neural network ('CardiSort') was trained to classify 35 sequences by imaging sequence (n=17) and plane (n=10). Single vendor training (SVT) on single centre images (n=234 patients) and multi-vendor training (MVT) with multicentre images (n = 479 patients, 3 centres) was performed. Model accuracy was compared to manual ground truth labels by an expert radiologist on a hold-out test set for both SVT and MVT. External validation of MVT (MVTexternal) was performed on data from 3 previously unseen magnet systems from 2 vendors (n=80 patients). Results: High sequence and plane accuracies were observed for SVT (85.2% and 93.2% respectively), and MVT (96.5% and 98.1% respectively) on the hold-out test set. MVTexternal yielded sequence accuracy of 92.7% and plane accuracy of 93.0%. There was high accuracy for common sequences and conventional cardiac planes. Poor accuracy was observed for underrepresented classes and sequences where there was greater variability in acquisition parameters across centres, such as perfusion imaging. Conclusions: A deep learning network was developed on multivendor data to classify MRI studies into component sequences and planes, with external validation. With refinement, it has potential to improve workflow by enabling automated sequence selection, an important first step in completely automated post-processing pipelines., Comment: Published in European Radiology 2022

Published
2021
Full Text
View/download PDF

46. Impact of Anatomical and Viability-Guided Completeness of Revascularization on Clinical Outcomes in Ischemic Cardiomyopathy

Author

Perera, Divaka, Chiribiri, Amedeo, Carr-White, Gerry, Pavlidis, Antonis, Redwood, Simon, Clapp, Brian, Rinaldi, Aldo, Rahman, Haseeb, Briceno, Natalia, Arnold, Sophie, Raynsford, Amy, Petrie, Mark, McEntegart, Margaret, Watkins, Stuart, Shaukat, Aadil, Rocchiccioli, Paul, Cowan, Louise, Weerackody, Roshan, Davies, Ceri, Smith, Elliot, Modi, Bhavik, O’Kane, Peter, Din, Jehangir, Hinton, Jonathon, Greenwood, John, Blaxill, Jonathan, Mozid, Abdul, Anderson, Michelle, Dixon, Lana, Walsh, Simon, Spence, Mark, Glover, Patricia, Edwards, Richard, McDiarmid, Adam, Egred, Mohaned, Stevenson, Hannah, Amin-Youssef, George, Shah, Ajay, McDonagh, Theresa, Byrne, Jonathan, Pareek, Nilesh, Breeze, Jonathan, Gershlick, Anthony, McCann, Gerald, Ladwiniec, Andrew, Squire, Iain, Alexander, Donna, De Silva, Kalpa, Strange, Julian, Johnson, Tom, Nightingale, Angus, Gallego, Laura, Spratt, James, Cosgrove, Claudia, Willia, Rupert, Firoozi, Sam, Lim, Pitt, Conway, Dwayne, Swoboda, Peter, Brooksby, Paul, Cotton, James, Horton, Richard, Metherell, Stella, Hogrefe, Kai, Cheng, Adrian, Sidgwick, Sian, Lockie, Tim, Patel, Niket, Rakhit, Roby, Ahmed, Fozia, Hendry, Cara, Fath-Odoubadi, Farzin, Fraser, Douglas, Mamas, Mamas, Behan, Miles, Japp, Alan, Jenkins, Nicholas, McClure, Sam, Martin, Karen, Abdelaal, Eltigani, Sarma, Jaydeep, Sastry, Sanjay, Riley, Jo, Magapu, Pradeep, Stables, Rod, Wright, David, Mahmoudi, Michael, Flett, Andrew, Curzen, Nick, Gough, Sam, Nicholas, Zoe, Ludman, Andrew, Kurdi, Hibba, Keenan, Sam, Thorpe, Kevin, Banerjee, Prithwish, Tapp, Luke, Panicker, Abeesh, de Belder, Mark, Thambyrajah, Jeet, Swanson, Neil, Kukreja, Neville, Lynch, Mary, Viswanathan, Girish, Jones, Elaine, Norman, Sarah, Routledge, Helen, Trevelyan, Jasper, Pegge, Nick, Dhamrait, Sukhbir, Wells, Tim, Sinha, Manas, Galasko, Gavin, Cassidy, Christopher, Edwards, Tim, Iqbal, Javed, Witherow, Fraser, Lee, Kaeng, Beattie, James, Pitt, Mike, Gunn, Julian, Al-Mohammad, Abdallah, Denney, Helen, Griffiths, Huw, Kalra, Paul, Gray, Tim, Sobolewska, Jolanta, Ramcharitar, Steve, McCafferty, Laura, Martin, Thomas, Irving, John, Iskandar, Zaid, Glover, Jason, Beynon, James, Pye, Maurice, Megarry, Simon, Das, Paul, Bellamy, Chris, Ezad, Saad M., Dodd, Matthew, Didagelos, Matthaios, Sidik, Novalia, Li Kam Wa, Matthew, Morgan, Holly P., Walsh, Simon J., Spratt, James C., Ludman, Peter, Clayton, Tim, and Petrie, Mark C.

Published
2024
Full Text
View/download PDF

47. Chronic Coronary Syndromes

Author

Ricci, Fabrizio, Carrabba, Nazario, Chiribiri, Amedeo, Perrone Filardi, Pasquale, Barison, Andrea, editor, Dellegrottaglie, Santo, editor, Pontone, Gianluca, editor, and Indolfi, Ciro, editor

Published
2023
Full Text
View/download PDF

50. Physics-informed neural networks for myocardial perfusion MRI quantification

Author

van Herten, Rudolf L. M., Chiribiri, Amedeo, Breeuwer, Marcel, Veta, Mitko, and Scannell, Cian M.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Physics - Medical Physics
Abstract

Tracer-kinetic models allow for the quantification of kinetic parameters such as blood flow from dynamic contrast-enhanced magnetic resonance (MR) images. Fitting the observed data with multi-compartment exchange models is desirable, as they are physiologically plausible and resolve directly for blood flow and microvascular function. However, the reliability of model fitting is limited by the low signal-to-noise ratio, temporal resolution, and acquisition length. This may result in inaccurate parameter estimates. This study introduces physics-informed neural networks (PINNs) as a means to perform myocardial perfusion MR quantification, which provides a versatile scheme for the inference of kinetic parameters. These neural networks can be trained to fit the observed perfusion MR data while respecting the underlying physical conservation laws described by a multi-compartment exchange model. Here, we provide a framework for the implementation of PINNs in myocardial perfusion MR. The approach is validated both in silico and in vivo. In the in silico study, an overall reduction in mean-squared error with the ground-truth parameters was observed compared to a standard non-linear least squares fitting approach. The in vivo study demonstrates that the method produces parameter values comparable to those previously found in literature, as well as providing parameter maps which match the clinical diagnosis of patients., Comment: Published in Medical Image Analysis

Published
2020
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results