Your search keyword '"Kim, Raymond"' showing total 3 results

1. Automated Quality Controlled Analysis of 2D Phase Contrast Cardiovascular Magnetic Resonance Imaging

Author

Chan, Emily, O'Hanlon, Ciaran, Marquez, Carlota Asegurado, Petalcorin, Marwenie, Mariscal-Harana, Jorge, Gu, Haotian, Kim, Raymond J., Judd, Robert M., Chowienczyk, Phil, Schnabel, Julia A., Razavi, Reza, King, Andrew P., Ruijsink, Bram, and Puyol-Antón, Esther

Subjects

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

Abstract

Flow analysis carried out using phase contrast cardiac magnetic resonance imaging (PC-CMR) enables the quantification of important parameters that are used in the assessment of cardiovascular function. An essential part of this analysis is the identification of the correct CMR views and quality control (QC) to detect artefacts that could affect the flow quantification. We propose a novel deep learning based framework for the fully-automated analysis of flow from full CMR scans that first carries out these view selection and QC steps using two sequential convolutional neural networks, followed by automatic aorta and pulmonary artery segmentation to enable the quantification of key flow parameters. Accuracy values of 0.958 and 0.914 were obtained for view classification and QC, respectively. For segmentation, Dice scores were $>$0.969 and the Bland-Altman plots indicated excellent agreement between manual and automatic peak flow values. In addition, we tested our pipeline on an external validation data set, with results indicating good robustness of the pipeline. This work was carried out using multivendor clinical data consisting of 986 cases, indicating the potential for the use of this pipeline in a clinical setting., Comment: STACOM 2022 workshop

Published

2022

2. An AI tool for automated analysis of large-scale unstructured clinical cine CMR databases

Author

Mariscal-Harana, Jorge, Asher, Clint, Vergani, Vittoria, Rizvi, Maleeha, Keehn, Louise, Kim, Raymond J., Judd, Robert M., Petersen, Steffen E., Razavi, Reza, King, Andrew, Ruijsink, Bram, and Puyol-Antón, Esther

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Machine Learning, Quantitative Biology - Quantitative Methods

Abstract

Artificial intelligence (AI) techniques have been proposed for automating analysis of short axis (SAX) cine cardiac magnetic resonance (CMR), but no CMR analysis tool exists to automatically analyse large (unstructured) clinical CMR datasets. We develop and validate a robust AI tool for start-to-end automatic quantification of cardiac function from SAX cine CMR in large clinical databases. Our pipeline for processing and analysing CMR databases includes automated steps to identify the correct data, robust image pre-processing, an AI algorithm for biventricular segmentation of SAX CMR and estimation of functional biomarkers, and automated post-analysis quality control to detect and correct errors. The segmentation algorithm was trained on 2793 CMR scans from two NHS hospitals and validated on additional cases from this dataset (n=414) and five external datasets (n=6888), including scans of patients with a range of diseases acquired at 12 different centres using CMR scanners from all major vendors. Median absolute errors in cardiac biomarkers were within the range of inter-observer variability: <8.4mL (left ventricle volume), <9.2mL (right ventricle volume), <13.3g (left ventricular mass), and <5.9% (ejection fraction) across all datasets. Stratification of cases according to phenotypes of cardiac disease and scanner vendors showed good performance across all groups. We show that our proposed tool, which combines image pre-processing steps, a domain-generalisable AI algorithm trained on a large-scale multi-domain CMR dataset and quality control steps, allows robust analysis of (clinical or research) databases from multiple centres, vendors, and cardiac diseases. This enables translation of our tool for use in fully-automated processing of large multi-centre databases., Comment: Accepted at EHJ Digital Health; Bram Ruijsink and Esther Puyol-Ant\'on are shared last authors

Published

2022

3. Direct Subsurface Measurements through Precise Micro Drilling

Author

Su, Jiann-Cherng, primary, Bettin, Giorgia, additional, Buerger, Stephen, additional, Rittikaidachar, Michal, additional, Hobart, Clinton, additional, Slightam, Jonathon, additional, McBrayer, Kepra, additional, Gonzalez, Levi, additional, Pope, Joseph, additional, Foris, Adam, additional, Bruss, Kathryn, additional, Kim, Raymond, additional, and Mazumdar, Anirban, additional

Published

2021