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1. Generalized super-resolution 4D Flow MRI $\unicode{x2013}$ using ensemble learning to extend across the cardiovascular system

Author

Ericsson, Leon, Hjalmarsson, Adam, Akbar, Muhammad Usman, Ferdian, Edward, Bonini, Mia, Hardy, Brandon, Schollenberger, Jonas, Aristova, Maria, Winter, Patrick, Burris, Nicholas, Fyrdahl, Alexander, Sigfridsson, Andreas, Schnell, Susanne, Figueroa, C. Alberto, Nordsletten, David, Young, Alistair A., and Marlevi, David

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Quantitative Biology - Quantitative Methods
Abstract

4D Flow Magnetic Resonance Imaging (4D Flow MRI) is a non-invasive measurement technique capable of quantifying blood flow across the cardiovascular system. While practical use is limited by spatial resolution and image noise, incorporation of trained super-resolution (SR) networks has potential to enhance image quality post-scan. However, these efforts have predominantly been restricted to narrowly defined cardiovascular domains, with limited exploration of how SR performance extends across the cardiovascular system; a task aggravated by contrasting hemodynamic conditions apparent across the cardiovasculature. The aim of our study was to explore the generalizability of SR 4D Flow MRI using a combination of heterogeneous training sets and dedicated ensemble learning. With synthetic training data generated across three disparate domains (cardiac, aortic, cerebrovascular), varying convolutional base and ensemble learners were evaluated as a function of domain and architecture, quantifying performance on both in-silico and acquired in-vivo data from the same three domains. Results show that both bagging and stacking ensembling enhance SR performance across domains, accurately predicting high-resolution velocities from low-resolution input data in-silico. Likewise, optimized networks successfully recover native resolution velocities from downsampled in-vivo data, as well as show qualitative potential in generating denoised SR-images from clinical level input data. In conclusion, our work presents a viable approach for generalized SR 4D Flow MRI, with ensemble learning extending utility across various clinical areas of interest., Comment: 10 pages, 5 figures

Published
2023

2. Detection of acute pulmonary embolism using native repeated magnetic resonance imaging acquisitions under free-breathing and without respiratory or cardiac gating. A diagnostic accuracy study

Author

Koshiar Medson, Roberto Vargas Paris, Alexander Fyrdahl, Peder Wiklund, Sven Nyren, Eli Westerlund, and Peter Lindholm

Subjects
Venous thromboembolism, Pulmonary embolism, Computed tomography angiography, Magnetic resonance imaging, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Objectives: Computed tomography pulmonary angiography (CTPA) is the gold standard diagnostic method for patients with suspected pulmonary embolism (PE), but it has its drawbacks, including exposure to ionizing radiation and iodinated contrast agent. The present study aims to evaluate the diagnostic performance of our in-house developed non-contrast MRI protocol for PE diagnosis in reference to CTPA. Methods: 107 patients were included, all of whom underwent MRI immediately before or within 36 hours after CTPA. Additional cases examined only with MRI and a negative result were added to reach a PE prevalence of approximately 20%. The protocol was a non-contrast 2D steady-state free precession (SSFP) sequence under free-breathing, without respiratory or cardiac gating, and repeated five times to capture the vessels at different breathing/cardiac phases. The MRIs were blinded and read by two radiologists and the results were compared to CTPA. Results: Of the 243 patients included, 47 were positive for PE. Readers 1 and 2 demonstrated 89% and 87% sensitivity, 100% specificity, 98% accuracy and Cohen’s kappa of 0.88 on patient level. In the per embolus comparison, readers 1 and 2 detected, 60 and 59/61 (98, 97%) proximal, 101 and 94/113 (89, 83%) segmental, and 5 and 2/32 (16, 6%) subsegmental emboli, resulting in 81 and 75% sensitivity respectively. Conclusion: The repeated 2D SSFP can reliably be used for the diagnosis of acute PE at the proximal and segmental artery levels.

Published
2024
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5. Vortex Duration Time to Infer Pulmonary Hypertension: In-Silico Emulation and Dependence on Quantification Technique

Author

Sabry, Malak, Lamata, Pablo, Sigfridsson, Andreas, Keramati, Hamed, Fyrdahl, Alexander, Ugander, Martin, Yacoub, Magdi H., Marlevi, David, De Vecchi, Adelaide, 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, Bernard, Olivier, editor, Clarysse, Patrick, editor, Duchateau, Nicolas, editor, Ohayon, Jacques, editor, and Viallon, Magalie, editor

Published
2023
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6. CG-SENSE revisited: Results from the first ISMRM reproducibility challenge

Author

Maier, Oliver, Baete, Steven H., Fyrdahl, Alexander, Hammernik, Kerstin, Harrevelt, Seb, Kasper, Lars, Karakuzu, Agah, Loecher, Michael, Patzig, Franz, Tian, Ye, Wang, Ke, Gallichan, Daniel, Uecker, Martin, and Knoll, Florian

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Software Engineering, Electrical Engineering and Systems Science - Signal Processing, Physics - Medical Physics
Abstract

Purpose: The aim of this work is to shed light on the issue of reproducibility in MR image reconstruction in the context of a challenge. Participants had to recreate the results of "Advances in sensitivity encoding with arbitrary k-space trajectories" by Pruessmann et al. Methods: The task of the challenge was to reconstruct radially acquired multi-coil k-space data (brain/heart) following the method in the original paper, reproducing its key figures. Results were compared to consolidated reference implementations created after the challenge, accounting for the two most common programming languages used in the submissions (Matlab/Python). Results: Visually, differences between submissions were small. Pixel-wise differences originated from image orientation, assumed field-of-view or resolution. The reference implementations were in good agreement, both visually and in terms of image similarity metrics. Discussion and Conclusion: While the description level of the published algorithm enabled participants to reproduce CG-SENSE in general, details of the implementation varied, e.g., density compensation or Tikhonov regularization. Implicit assumptions about the data lead to further differences, emphasizing the importance of sufficient meta-data accompanying open data sets. Defining reproducibility quantitatively turned out to be non-trivial for this image reconstruction challenge, in the absence of ground-truth results. Typical similarity measures like NMSE of SSIM were misled by image intensity scaling and outlier pixels. Thus, to facilitate reproducibility, researchers are encouraged to publish code and data alongside the original paper. Future methodological papers on MR image reconstruction might benefit from the consolidated reference implementations of CG-SENSE presented here, as a benchmark for methods comparison., Comment: Submitted to Magnetic Resonance in Medicine; 29 pages with 10 figures and 1 table

Published
2020
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9. Estimation of mean pulmonary artery pressure by cardiovascular magnetic resonance four-dimensional flow and compressed sensing

Author

Abdula, Goran, primary, Bergqvist, Pernilla, additional, Castaings, Jenny, additional, Fyrdahl, Alexander, additional, Giese, Daniel, additional, Jin, Ning, additional, Testud, Frederik, additional, Sörensson, Peder, additional, Sigfridsson, Andreas, additional, Ugander, Martin, additional, and Marlevi, David, additional

Published
2024
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11. Cardiovascular magnetic resonance 4D flow analysis has a higher diagnostic yield than Doppler echocardiography for detecting increased pulmonary artery pressure

Author

Joao G. Ramos, Alexander Fyrdahl, Björn Wieslander, Gert Reiter, Ursula Reiter, Ning Jin, Eva Maret, Maria Eriksson, Kenneth Caidahl, Peder Sörensson, Andreas Sigfridsson, and Martin Ugander

Subjects
Magnetic resonance imaging, Pulmonary hypertension, 4D flow, Echocardiography, Medical technology, R855-855.5
Abstract

Abstract Background Pulmonary hypertension is definitively diagnosed by the measurement of mean pulmonary artery (PA) pressure (mPAP) using right heart catheterization. Cardiovascular magnetic resonance (CMR) four-dimensional (4D) flow analysis can estimate mPAP from blood flow vortex duration in the PA, with excellent results. Moreover, the peak systolic tricuspid regurgitation (TR) pressure gradient (TRPG) measured by Doppler echocardiography is commonly used in clinical routine to estimate systolic PA pressure. This study aimed to compare CMR and echocardiography with regards to quantitative and categorical agreement, and diagnostic yield for detecting increased PA pressure. Methods Consecutive clinically referred patients (n = 60, median [interquartile range] age 60 [48–68] years, 33% female) underwent echocardiography and CMR at 1.5 T (n = 43) or 3 T (n = 17). PA vortex duration was used to estimate mPAP using a commercially available time-resolved multiple 2D slice phase contrast three-directional velocity encoded sequence covering the main PA. Transthoracic Doppler echocardiography was performed to measure TR and derive TRPG. Diagnostic yield was defined as the fraction of cases in which CMR or echocardiography detected an increased PA pressure, defined as vortex duration ≥15% of the cardiac cycle (mPAP ≥25 mmHg) or TR velocity > 2.8 m/s (TRPG > 31 mmHg). Results Both CMR and echocardiography showed normal PA pressure in 39/60 (65%) patients and increased PA pressure in 9/60 (15%) patients, overall agreement in 48/60 (80%) patients, kappa 0.49 (95% confidence interval 0.27–0.71). CMR had a higher diagnostic yield for detecting increased PA pressure compared to echocardiography (21/60 (35%) vs 9/60 (15%), p

Published
2020
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14. Self‐calibrated through‐time spiral <scp>GRAPPA</scp> for real‐time, free‐breathing evaluation of left ventricular function

Author

Dominique Franson, James Ahad, Yuchi Liu, Alexander Fyrdahl, William Truesdell, Jesse Hamilton, and Nicole Seiberlich

Subjects
Breath Holding, Respiration, Image Processing, Computer-Assisted, Humans, Magnetic Resonance Imaging, Cine, Reproducibility of Results, Heart, Radiology, Nuclear Medicine and imaging, Artifacts, Ventricular Function, Left, Algorithms
Abstract

Through-time spiral GRAPPA is a real-time imaging technique that enables ungated, free-breathing evaluation of the left ventricle. However, it requires a separate fully-sampled calibration scan to calculate GRAPPA weights. A self-calibrated through-time spiral GRAPPA method is proposed that uses a specially designed spiral trajectory with interleaved arm ordering such that consecutive undersampled frames can be merged to form calibration data, eliminating the separate fully-sampled acquisition.The proposed method considers the time needed to acquire data at all points in a GRAPPA calibration kernel when using interleaved arm ordering. Using this metric, simulations were performed to design a spiral trajectory for self-calibrated GRAPPA. Data were acquired in healthy volunteers using the proposed method and a comparison electrocardiogram-gated and breath-held cine scan. Left ventricular functional values and image quality are compared.A 12-arm spiral trajectory was designed with a temporal resolution of 32.72 ms/cardiac phase with an acceleration factor of 3. Functional values calculated using the proposed method and the gold-standard method were not statistically significantly different (paired t-test, p 0.05). Image quality ratings were lower for the proposed method, with statistically significantly different ratings (Wilcoxon signed rank test, p 0.05) for two of five image quality aspects rated (level of artifact, blood-myocardium contrast).A self-calibrated through-time spiral GRAPPA reconstruction can enable ungated, free-breathing evaluation of the left ventricle in 71 s. Functional values are equivalent to a gold-standard cine technique, although some aspects of image quality may be inferior due to the real-time nature of the data collection.

Published
2022

15. Feasibility of monitoring the resolution of acute pulmonary embolism with non-contrast-enhanced magnetic resonance imaging at one day, one week, one, three, and six months

Author

Koshiar Medson, Eli Westerlund, Roberto Vargas Paris, Alexander Fyrdahl, Nina Vidovic, Sven Nyren, and Peter Lindholm

Subjects
Radiological and Ultrasound Technology, Radiology, Nuclear Medicine and imaging, General Medicine
Abstract

Background Pulmonary embolism (PE) is a common cause of death with an incidence of approximately 1–2 cases per 1000 inhabitants in Europe and the United States. Treatment for PE is the administration of anticoagulants for at least three months. Purpose To assess the feasibility of following the resolution rate of PE over time using repeated imaging with a non-contrast-enhanced magnetic resonance imaging (MRI) protocol. Material and Methods Patients (n = 18) diagnosed with acute PE via computed tomography pulmonary angiography (CTPA) underwent non-contrast-enhanced MRI at two tertiary hospitals. The first MRI was performed within 36 h of CTPA, with follow-up at one week, one, three, and six months. The MRI sequence used was a non-contrast-enhanced standard two-dimensional steady-state free precession under free-breathing and without respiratory or cardiac gating. All MRI scans were then compared to the initial CTPA. The emboli were assessed visually for location and size, and clot burden was calculated using the Qanadli score. Results MRI revealed complete resolution in seven cases at one week, in five cases at one month, and in three cases at three months. The most significant resolution of emboli occurred within the first few weeks, with only 10% of the diagnosed emboli persisting at the one-month examination. Conclusion The use of MRI imparts the ability to visualize PE without radiation and thus allows multiple examinations to be made, for example in studies investigating the resolution of PE or the evaluation of drug effect in clinical trials.

Published
2022

20. Noninvasive estimation of mean pulmonary artery pressure by CMR in under 2 minutes scan time

Author

Goran Abdula, Joao G Ramos, David Marlevi, Alexander Fyrdahl, Henrik Engblom, Peder Sörensson, Daniel Giese, Ning Jin, Andreas Sigfridsson, and Martin Ugander

Abstract

BackgroundNon-invasive estimation of mean pulmonary artery pressure (mPAP) by cardiovascular magnetic resonance (CMR) four-dimensional (4D) flow analysis has shown excellent agreement with invasive right heart catheterization. However, clinical application is limited by relatively long scan times.ObjectivesThe aim of this study was to evaluate the accuracy and time reduction of compressed sensing (CS) accelerated acquisition for mPAP estimation.MethodsPatients (n=51) referred for clinical CMR at 1.5T or 3T underwent imaging with both a prototype CS□accelerated and a non-CS-accelerated flow sequence acquiring time-resolved multiple 2D slice phase contrast three-directional velocity-encoded images covering the pulmonary artery. Prototype software was used for blinded analysis of pulmonary artery (PA) vortex duration to estimate mPAP as previously validated.ResultsCS-accelerated and non-CS-accelerated acquisition showed increased mPAP in 22/51 (43%) and 24/51 (47%) patients, respectively. Mean bias for estimating mPAP between the two methods was 0.1±1.9 mmHg and the intraclass correlation coefficient was 0.97 [95% confidence interval 0.94-0.98]. Effective scan time was lower for the CS-accelerated acquisition (1 min 55 sec ± 27 sec vs 9 min 6 sec ± 2 min 20 sec, pConclusionsCS-accelerated CMR acquisition enables preserved accuracy for estimating mPAP compared to a non-CS-accelerated sequence, allowing for an average scan time of less than 2 minutes. CS-acceleration thereby increases the clinical utility of CMR 4D flow analysis to estimate mPAP.

Published
2023

22. Pulmonary Hypertension by Catheterization Is More Accurately Detected by Cardiovascular Magnetic Resonance 4D-Flow Than Echocardiography

Author

Ramos, João G., primary, Wieslander, Björn, additional, Fyrdahl, Alexander, additional, Reiter, Gert, additional, Reiter, Ursula, additional, Jin, Ning, additional, Skott, Viktoria, additional, Melin, Michael, additional, Sundblad, Patrik, additional, Sigfridsson, Andreas, additional, and Ugander, Martin, additional

Published
2022
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25. Comprehensive Cardiovascular Magnetic Resonance Diastolic Dysfunction Grading Shows Very Good Agreement Compared With Echocardiography

Author

Eva Maret, Andreas Sigfridsson, Gert Reiter, Joao G. Ramos, Ning Jin, Alexander Fyrdahl, Martin Ugander, Ursula Reiter, Peder Sörensson, Maria J. Eriksson, Simon Thalén, Kenneth Caidahl, and Björn Wieslander

Subjects
Male, medicine.medical_specialty, Magnetic Resonance Spectroscopy, Diastole, 030204 cardiovascular system & hematology, 030218 nuclear medicine & medical imaging, Ventricular Dysfunction, Left, 03 medical and health sciences, 0302 clinical medicine, Cohen's kappa, Predictive Value of Tests, Interquartile range, medicine.artery, Internal medicine, Humans, Medicine, Radiology, Nuclear Medicine and imaging, cardiovascular diseases, Grading (education), Aged, medicine.diagnostic_test, business.industry, Magnetic resonance imaging, Blood flow, Middle Aged, Confidence interval, Echocardiography, Pulmonary artery, cardiovascular system, Cardiology, Female, Cardiology and Cardiovascular Medicine, business
Abstract

Objectives The aims of this study were to develop a comprehensive cardiovascular magnetic resonance (CMR) approach to diastolic dysfunction (DD) grading and to evaluate the accuracy of CMR in the diagnosis of DD compared with echocardiography. Background Left ventricular DD is routinely assessed using echocardiography. Methods Consecutive clinically referred patients (n = 46; median age 59 years; interquartile range: 46 to 68 years; 33% women) underwent both conventional echocardiography and CMR. CMR diastolic transmitral velocities (E and A) and myocardial tissue velocity (e′) were measured during breath-hold using a validated high–temporal resolution radial sector-wise golden-angle velocity-encoded sequence. CMR pulmonary artery pressure was estimated from 4-dimensional flow analysis of blood flow vortex duration in the pulmonary artery. CMR left atrial volume was measured using the biplane long-axis area-length method. Both CMR and echocardiographic data were used to perform blinded grading of DD according to the 2016 joint American and European recommendations. Results Grading of DD by CMR agreed with that by echocardiography in 43 of 46 cases (93%), of which 9% were normal, 2% indeterminate, 63% grade 1 DD, 4% grade 2 DD, and 15% grade 3 DD. There was a very good categorical agreement, with a weighted Cohen kappa coefficient of 0.857 (95% confidence interval: 0.73 to 1.00; p Conclusions A comprehensive CMR protocol for grading DD encompassing diastolic blood and myocardial velocities, estimated pulmonary artery pressure, and left atrial volume showed very good agreement with echocardiography.

Published
2020

26. Feasibility of monitoring the resolution of acute pulmonary embolism with non-contrast-enhanced magnetic resonance imaging at one day, one week, one, three, and six months.

Author

Medson, Koshiar, Westerlund, Eli, Paris, Roberto Vargas, Fyrdahl, Alexander, Vidovic, Nina, Nyren, Sven, and Lindholm, Peter

Subjects
MAGNETIC resonance imaging, CONTRAST-enhanced magnetic resonance imaging, PULMONARY embolism, COMPUTED tomography
Abstract

Background: Pulmonary embolism (PE) is a common cause of death with an incidence of approximately 1–2 cases per 1000 inhabitants in Europe and the United States. Treatment for PE is the administration of anticoagulants for at least three months. Purpose: To assess the feasibility of following the resolution rate of PE over time using repeated imaging with a non-contrast-enhanced magnetic resonance imaging (MRI) protocol. Material and Methods: Patients (n = 18) diagnosed with acute PE via computed tomography pulmonary angiography (CTPA) underwent non-contrast-enhanced MRI at two tertiary hospitals. The first MRI was performed within 36 h of CTPA, with follow-up at one week, one, three, and six months. The MRI sequence used was a non-contrast-enhanced standard two-dimensional steady-state free precession under free-breathing and without respiratory or cardiac gating. All MRI scans were then compared to the initial CTPA. The emboli were assessed visually for location and size, and clot burden was calculated using the Qanadli score. Results: MRI revealed complete resolution in seven cases at one week, in five cases at one month, and in three cases at three months. The most significant resolution of emboli occurred within the first few weeks, with only 10% of the diagnosed emboli persisting at the one-month examination. Conclusion: The use of MRI imparts the ability to visualize PE without radiation and thus allows multiple examinations to be made, for example in studies investigating the resolution of PE or the evaluation of drug effect in clinical trials. [ABSTRACT FROM AUTHOR]

Published
2023
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27. The effect of levosimendan on survival and cardiac performance in an ischemic cardiac arrest model – A blinded randomized placebo-controlled study in swine

Author

Malin Jonsson Fagerlund, John Pernow, Mikael Lundin, Susanne Rysz, Helen Eriksson, Per Nordberg, Johan Lundberg, Therese Djärv, Björn Wieslander, Alexander Fyrdahl, and Martin Ugander

Subjects
medicine.medical_specialty, Cardiac output, Cardiotonic Agents, Swine, Placebo-controlled study, Infarction, 030204 cardiovascular system & hematology, Emergency Nursing, Placebo, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Intensive care, Animals, Medicine, Myocardial infarction, Simendan, business.industry, Hemodynamics, Hydrazones, 030208 emergency & critical care medicine, Levosimendan, medicine.disease, Cardiopulmonary Resuscitation, Pyridazines, Disease Models, Animal, Ventricular fibrillation, Emergency Medicine, Cardiology, Cardiology and Cardiovascular Medicine, business, medicine.drug
Abstract

Background Survival after out-of-hospital cardiac arrest remains poor. Levosimendan could be a new intervention in this setting. Therefore, we conducted a blinded, placebo controlled randomized study investigating the effects of levosimendan on survival and cardiac performance in an ischemic cardiac arrest model in swine. Methods Twenty-four anesthetised swines underwent experimentally-induced acute myocardial infarction and ventricular fibrillation. At the start of CPR, a bolus dose of levosimendan (12 μg kg−1) or placebo was given followed by a 24-h infusion (0.2 μg kg−1 min−1) after return of spontaneously circulation. Animals were evaluated by risk of death, post-resuscitation hemodynamics and infarction size by magnetic resonance imaging (MRI) up to 32 h post arrest. Results Spontaneous circulation was restored in all (12/12) animals in the levosimendan group compared to two thirds (8/12) in the placebo group (P = 0.09). Protocol survival was higher for the levosimendan group (P = 0.02) with an estimated 88% lower risk of death compared to placebo (hazard ratio [95% confidence interval] 0.12 [0.01–0.96], P = 0.046). Cardiac output (CO) recovered 40% faster during the first hour of the intensive care period for the levosimendan group (difference 0.13 [0.01–0.26] L min−1 P = 0.04). The placebo group required higher inotropic support during the intensive care period which masked an even bigger recovery in CO in the levosimendan group (58%). The MRI showed no difference in myocardial scar size or in myocardial area at risk. Conclusions Levosimendan given intra-arrest and during the first 24-h of post-resuscitation care improved survival and cardiac performance in this ischemic cardiac arrest model. Institutional Protocol Number; KERIC 5.2.18-14933.

Published
2020

28. Cardiovascular magnetic resonance 4D flow analysis has a higher diagnostic yield than Doppler echocardiography for detecting increased pulmonary artery pressure

Author

Alexander Fyrdahl, Kenneth Caidahl, Martin Ugander, Ursula Reiter, Peder Sörensson, Gert Reiter, Björn Wieslander, Andreas Sigfridsson, Maria J. Eriksson, Eva Maret, Ning Jin, and Joao G. Ramos

Subjects
Male, medicine.medical_specialty, lcsh:Medical technology, Hypertension, Pulmonary, 4D flow, Magnetic Resonance Imaging, Cine, 030204 cardiovascular system & hematology, Doppler echocardiography, Sensitivity and Specificity, 030218 nuclear medicine & medical imaging, Pulmonary hypertension, 03 medical and health sciences, 0302 clinical medicine, Imaging, Three-Dimensional, Magnetic resonance imaging, Interquartile range, Internal medicine, medicine.artery, medicine, Humans, Radiology, Nuclear Medicine and imaging, Prospective Studies, Pressure gradient, Aged, Cardiac cycle, medicine.diagnostic_test, business.industry, Blood flow, Middle Aged, medicine.disease, Echocardiography, Doppler, lcsh:R855-855.5, Echocardiography, Pulmonary artery, Cardiology, Female, business, Research Article
Abstract

Background Pulmonary hypertension is definitively diagnosed by the measurement of mean pulmonary artery (PA) pressure (mPAP) using right heart catheterization. Cardiovascular magnetic resonance (CMR) four-dimensional (4D) flow analysis can estimate mPAP from blood flow vortex duration in the PA, with excellent results. Moreover, the peak systolic tricuspid regurgitation (TR) pressure gradient (TRPG) measured by Doppler echocardiography is commonly used in clinical routine to estimate systolic PA pressure. This study aimed to compare CMR and echocardiography with regards to quantitative and categorical agreement, and diagnostic yield for detecting increased PA pressure. Methods Consecutive clinically referred patients (n = 60, median [interquartile range] age 60 [48–68] years, 33% female) underwent echocardiography and CMR at 1.5 T (n = 43) or 3 T (n = 17). PA vortex duration was used to estimate mPAP using a commercially available time-resolved multiple 2D slice phase contrast three-directional velocity encoded sequence covering the main PA. Transthoracic Doppler echocardiography was performed to measure TR and derive TRPG. Diagnostic yield was defined as the fraction of cases in which CMR or echocardiography detected an increased PA pressure, defined as vortex duration ≥15% of the cardiac cycle (mPAP ≥25 mmHg) or TR velocity > 2.8 m/s (TRPG > 31 mmHg). Results Both CMR and echocardiography showed normal PA pressure in 39/60 (65%) patients and increased PA pressure in 9/60 (15%) patients, overall agreement in 48/60 (80%) patients, kappa 0.49 (95% confidence interval 0.27–0.71). CMR had a higher diagnostic yield for detecting increased PA pressure compared to echocardiography (21/60 (35%) vs 9/60 (15%), p 2 = 0.65, p Conclusions There is good quantitative and fair categorical agreement between estimated mPAP from CMR and TRPG from echocardiography. CMR has higher diagnostic yield for detecting increased PA pressure compared to echocardiography, potentially due to a lower sensitivity of echocardiography in detecting increased PA pressure compared to CMR, related to limitations in the ability to adequately visualize and measure the TR jet by echocardiography. Future comparison between echocardiography, CMR and invasive measurements are justified to definitively confirm these findings.

Published
2020

32. Self‐calibrated through‐time spiral GRAPPA for real‐time, free‐breathing evaluation of left ventricular function.

Author

Franson, Dominique, Ahad, James, Liu, Yuchi, Fyrdahl, Alexander, Truesdell, William, Hamilton, Jesse, and Seiberlich, Nicole

Subjects
ACQUISITION of data, CALIBRATION, MAGNETIC resonance
Abstract

Purpose: Through‐time spiral GRAPPA is a real‐time imaging technique that enables ungated, free‐breathing evaluation of the left ventricle. However, it requires a separate fully‐sampled calibration scan to calculate GRAPPA weights. A self‐calibrated through‐time spiral GRAPPA method is proposed that uses a specially designed spiral trajectory with interleaved arm ordering such that consecutive undersampled frames can be merged to form calibration data, eliminating the separate fully‐sampled acquisition. Theory and Methods: The proposed method considers the time needed to acquire data at all points in a GRAPPA calibration kernel when using interleaved arm ordering. Using this metric, simulations were performed to design a spiral trajectory for self‐calibrated GRAPPA. Data were acquired in healthy volunteers using the proposed method and a comparison electrocardiogram‐gated and breath‐held cine scan. Left ventricular functional values and image quality are compared. Results: A 12‐arm spiral trajectory was designed with a temporal resolution of 32.72 ms/cardiac phase with an acceleration factor of 3. Functional values calculated using the proposed method and the gold‐standard method were not statistically significantly different (paired t‐test, p < 0.05). Image quality ratings were lower for the proposed method, with statistically significantly different ratings (Wilcoxon signed rank test, p < 0.05) for two of five image quality aspects rated (level of artifact, blood‐myocardium contrast). Conclusions: A self‐calibrated through‐time spiral GRAPPA reconstruction can enable ungated, free‐breathing evaluation of the left ventricle in 71 s. Functional values are equivalent to a gold‐standard cine technique, although some aspects of image quality may be inferior due to the real‐time nature of the data collection. [ABSTRACT FROM AUTHOR]

Published
2023
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33. Projection-based respiratory-resolved left ventricular volume measurements in patients using free-breathing double golden-angle 3D radial acquisition

Author

Kenneth Caidahl, Karen Holst, Andreas Sigfridsson, Alexander Fyrdahl, and Martin Ugander

Subjects
Adult, Male, Respiratory-Gated Imaging Techniques, Radial, Heart Ventricles, Biophysics, Ventricular Function, Left, 030218 nuclear medicine & medical imaging, Motion, 03 medical and health sciences, Imaging, Three-Dimensional, 0302 clinical medicine, Diastole, Self-gating, Image Processing, Computer-Assisted, Humans, Medicine, Radiology, Nuclear Medicine and imaging, In patient, Respiratory system, Projection (set theory), Cardiac imaging, Aged, Radiological and Ultrasound Technology, business.industry, Respiration, Golden-angle, Middle Aged, Radial trajectory, Magnetic Resonance Imaging, Respiratory resolved, Feasibility Studies, Female, Golden angle, Three-dimensional, business, Nuclear medicine, Free breathing, Research Article, Volume (compression)
Abstract

Objective To refine a new technique to measure respiratory-resolved left ventricular end-diastolic volume (LVEDV) in mid-inspiration and mid-expiration using a respiratory self-gating technique and demonstrate clinical feasibility in patients. Materials and methods Ten consecutive patients were imaged at 1.5 T during 10 min of free breathing using a 3D golden-angle radial trajectory. Two respiratory self-gating signals were extracted and compared: from the k-space center of all acquired spokes, and from a superior–inferior projection spoke repeated every 64 ms. Data were binned into end-diastole and two respiratory phases of 15% respiratory cycle duration in mid-inspiration and mid-expiration. LVED volume and septal–lateral diameter were measured from manual segmentation of the endocardial border. Results Respiratory-induced variation in LVED size expressed as mid-inspiration relative to mid-expiration was, for volume, 1 ± 8% with k-space-based self-gating and 8 ± 2% with projection-based self-gating (P = 0.04), and for septal–lateral diameter, 2 ± 2% with k-space-based self-gating and 10 ± 1% with projection-based self-gating (P = 0.002). Discussion Measuring respiratory variation in LVED size was possible in clinical patients with projection-based respiratory self-gating, and the measured respiratory variation was consistent with previous studies on healthy volunteers. Projection-based self-gating detected a higher variation in LVED volume and diameter during respiration, compared to k-space-based self-gating.

Published
2018

34. CG‐SENSE revisited: Results from the first ISMRM reproducibility challenge

Author

Maier, Oliver, Baete, Steven Hubert, Fyrdahl, Alexander, Hammernik, Kerstin, Harrevelt, Seb, Kasper, Lars, Karakuzu, Agah, Loecher, Michael, Patzig, Franz, Tian, Ye, Wang, Ke, Gallichan, Daniel, Uecker, Martin, Knoll, Florian, University of Zurich, and Knoll, Florian

Subjects
170 Ethics, Radiology Nuclear Medicine and imaging, 2741 Radiology, Nuclear Medicine and Imaging, 610 Medicine & health, 10237 Institute of Biomedical Engineering
Published
2021

35. CG‐SENSE revisited: Results from the first ISMRM reproducibility challenge

Author

Maier, Oliver; https://orcid.org/0000-0002-7800-0022, Baete, Steven Hubert; https://orcid.org/0000-0003-3361-3789, Fyrdahl, Alexander; https://orcid.org/0000-0003-0237-7699, Hammernik, Kerstin; https://orcid.org/0000-0002-2734-1409, Harrevelt, Seb, Kasper, Lars; https://orcid.org/0000-0001-7667-603X, Karakuzu, Agah, Loecher, Michael; https://orcid.org/0000-0002-6533-1113, Patzig, Franz, Tian, Ye; https://orcid.org/0000-0002-8559-4404, Wang, Ke, Gallichan, Daniel, Uecker, Martin; https://orcid.org/0000-0002-8850-809X, Knoll, Florian; https://orcid.org/0000-0001-5357-8656, Maier, Oliver; https://orcid.org/0000-0002-7800-0022, Baete, Steven Hubert; https://orcid.org/0000-0003-3361-3789, Fyrdahl, Alexander; https://orcid.org/0000-0003-0237-7699, Hammernik, Kerstin; https://orcid.org/0000-0002-2734-1409, Harrevelt, Seb, Kasper, Lars; https://orcid.org/0000-0001-7667-603X, Karakuzu, Agah, Loecher, Michael; https://orcid.org/0000-0002-6533-1113, Patzig, Franz, Tian, Ye; https://orcid.org/0000-0002-8559-4404, Wang, Ke, Gallichan, Daniel, Uecker, Martin; https://orcid.org/0000-0002-8850-809X, and Knoll, Florian; https://orcid.org/0000-0001-5357-8656

Abstract

Purpose: The aim of this work is to shed light on the issue of reproducibility in MR image reconstruction in the context of a challenge. Participants had to recreate the results of "Advances in sensitivity encoding with arbitrary k-space trajectories" by Pruessmann et al. METHODS: The task of the challenge was to reconstruct radially acquired multicoil k-space data (brain/heart) following the method in the original paper, reproducing its key figures. Results were compared to consolidated reference implementations created after the challenge, accounting for the two most common programming languages used in the submissions (Matlab/Python). Results: Visually, differences between submissions were small. Pixel-wise differences originated from image orientation, assumed field-of-view, or resolution. The reference implementations were in good agreement, both visually and in terms of image similarity metrics. Discussion and conclusion: While the description level of the published algorithm enabled participants to reproduce CG-SENSE in general, details of the implementation varied, for example, density compensation or Tikhonov regularization. Implicit assumptions about the data lead to further differences, emphasizing the importance of sufficient metadata accompanying open datasets. Defining reproducibility quantitatively turned out to be nontrivial for this image reconstruction challenge, in the absence of ground-truth results. Typical similarity measures like NMSE of SSIM were misled by image intensity scaling and outlier pixels. Thus, to facilitate reproducibility, researchers are encouraged to publish code and data alongside the original paper. Future methodological papers on MR image reconstruction might benefit from the consolidated reference implementations of CG-SENSE presented here, as a benchmark for methods comparison. Keywords: CG-SENSE; MRI; NUFFT; image reconstruction; nonuniform sampling; reproducibility.

Published
2021

36. CG-SENSE revisited: Results from the first ISMRM reproducibility challenge

Author

Alexander Fyrdahl, Agah Karakuzu, Ye Tian, Kerstin Hammernik, Steven H. Baete, Ke Wang, Martin Uecker, Lars Kasper, Florian Knoll, Daniel Gallichan, Seb Harrevelt, Franz Patzig, Oliver Maier, and Michael Loecher

Subjects
Signal Processing (eess.SP), FOS: Computer and information sciences, Computer science, FOS: Physical sciences, Iterative reconstruction, Article, 030218 nuclear medicine & medical imaging, Tikhonov regularization, 03 medical and health sciences, Computer Science - Software Engineering, 0302 clinical medicine, FOS: Electrical engineering, electronic engineering, information engineering, Image Processing, Computer-Assisted, Humans, Radiology, Nuclear Medicine and imaging, Electrical Engineering and Systems Science - Signal Processing, MATLAB, Implementation, computer.programming_language, Pixel, business.industry, Image and Video Processing (eess.IV), Brain, Reproducibility of Results, Pattern recognition, Python (programming language), Electrical Engineering and Systems Science - Image and Video Processing, Magnetic Resonance Imaging, Physics - Medical Physics, 3. Good health, Metadata, Software Engineering (cs.SE), Outlier, Artificial intelligence, Medical Physics (physics.med-ph), business, computer, 030217 neurology & neurosurgery, Algorithms
Abstract

Purpose: The aim of this work is to shed light on the issue of reproducibility in MR image reconstruction in the context of a challenge. Participants had to recreate the results of "Advances in sensitivity encoding with arbitrary k-space trajectories" by Pruessmann et al. Methods: The task of the challenge was to reconstruct radially acquired multi-coil k-space data (brain/heart) following the method in the original paper, reproducing its key figures. Results were compared to consolidated reference implementations created after the challenge, accounting for the two most common programming languages used in the submissions (Matlab/Python). Results: Visually, differences between submissions were small. Pixel-wise differences originated from image orientation, assumed field-of-view or resolution. The reference implementations were in good agreement, both visually and in terms of image similarity metrics. Discussion and Conclusion: While the description level of the published algorithm enabled participants to reproduce CG-SENSE in general, details of the implementation varied, e.g., density compensation or Tikhonov regularization. Implicit assumptions about the data lead to further differences, emphasizing the importance of sufficient meta-data accompanying open data sets. Defining reproducibility quantitatively turned out to be non-trivial for this image reconstruction challenge, in the absence of ground-truth results. Typical similarity measures like NMSE of SSIM were misled by image intensity scaling and outlier pixels. Thus, to facilitate reproducibility, researchers are encouraged to publish code and data alongside the original paper. Future methodological papers on MR image reconstruction might benefit from the consolidated reference implementations of CG-SENSE presented here, as a benchmark for methods comparison., Submitted to Magnetic Resonance in Medicine; 29 pages with 10 figures and 1 table

Published
2020

37. Generalization of three-dimensional golden-angle radial acquisition to reduce eddy current artifacts in bSSFP CMR imaging

Author

Andreas Sigfridsson, Alexander Fyrdahl, Martin Ugander, Karen Holst, and Kenneth Caidahl

Subjects
Bridging (networking), Image quality, Physics::Medical Physics, Biophysics, Imaging phantom, 030218 nuclear medicine & medical imaging, law.invention, 03 medical and health sciences, 0302 clinical medicine, Imaging, Three-Dimensional, Robustness (computer science), law, Eddy current, Humans, Radiology, Nuclear Medicine and imaging, CMR, Retrospective Studies, Physics, Radiological and Ultrasound Technology, Angular distance, Phantoms, Imaging, Eddy currents, Golden-angle, Image Enhancement, Magnetic Resonance Imaging, Golden angle, Artifacts, Algorithm, 030217 neurology & neurosurgery, Preclinical imaging, Algorithms, Research Article
Abstract

Purpose We propose a novel generalization of the three-dimensional double-golden-angle profile ordering, which allows for whole-heart volumetric imaging with retrospective binning and reduced eddy current artifacts. Methods A novel theory bridging the gap between the three-dimensional double golden-angle trajectory, and the two-dimensional tiny-golden-angle trajectory is presented. This enables a class of double golden-angle profile orderings with a smaller angular distance between successive k-space readouts. The novel profile orderings were evaluated through simulations, phantom experiments, and in vivo imaging. Comparisons were made to the original double-golden-angle trajectory. Image uniformity and off-resonance sensitivity were evaluated using phantom measurements, and qualitative image quality was assessed using in vivo images acquired in a healthy volunteer. Results The proposed theory successfully reduced the angular step while maintaining image uniformity after binning. Simulations revealed a slow degradation with decreasing angular steps and an increasing number of physiological bins. The phantom images showed a definite improvement in image uniformity and increased robustness to off-resonance, and in vivo imaging corroborated those findings. Conclusion Reducing the angular step in cardio-respiratory-binned golden-angle imaging shows potential for overcoming eddy current-induced image artifacts associated with 3D golden-angle radial imaging.

Published
2020

38. Applications of the golden angle in cardiovascular MRI

Author

Fyrdahl, Alexander and Fyrdahl, Alexander

Abstract

The use of radial trajectories has been seen as a potential solution to highly efficient cardiovascular magnetic resonance imaging (MRI). By acquiring a broad range of spatial frequencies per repetition time, the acquisition is time-efficient and robust against motion. Of particular interest is the golden angle profile order, which promises a near-uniform k-space coverage for an arbitrary number of readouts, enabling flexible data resorting, which is critical for efficient cardiovascular MRI. In Study I the use of 2D golden angle profile ordering is explored for imaging pulmonary embolisms. The insensitivity to motion and flow is used to reduce the artifacts that otherwise degrade images of the pulmonary vasculature when imaging with thin slices. It was found that the proposed technique could improve the image quality. Another source of artifacts arises when gradients are rapidly switched, and local induction of eddy currents may perturb spin equilibrium. In Study II, we propose a generalized golden angle profile orderings in 3D which reduces eddy-current artifacts. We demonstrate the efficacy of our generalization through numerical simulations, phantom imaging and imaging of a healthy volunteer. In Study III an improved 2D golden angle profile ordering was explored which resulted in a higher degree of k-space uniformity after physiological binning. This novel profile ordering was used in combination with a phase-contrast readout to enable quantification of myocardial tissue velocity and transmitral blood flow velocity, which are essential parameters for diastolic function assessment. When compared to echocardiography, it was found that MRI could accurately quantify myocardial tissue velocity, whereas transmitral blood flow velocity was underestimated. Study IV explored a further development of Study III by proposing a 3D version of the improved profile ordering. This novel ordering was used to acquire whole-heart functional images during free-breathing in less than

Published
2020

39. Pulmonary artery imaging under free‐breathing using golden‐angle radial b <scp>SSFP MRI</scp> : a proof of concept

Author

Roberto Vargas Paris, Sven Nyrén, Alexander Fyrdahl, Martin Ugander, Peter Lindholm, Karen Holst, and Andreas Sigfridsson

Subjects
Adult, Male, Image quality, media_common.quotation_subject, Pulmonary Artery, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, medicine.artery, Image Processing, Computer-Assisted, Humans, Medicine, Contrast (vision), Radiology, Nuclear Medicine and imaging, media_common, Aged, 80 and over, Artifact (error), Phantoms, Imaging, business.industry, Middle Aged, Radial trajectory, 030220 oncology & carcinogenesis, Temporal resolution, Pulmonary artery, Female, Golden angle, business, Nuclear medicine, Algorithms, Magnetic Resonance Angiography, Free breathing
Abstract

PURPOSE To evaluate the feasibility of an improved motion and flow robust methodology for imaging the pulmonary vasculature using non-contrast-enhanced, free-breathing, golden-angle radial MRI. METHODS Healthy volunteers (n = 10, age 46 ± 11 years, 50% female) and patients (n = 2, ages 27 and 84, both female) were imaged at 1.5 T using a Cartesian and golden-angle radial 2D balanced SSFP pulse sequence. The acquisitions were made under free breathing without contrast agent enhancement. The radial acquisitions were reconstructed at 3 temporal footprints. All series were scored from 1 to 5 for perceived diagnostic quality, artifact level, and vessel sharpness in multiple anatomical locations. In addition, vessel sharpness and blood-to-blood clot contrast were measured. RESULTS Quantitative measurements showed higher vessel sharpness for golden-angle radial (n = 76, 0.79 ± 0.11 versus 0.71 ± 0.16, p

Published
2018

40. Comprehensive Cardiovascular Magnetic Resonance Diastolic Dysfunction Grading Shows Very Good Agreement Compared With Echocardiography

Author

Ramos, João G., primary, Fyrdahl, Alexander, additional, Wieslander, Björn, additional, Thalén, Simon, additional, Reiter, Gert, additional, Reiter, Ursula, additional, Jin, Ning, additional, Maret, Eva, additional, Eriksson, Maria, additional, Caidahl, Kenneth, additional, Sörensson, Peder, additional, Sigfridsson, Andreas, additional, and Ugander, Martin, additional

Published
2020
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42. CG‐SENSE revisited: Results from the first ISMRM reproducibility challenge

Author

Maier, Oliver, primary, Baete, Steven Hubert, additional, Fyrdahl, Alexander, additional, Hammernik, Kerstin, additional, Harrevelt, Seb, additional, Kasper, Lars, additional, Karakuzu, Agah, additional, Loecher, Michael, additional, Patzig, Franz, additional, Tian, Ye, additional, Wang, Ke, additional, Gallichan, Daniel, additional, Uecker, Martin, additional, and Knoll, Florian, additional

Published
2020
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44. The effect of levosimendan on survival and cardiac performance in an ischemic cardiac arrest model – A blinded randomized placebo-controlled study in swine

Author

Rysz, Susanne, primary, Lundberg, Johan, additional, Nordberg, Per, additional, Eriksson, Helen, additional, Wieslander, Björn, additional, Lundin, Magnus, additional, Fyrdahl, Alexander, additional, Pernow, John, additional, Ugander, Martin, additional, Djärv, Therese, additional, and Jonsson Fagerlund, Malin, additional

Published
2020
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45. Cardiovascular magnetic resonance 4D flow analysis has a higher diagnostic yield than Doppler echocardiography for detecting increased pulmonary artery pressure

Author

Ugander, Martin, primary, Ramos, João G., additional, Fyrdahl, Alexander, additional, Wieslander, Björn, additional, Reiter, Gert, additional, Reiter, Ursula, additional, Jin, Ning, additional, Maret, Eva, additional, Eriksson, Maria, additional, Caidahl, Kenneth, additional, Sörensson, Peder, additional, and Sigfridsson, Andreas, additional

Published
2020
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46. Sector-wise golden-angle phase contrast with high temporal resolution for evaluation of left ventricular diastolic dysfunction

Author

Kenneth Caidahl, Maria J. Eriksson, Andreas Sigfridsson, Alexander Fyrdahl, Martin Ugander, and Joao G. Ramos

Subjects
Full Papers—Imaging Methodology, Diastole, phase contrast, Ventricular Function, Left, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, symbols.namesake, Ventricular Dysfunction, Left, 0302 clinical medicine, Flip angle, golden angle, Humans, Radiology, Nuclear Medicine and imaging, Physics, Cardiac cycle, Full Paper, business.industry, Pulse sequence, Heart, Magnetic Resonance Imaging, Temporal resolution, symbols, High temporal resolution, diastolic dysfunction, Golden angle, Nuclear medicine, business, Doppler effect, 030217 neurology & neurosurgery, Blood Flow Velocity
Abstract

PURPOSE To develop a high temporal resolution phase-contrast pulse sequence for evaluation of diastolic filling patterns, and to evaluate it in comparison to transthoracic echocardiography. METHODS A phase-contrast velocity-encoded gradient-echo pulse sequence was implemented with a sector-wise golden-angle radial ordering. Acquisitions were optimized for myocardial tissue (TE/TR: 4.4/6.8 ms, flip angle: 8o, velocity encoding: 30 cm/s) and transmitral flow (TE/TR: 4.0/6.6 ms, flip angle: 20o, velocity encoding: 150 cm/s). Shared velocity encoding was combined with a sliding-window reconstruction that enabled up to 250 frames per cardiac cycle. Transmitral and myocardial velocities were measured in 35 patients. Echocardiographic velocities were obtained with pulsed-wave Doppler using standard methods. RESULTS Myocardial velocity showed a low difference and good correlation between MRI and Doppler (mean ± 95% limits of agreement 0.9 ± 3.7 cm/s, R2 = 0.63). Transmitral velocity was underestimated by MRI (P < .05) with a difference of -11 ± 28 cm/s (R2 = 0.45). The early-to-late ratio correlated well (R2 = 0.66) with a minimal difference (0.03 ± 0.6). Analysis of interobserver and intra-observer variability showed excellent agreement for all measurements. CONCLUSIONS The proposed method enables the acquisition of phase-contrast images during a single breath-hold with a sufficiently high temporal resolution to match transthoracic echocardiography, which opens the possibility for many clinically relevant variables to be assessed by MRI.

Published
2019

47. 332Diastolic dysfunction grading with a comprehensive CMR protocol - feasibility and agreement compared to echocardiography

Author

U Reiter, Andreas Sigfridsson, Maria Eriksson, Ning Jin, A Fyrdahl, Kenneth Caidahl, Eva Maret, J G Afonso, G Reiter, Peder Sörensson, Martin Ugander, Björn Wieslander, and Simon Thalén

Subjects
Protocol (science), medicine.medical_specialty, business.industry, medicine, Radiology, Nuclear Medicine and imaging, General Medicine, Radiology, Cardiology and Cardiovascular Medicine, business, Grading (tumors)
Published
2019

49. Cardiovascular magnetic resonance 4D flow analysis has a higher diagnostic yield than Doppler echocardiography for detecting increased pulmonary artery pressure

Author

Ramos, João G., primary, Fyrdahl, Alexander, additional, Wieslander, Björn, additional, Reiter, Gert, additional, Reiter, Ursula, additional, Jin, Ning, additional, Maret, Eva, additional, Eriksson, Maria, additional, Caidahl, Kenneth, additional, Sörensson, Peder, additional, Sigfridsson, Andreas, additional, and Ugander, Martin, additional

Published
2019
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