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Dana Peters, PhD

Professor of Radiology and Biomedical Imaging

Research & Publications
Biography
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Research Summary

Peters' research is motivated by the desire to generate new imaging methods to improve current diagnostic methods for cardiovascular disease, and improve effectiveness of therapies. She focuses on magnetic resonance imaging. Her group has developed technology for electrophysiologists who treat patients with electrical abnormalities in the heart. These MRI methods allow electrophysiologists to see tissue characteristics responsible for electrical changes. They have also developed new methods for rapid imaging, using undersampled radial MR acquisition strategies. Most importantly, is to develop MRI methods in close collaboration with cardiologists and radiologists to detect early disease and monitor therapy.

Peters is also committed to training a new generation of biomedical imaging scientists. She believes in providing an environment with excellent MRI resources, knowledge about state of the art methods, and important questions in collaboration with clinicians and scientists, to generate creative new solution in medical imaging.

Specialized Terms: Magnetic Resonance Imaging; Atrial fibrillation; Radial imaging; Late gadolinium enhancement; Cardiac imaging

Extensive Research Description

Liver imaging--new techniques

Imaging of scar in patients with ventricular tachycardia and atrial fibrillation.
- New techniques for improving spatial resolution, motion, and contrast
- application to patients.
Radial imaging with new reconstruction algorithms

Development of new cardiac MR methods for diastolic dysfunction.

Coauthors

Research Interests

Atrial Fibrillation; Diagnostic Imaging; Gadolinium; Liver; Magnetic Resonance Imaging; Radiology; Imaging, Three-Dimensional

Research Images

Machine learning enabled valve-tracking for measurement of LV function.

With machine learning, valves can be automatically tracked, enabling slice-following cine MRI.

Selected Publications

Impaired left-ventricular global longitudinal strain by feature-tracking cardiac MRI predicts mortality in systemic sclerosisFeher A, Miller E, Peters D, Mojibian H, Sinusas A, Hinchcliff M, Baldassarre L. Impaired left-ventricular global longitudinal strain by feature-tracking cardiac MRI predicts mortality in systemic sclerosis Rheumatology International 2023, 43: 849-858. PMID: 36894756, DOI: 10.1007/s00296-023-05294-6.
Balanced Steady‐State Free Precession Cine MR Imaging in the Presence of Cardiac Devices: Value of Interleaved Radial Linear Combination Acquisition With Partial DephasingXiang J, Lamy J, Lampert R, Peters D. Balanced Steady‐State Free Precession Cine MR Imaging in the Presence of Cardiac Devices: Value of Interleaved Radial Linear Combination Acquisition With Partial Dephasing Journal Of Magnetic Resonance Imaging 2022 PMID: 36373998, DOI: 10.1002/jmri.28528.
TVnet: automated global analysis of tricuspid valve plane motion in CMR long-axis cines with residual neural networks for assessment of right ventricular functionGonzales R, Lamy J, Thomas K, Zhang Q, Shanmuganathan M, Heiberg E, Ferreira V, Piechnik S, Peters D. TVnet: automated global analysis of tricuspid valve plane motion in CMR long-axis cines with residual neural networks for assessment of right ventricular function European Heart Journal - Cardiovascular Imaging 2022, 23 DOI: 10.1093/ehjci/jeac141.019.
Automated Measurements of Mitral and Tricuspid Annular Dimensions in Cardiovascular Magnetic ResonanceGonzales R, Lamy J, Seemann F, Heiberg E, Peters D. Automated Measurements of Mitral and Tricuspid Annular Dimensions in Cardiovascular Magnetic Resonance 2022, 00: 1-4. DOI: 10.1109/isbi52829.2022.9761595.
TVnet: Automated Time-Resolved Tracking of the Tricuspid Valve Plane in MRI Long-Axis Cine Images with a Dual-Stage Deep Learning PipelineGonzales R, Lamy J, Seemann F, Heiberg E, Onofrey J, Peters D. TVnet: Automated Time-Resolved Tracking of the Tricuspid Valve Plane in MRI Long-Axis Cine Images with a Dual-Stage Deep Learning Pipeline 2021, 12906: 567-576. DOI: 10.1007/978-3-030-87231-1_55.
Correction to: TVnet: Automated Time-Resolved Tracking of the Tricuspid Valve Plane in MRI Long-Axis Cine Images with a Dual-Stage Deep Learning PipelineGonzales R, Lamy J, Seemann F, Heiberg E, Onofrey J, Peters D. Correction to: TVnet: Automated Time-Resolved Tracking of the Tricuspid Valve Plane in MRI Long-Axis Cine Images with a Dual-Stage Deep Learning Pipeline 2021, 12906: c1-c1. DOI: 10.1007/978-3-030-87231-1_60.
57884 Fast strain-encoded cardiac magnetic resonance detects immune checkpoint inhibitor associated cardiotoxicityCuomo J, Ragheb E, Feher A, Kwan J, Huber S, Mojibian H, Peters D, Sinusas A, Baldassarre L. 57884 Fast strain-encoded cardiac magnetic resonance detects immune checkpoint inhibitor associated cardiotoxicity Journal Of Clinical And Translational Science 2021, 5: 141-142. PMCID: PMC8827987, DOI: 10.1017/cts.2021.761.
The Authors Reply:Bertelsen L, Diederichsen S, Haugan K, Brandes A, Graff C, Krieger D, Kronborg C, Køber L, Peters D, Olesen M, Højberg S, Vejlstrup N, Svendsen J. The Authors Reply: JACC Cardiovascular Imaging 2021, 14: 704-705. PMID: 33663771, DOI: 10.1016/j.jcmg.2020.12.032.
Left atrial late gadolinium enhancement is associated with atrial fibrillation as detected by continuous monitoringBertelsen L, Diederichsen S, Haugan K, Brandes A, Graff C, Krieger D, Kronborg C, Kober L, Peters D, Olesen M, Hojberg S, Vejlstrup N, Svendsen J. Left atrial late gadolinium enhancement is associated with atrial fibrillation as detected by continuous monitoring European Heart Journal 2020, 41 DOI: 10.1093/ehjci/ehaa946.0308.
FDG PET imaging of vascular inflammation in post-traumatic stress disorder: A pilot case–control studyToczek J, Hillmer AT, Han J, Liu C, Peters D, Emami H, Wu J, Esterlis I, Cosgrove KP, Sadeghi MM. FDG PET imaging of vascular inflammation in post-traumatic stress disorder: A pilot case–control study Journal Of Nuclear Cardiology 2019, 28: 688-694. PMID: 31073848, PMCID: PMC6842076, DOI: 10.1007/s12350-019-01724-w.
Dynamic‐flip‐angle ECG‐gating with nuisance signal regression improves resting‐state BOLD functional connectivity mapping by reducing cardiogenic noiseHu C, Tokoglu F, Scheinost D, Qiu M, Shen X, Peters DC, Galiana G, Constable RT. Dynamic‐flip‐angle ECG‐gating with nuisance signal regression improves resting‐state BOLD functional connectivity mapping by reducing cardiogenic noise Magnetic Resonance In Medicine 2019, 82: 911-923. PMID: 31016782, DOI: 10.1002/mrm.27775.
Left atrial fibrosis correlates with extent of left ventricular myocardial delayed enhancement and left ventricular strain in hypertrophic cardiomyopathyLatif SR, Nguyen VQ, Peters DC, Soufer A, Henry ML, Grunseich K, Testani J, Hur DJ, Huber S, Mojibian H, Dicks D, Sinusas AJ, Meadows JL, Papoutsidakis N, Jacoby D, Baldassarre LA. Left atrial fibrosis correlates with extent of left ventricular myocardial delayed enhancement and left ventricular strain in hypertrophic cardiomyopathy The International Journal Of Cardiovascular Imaging 2019, 35: 1309-1318. PMID: 30790116, DOI: 10.1007/s10554-019-01551-7.
SUPER: A blockwise curve‐fitting method for accelerating MR parametric mapping with fast reconstructionHu C, Peters DC. SUPER: A blockwise curve‐fitting method for accelerating MR parametric mapping with fast reconstruction Magnetic Resonance In Medicine 2019, 81: 3515-3529. PMID: 30656730, PMCID: PMC6435434, DOI: 10.1002/mrm.27662.
Prognostic and functional implications of left atrial late gadolinium enhancement cardiovascular magnetic resonanceQuail M, Grunseich K, Baldassarre LA, Mojibian H, Marieb MA, Cornfeld D, Soufer A, Sinusas AJ, Peters DC. Prognostic and functional implications of left atrial late gadolinium enhancement cardiovascular magnetic resonance Journal Of Cardiovascular Magnetic Resonance 2019, 21: 2. PMID: 30602395, PMCID: PMC6317232, DOI: 10.1186/s12968-018-0514-3.
1 Basic Principles of Cardiovascular Magnetic ResonanceBalaban R, Peters D. 1 Basic Principles of Cardiovascular Magnetic Resonance 2019, 1-14.e2. DOI: 10.1016/b978-0-323-41561-3.00001-x.
REPAIRit: Improving Myocardial Nulling and Ghosting Artifacts of 3D Navigator‐Gated Late Gadolinium Enhancement Imaging During ArrhythmiaHu C, Huber S, Latif SR, Santacana‐Laffitte G, Mojibian HR, Baldassarre LA, Peters DC. REPAIRit: Improving Myocardial Nulling and Ghosting Artifacts of 3D Navigator‐Gated Late Gadolinium Enhancement Imaging During Arrhythmia Journal Of Magnetic Resonance Imaging 2018, 49: 688-699. PMID: 30252987, DOI: 10.1002/jmri.26284.
Advanced Imaging of the Left Atrium with Cardiac Magnetic Resonance: A Review of Current and Emerging Methods and Clinical ApplicationsSoufer A, Peters D, Henry M, Baldassarre L. Advanced Imaging of the Left Atrium with Cardiac Magnetic Resonance: A Review of Current and Emerging Methods and Clinical Applications Current Radiology Reports 2018, 6: 44. DOI: 10.1007/s40134-018-0303-7.
Assessment of diastolic function and atrial remodeling by MRI – validation and correlation with echocardiography and filling pressureSeemann F, Baldassarre LA, Llanos‐Chea F, Gonzales RA, Grunseich K, Hu C, Sugeng L, Meadows J, Heiberg E, Peters DC. Assessment of diastolic function and atrial remodeling by MRI – validation and correlation with echocardiography and filling pressure Physiological Reports 2018, 6: e13828. PMID: 30187654, PMCID: PMC6125607, DOI: 10.14814/phy2.13828.
Diffusion Tensor CMR A Novel Approach for Evaluation of Myocardial Regeneration ∗Sinusas AJ, Peters DC. Diffusion Tensor CMR A Novel Approach for Evaluation of Myocardial Regeneration ∗ JACC Basic To Translational Science 2018, 3: 110-113. PMID: 30062197, PMCID: PMC6058948, DOI: 10.1016/j.jacbts.2018.01.008.
Reverse double inversion‐recovery: Improving motion robustness of cardiac T2‐weighted dark‐blood turbo spin‐echo sequenceHu C, Huber S, Latif SR, Santacana‐Laffitte G, Mojibian HR, Baldassarre LA, Peters DC. Reverse double inversion‐recovery: Improving motion robustness of cardiac T2‐weighted dark‐blood turbo spin‐echo sequence Journal Of Magnetic Resonance Imaging 2017, 47: 1498-1508. PMID: 29112315, PMCID: PMC6346424, DOI: 10.1002/jmri.25886.
T1-refBlochi: high resolution 3D post-contrast T1 myocardial mapping based on a single 3D late gadolinium enhancement volume, Bloch equations, and a reference T1Hu C, Sinusas AJ, Huber S, Thorn S, Stacy MR, Mojibian H, Peters DC. T1-refBlochi: high resolution 3D post-contrast T1 myocardial mapping based on a single 3D late gadolinium enhancement volume, Bloch equations, and a reference T1 Journal Of Cardiovascular Magnetic Resonance 2017, 19: 63. PMID: 28821300, PMCID: PMC5563030, DOI: 10.1186/s12968-017-0375-1.
An Efficient Reconstruction Algorithm Based on the Alternating Direction Method of Multipliers for Joint Estimation of ${R}_{{2}}^{*}$ and Off-Resonance in fMRIHu C, Reeves S, Peters D, Twieg D. An Efficient Reconstruction Algorithm Based on the Alternating Direction Method of Multipliers for Joint Estimation of ${R}_{{2}}^{*}$ and Off-Resonance in fMRI IEEE Transactions On Medical Imaging 2017, 36: 1326-1336. PMID: 28207389, DOI: 10.1109/tmi.2017.2667698.
Method of B0 mapping with magnitude‐based correction for bipolar two‐point Dixon cardiac MRILiu J, Peters DC, Drangova M. Method of B0 mapping with magnitude‐based correction for bipolar two‐point Dixon cardiac MRI Magnetic Resonance In Medicine 2016, 78: 1862-1869. PMID: 27933641, DOI: 10.1002/mrm.26569.
O-space with high resolution readouts outperforms radial imagingWang H, Tam L, Kopanoglu E, Peters DC, Constable RT, Galiana G. O-space with high resolution readouts outperforms radial imaging Magnetic Resonance Imaging 2016, 37: 107-115. PMID: 27876569, PMCID: PMC5316340, DOI: 10.1016/j.mri.2016.11.012.
CMR-Verified Lower LA Strain in the Presence of Regional Atrial Fibrosis in Atrial FibrillationPeters DC, Duncan JS, Grunseich K, Marieb MA, Cornfeld D, Sinusas AJ, Chelikani S. CMR-Verified Lower LA Strain in the Presence of Regional Atrial Fibrosis in Atrial Fibrillation JACC Cardiovascular Imaging 2016, 10: 207-208. PMID: 27085430, PMCID: PMC5600154, DOI: 10.1016/j.jcmg.2016.01.015.
Lower left atrial strain in the presence of regional atrial fibrosis: an MRI study of patients with atrial fibrillationPeters D, Duncan J, Grunseich K, Marieb M, Cornfeld D, Sinusas A, Chelikani S. Lower left atrial strain in the presence of regional atrial fibrosis: an MRI study of patients with atrial fibrillation Journal Of Cardiovascular Magnetic Resonance 2016, 18: p207. PMCID: PMC5032534, DOI: 10.1186/1532-429x-18-s1-p207.
Atrial fibrosis segmentation thresholds: a theoretical and empirical studyPeters D, Bertelsen L, Caroline I, Chelikani S. Atrial fibrosis segmentation thresholds: a theoretical and empirical study Journal Of Cardiovascular Magnetic Resonance 2016, 18: p209. PMCID: PMC5032378, DOI: 10.1186/1532-429x-18-s1-p209.
Experimental O‐space turbo spin echo imagingWang H, Tam L, Kopanoglu E, Peters DC, Constable RT, Galiana G. Experimental O‐space turbo spin echo imaging Magnetic Resonance In Medicine 2015, 75: 1654-1661. PMID: 25981343, PMCID: PMC4644719, DOI: 10.1002/mrm.25741.
Left atrial function after myocardial infarction in swinePeters D, Diaz E, Bregazi A, Thorn S, Stacy M, Hawley C, Sinusas A. Left atrial function after myocardial infarction in swine Journal Of Cardiovascular Magnetic Resonance 2015, 17: p142. PMCID: PMC4328575, DOI: 10.1186/1532-429x-17-s1-p142.
Left atrial late gadolinium enhancement and mitral regurgitation in subjects with atrial fibrillationGrunseich K, Peters D, Sinusas A, Mojibian H, Marieb M, Cornfeld D, Simprini L. Left atrial late gadolinium enhancement and mitral regurgitation in subjects with atrial fibrillation Journal Of Cardiovascular Magnetic Resonance 2015, 17: p358. PMCID: PMC4328568, DOI: 10.1186/1532-429x-17-s1-p358.
Towards high-resolution fat-suppressed T1-mapping of atrial fibrosis in the left atrium: a fit-free three-point methodPeters D, Thorn S, Bregazi A, Hawley C, Stacy M, Sinusas A. Towards high-resolution fat-suppressed T1-mapping of atrial fibrosis in the left atrium: a fit-free three-point method Journal Of Cardiovascular Magnetic Resonance 2015, 17: w17. PMCID: PMC4328894, DOI: 10.1186/1532-429x-17-s1-w17.
Left atrial volume, congestive heart failure, and obesity are associated with extent of left atrial fibrosis by late gadolinium enhancementGrunseich K, Mekonnen B, Simprini L, Mojibian H, Marieb M, Atteya G, Cornfeld D, Peters D. Left atrial volume, congestive heart failure, and obesity are associated with extent of left atrial fibrosis by late gadolinium enhancement Journal Of Cardiovascular Magnetic Resonance 2015, 17: p368. PMCID: PMC4328531, DOI: 10.1186/1532-429x-17-s1-p368.
Simulations for determining the optimal enhancement ratio threshold for segmentation of left atrial fibrosisPeters D, Bertelsen L. Simulations for determining the optimal enhancement ratio threshold for segmentation of left atrial fibrosis Journal Of Cardiovascular Magnetic Resonance 2015, 17: p60. PMCID: PMC4328462, DOI: 10.1186/1532-429x-17-s1-p60.
Cardiovascular Magnetic Resonance Imaging of Scar Development Following Pulmonary Vein Isolation: A Prospective StudyHsing J, Peters DC, Knowles BR, Manning WJ, Josephson ME. Cardiovascular Magnetic Resonance Imaging of Scar Development Following Pulmonary Vein Isolation: A Prospective Study PLOS ONE 2014, 9: e104844. PMID: 25251403, PMCID: PMC4174508, DOI: 10.1371/journal.pone.0104844.
Pseudo‐random center placement O‐space imaging for improved incoherence compressed sensing parallel MRITam LK, Galiana G, Stockmann JP, Tagare H, Peters DC, Constable RT. Pseudo‐random center placement O‐space imaging for improved incoherence compressed sensing parallel MRI Magnetic Resonance In Medicine 2014, 73: 2212-2224. PMID: 25042143, PMCID: PMC4297603, DOI: 10.1002/mrm.25364.
Algebraic reconstruction technique for parallel imaging reconstruction of undersampled radial data: Application to cardiac cineLi S, Chan C, Stockmann JP, Tagare H, Adluru G, Tam LK, Galiana G, Constable RT, Kozerke S, Peters DC. Algebraic reconstruction technique for parallel imaging reconstruction of undersampled radial data: Application to cardiac cine Magnetic Resonance In Medicine 2014, 73: 1643-1653. PMID: 24753213, PMCID: PMC4504217, DOI: 10.1002/mrm.25265.
Accelerate Data Acquisition using Turbo Spin Echo and O-SpaceWang H, Tam L, Kopanoglu E, Peters D, Constable R, Galiana G. Accelerate Data Acquisition using Turbo Spin Echo and O-Space 2014, 874-877. DOI: 10.1109/isbi.2014.6868010.
Multiecho acquisition of O‐space dataGaliana G, Peters D, Tam L, Constable RT. Multiecho acquisition of O‐space data Magnetic Resonance In Medicine 2014, 72: 1648-1657. PMID: 24459076, PMCID: PMC4108571, DOI: 10.1002/mrm.25085.
Comparison of electroanatomic voltage mapping with late gadolinium enhancement CMRPeters D, Manning W, Josephson M, Duncan J, Chelikani S. Comparison of electroanatomic voltage mapping with late gadolinium enhancement CMR Journal Of Cardiovascular Magnetic Resonance 2014, 16: p153. PMCID: PMC4045112, DOI: 10.1186/1532-429x-16-s1-p153.
Left atrial remodeling by MRI: comparison in patients with and without cardiovascular diseasePeters D, Mekonnen B, Mojibian H, Mareib M, Atteya G, Cornfeld D. Left atrial remodeling by MRI: comparison in patients with and without cardiovascular disease Journal Of Cardiovascular Magnetic Resonance 2014, 16: p152. PMCID: PMC4044568, DOI: 10.1186/1532-429x-16-s1-p152.
Evaluation of current algorithms for segmentation of scar tissue from late Gadolinium enhancement cardiovascular magnetic resonance of the left atrium: an open-access grand challengeKarim R, Housden RJ, Balasubramaniam M, Chen Z, Perry D, Uddin A, Al-Beyatti Y, Palkhi E, Acheampong P, Obom S, Hennemuth A, Lu Y, Bai W, Shi W, Gao Y, Peitgen HO, Radau P, Razavi R, Tannenbaum A, Rueckert D, Cates J, Schaeffter T, Peters D, MacLeod R, Rhode K. Evaluation of current algorithms for segmentation of scar tissue from late Gadolinium enhancement cardiovascular magnetic resonance of the left atrium: an open-access grand challenge Journal Of Cardiovascular Magnetic Resonance 2013, 15: 105. PMID: 24359544, PMCID: PMC3878126, DOI: 10.1186/1532-429x-15-105.
Left atrial late gadolinium enhancement with water–fat separation: The importance of phase‐encoding orderShaw JL, Knowles BR, Goldfarb JW, Manning WJ, Peters DC. Left atrial late gadolinium enhancement with water–fat separation: The importance of phase‐encoding order Journal Of Magnetic Resonance Imaging 2013, 40: 119-125. PMID: 24105717, PMCID: PMC5036388, DOI: 10.1002/jmri.24340.
Three‐dimensional late gadolinium‐enhanced mr imaging of the left atrium: A comparison of spiral versus Cartesian k‐space trajectoriesKnowles BR, Peters DC, Clough RE, Razavi R, Schaeffter T, Prieto C. Three‐dimensional late gadolinium‐enhanced mr imaging of the left atrium: A comparison of spiral versus Cartesian k‐space trajectories Journal Of Magnetic Resonance Imaging 2013, 39: 211-216. PMID: 24006356, DOI: 10.1002/jmri.24146.
Relationship of Ostial Pulmonary Vein Scar with Reduction in Pulmonary Vein Size after Radiofrequency Ablation for the Treatment of Atrial Fibrillation: An Observational Cohort Study.Hauser TH, Peters DC, Wylie MV, Lau C, Josephson ME, Manning WJ. Relationship of Ostial Pulmonary Vein Scar with Reduction in Pulmonary Vein Size after Radiofrequency Ablation for the Treatment of Atrial Fibrillation: An Observational Cohort Study. Journal Of Atrial Fibrillation 2013, 5: 788. PMID: 28496832, PMCID: PMC5153178, DOI: 10.4022/jafib.788.
Cardiac cine with ART for radial parallel imaging reconstructionLi S, Galiana G, Tam L, Kozerke S, Stockmann J, Constable R, Peters D. Cardiac cine with ART for radial parallel imaging reconstruction Journal Of Cardiovascular Magnetic Resonance 2013, 15: e34. PMCID: PMC3559413, DOI: 10.1186/1532-429x-15-s1-e34.
Aortic injury is common following pulmonary vein isolationTung P, Hong SN, Chan RH, Peters DC, Hauser TH, Manning WJ, Josephson ME. Aortic injury is common following pulmonary vein isolation Heart Rhythm 2013, 10: 653-658. PMID: 23318348, DOI: 10.1016/j.hrthm.2013.01.012.
Respiratory bellows‐gated late gadolinium enhancement of the left atriumPeters DC, Shaw JL, Knowles BR, Moghari MH, Manning WJ. Respiratory bellows‐gated late gadolinium enhancement of the left atrium Journal Of Magnetic Resonance Imaging 2012, 38: 1210-1214. PMID: 23197465, PMCID: PMC3812253, DOI: 10.1002/jmri.23954.
The role of nonlinear gradients in parallel imaging: A k‐space based analysisGaliana G, Stockmann JP, Tam L, Peters D, Tagare H, Constable RT. The role of nonlinear gradients in parallel imaging: A k‐space based analysis Concepts In Magnetic Resonance Part A 2012, 40A: 253-267. PMID: 26604857, PMCID: PMC4655121, DOI: 10.1002/cmr.a.21243.
Association of Left Atrial Fibrosis Detected by Delayed Enhancement Magnetic Resonance Imaging and Risk of Stroke in Patients with Atrial Fibrillation.Peters DC. Association of Left Atrial Fibrosis Detected by Delayed Enhancement Magnetic Resonance Imaging and Risk of Stroke in Patients with Atrial Fibrillation. Journal Of Atrial Fibrillation 2011, 4: 384. PMID: 28496697, PMCID: PMC5153052, DOI: 10.4022/jafib.384.
Pulmonary vein inflow artifact reduction for free‐breathing left atrium late gadolinium enhancementMoghari MH, Peters DC, Smink J, Goepfert L, Kissinger KV, Goddu B, Hauser TH, Josephson ME, Manning WJ, Nezafat R. Pulmonary vein inflow artifact reduction for free‐breathing left atrium late gadolinium enhancement Magnetic Resonance In Medicine 2011, 66: 180-186. PMID: 21360738, PMCID: PMC3120912, DOI: 10.1002/mrm.22769.
LGE of left atrial ablation lesions: effect of imaging time on lesion visualizationKnowles B, Hsing J, Manning W, Peters D. LGE of left atrial ablation lesions: effect of imaging time on lesion visualization Journal Of Cardiovascular Magnetic Resonance 2011, 13: p261. PMCID: PMC3106624, DOI: 10.1186/1532-429x-13-s1-p261.
Respiratory bellows-gated left atrial late gadolinium enhancementPeters D, Knowles B, Moghari M, Nezafat R, Manning W. Respiratory bellows-gated left atrial late gadolinium enhancement Journal Of Cardiovascular Magnetic Resonance 2011, 13: p262. PMCID: PMC3106634, DOI: 10.1186/1532-429x-13-s1-p262.
Transmurality mapping of left ventricular scar: impact of spatial resolutonPeters D, Liu F, Tan A, Knowles B, Duffy H, Wit A, Josephson M, Manning W. Transmurality mapping of left ventricular scar: impact of spatial resoluton Journal Of Cardiovascular Magnetic Resonance 2011, 13: p163. PMCID: PMC3106875, DOI: 10.1186/1532-429x-13-s1-p163.
Respiratory bellows revisited for motion compensation: Preliminary experience for cardiovascular MRSantelli C, Nezafat R, Goddu B, Manning WJ, Smink J, Kozerke S, Peters DC. Respiratory bellows revisited for motion compensation: Preliminary experience for cardiovascular MR Magnetic Resonance In Medicine 2010, 65: 1097-1102. PMID: 21413074, PMCID: PMC3126878, DOI: 10.1002/mrm.22687.
Hypertrophic Cardiomyopathy: Quantification of Late Gadolinium Enhancement with Contrast-enhanced Cardiovascular MR ImagingHarrigan CJ, Peters DC, Gibson CM, Maron BJ, Manning WJ, Maron MS, Appelbaum E. Hypertrophic Cardiomyopathy: Quantification of Late Gadolinium Enhancement with Contrast-enhanced Cardiovascular MR Imaging Radiology 2010, 258: 128-33. PMID: 21045187, DOI: 10.1148/radiol.10090526.
Noncontrast SSFP pulmonary vein magnetic resonance angiography: Impact of off‐resonance and flowHu P, Stoeck CT, Smink J, Peters DC, Ngo L, Goddu B, Kissinger KV, Goepfert LA, Chan J, Hauser TH, Rofsky NM, Manning WJ, Nezafat R. Noncontrast SSFP pulmonary vein magnetic resonance angiography: Impact of off‐resonance and flow Journal Of Magnetic Resonance Imaging 2010, 32: 1255-1261. PMID: 21031533, PMCID: PMC2975425, DOI: 10.1002/jmri.22356.
Optimization of on‐resonant magnetization transfer contrast in coronary vein MRIStoeck CT, Hu P, Peters DC, Kissinger KV, Goddu B, Goepfert L, Ngo L, Manning WJ, Kozerke S, Nezafat R. Optimization of on‐resonant magnetization transfer contrast in coronary vein MRI Magnetic Resonance In Medicine 2010, 64: 1849-1854. PMID: 20938974, PMCID: PMC2992077, DOI: 10.1002/mrm.22581.
Evaluation of Papillary Muscle Function Using Cardiovascular Magnetic Resonance Imaging in Mitral Valve ProlapseHan Y, Peters DC, Kissinger KV, Goddu B, Yeon SB, Manning WJ, Nezafat R. Evaluation of Papillary Muscle Function Using Cardiovascular Magnetic Resonance Imaging in Mitral Valve Prolapse The American Journal Of Cardiology 2010, 106: 243-248. PMID: 20599010, PMCID: PMC2929955, DOI: 10.1016/j.amjcard.2010.02.035.
Coronary MR Imaging: Effect of Timing and Dose of Isosorbide Dinitrate AdministrationHu P, Chuang ML, Ngo LH, Stoeck CT, Peters DC, Kissinger KV, Goddu B, Goepfert LA, Manning WJ, Nezafat R. Coronary MR Imaging: Effect of Timing and Dose of Isosorbide Dinitrate Administration Radiology 2010, 254: 401-9. PMID: 20093512, PMCID: PMC2809925, DOI: 10.1148/radiol.09090483.
Respiratory self-gated coronary MRI: A comparison between 2D spiral pencil beam and projection navigatorsMoghari M, Hu P, Peters D, Goddu B, Goepfert L, Kissinger K, Manning W, Nezafat R. Respiratory self-gated coronary MRI: A comparison between 2D spiral pencil beam and projection navigators Journal Of Cardiovascular Magnetic Resonance 2010, 12: p46. DOI: 10.1186/1532-429x-12-s1-p46.
Pulmonary vein and left atrial changes during the cardiac cycle, pre and post pulmonary vein isolationPeters D, Goldman A, Goddu B, Kissinger K, Manning W, Hauser T, Taclas J. Pulmonary vein and left atrial changes during the cardiac cycle, pre and post pulmonary vein isolation Journal Of Cardiovascular Magnetic Resonance 2010, 12: p142. DOI: 10.1186/1532-429x-12-s1-p142.
Circumferential myocardial strain in cardiomyopathy with and without left bundle branch blockHan Y, Chan J, Haber I, Peters DC, Zimetbaum PJ, Manning WJ, Yeon SB. Circumferential myocardial strain in cardiomyopathy with and without left bundle branch block Journal Of Cardiovascular Magnetic Resonance 2010, 12: 2. PMID: 20047696, PMCID: PMC2806866, DOI: 10.1186/1532-429x-12-2.
Late Gadolinium Enhancement of the Esophagus is Common on Cardiac MR Several Months after Pulmonary Vein Isolation: Preliminary ObservationsMENG J, PETERS DC, HSING JM, CHUANG ML, CHAN J, FISH A, JOSEPHSON ME, MANNING WJ. Late Gadolinium Enhancement of the Esophagus is Common on Cardiac MR Several Months after Pulmonary Vein Isolation: Preliminary Observations Pacing And Clinical Electrophysiology 2010, 33: 661-666. PMID: 20059713, DOI: 10.1111/j.1540-8159.2009.02671.x.
CHAPTER 1 Basic Principles of Cardiovascular Magnetic Resonance**Molarity of 1H can be estimated as approximately (2 moles hydrogen/mole H20) · (1mole H20/18 g tissue). 1000 g/L (density of the body) ~ 100 mole/L.Balaban R, Peters D. CHAPTER 1 Basic Principles of Cardiovascular Magnetic Resonance**Molarity of 1H can be estimated as approximately (2 moles hydrogen/mole H20) · (1mole H20/18 g tissue). 1000 g/L (density of the body) ~ 100 mole/L. 2010, 3-18. DOI: 10.1016/b978-0-443-06686-3.00001-1.
Relationship between intended sites of RF ablation and post-procedural scar in AF patients, using late gadolinium enhancement cardiovascular magnetic resonanceTaclas JE, Nezafat R, Wylie JV, Josephson ME, Hsing J, Manning WJ, Peters DC. Relationship between intended sites of RF ablation and post-procedural scar in AF patients, using late gadolinium enhancement cardiovascular magnetic resonance Heart Rhythm 2009, 7: 489-496. PMID: 20122877, PMCID: PMC2843771, DOI: 10.1016/j.hrthm.2009.12.007.
Shorter difference between myocardium and blood optimal inversion time suggests diffuse fibrosis in dilated cardiomyopathyHan Y, Peters DC, Dokhan B, Manning WJ. Shorter difference between myocardium and blood optimal inversion time suggests diffuse fibrosis in dilated cardiomyopathy Journal Of Magnetic Resonance Imaging 2009, 30: 967-972. PMID: 19856417, PMCID: PMC2862561, DOI: 10.1002/jmri.21953.
Left ventricular infarct size, peri‐infarct zone, and papillary scar measurements: A comparison of high‐resolution 3D and conventional 2D late gadolinium enhancement cardiac MRPeters DC, Appelbaum EA, Nezafat R, Dokhan B, Han Y, Kissinger KV, Goddu B, Manning WJ. Left ventricular infarct size, peri‐infarct zone, and papillary scar measurements: A comparison of high‐resolution 3D and conventional 2D late gadolinium enhancement cardiac MR Journal Of Magnetic Resonance Imaging 2009, 30: 794-800. PMID: 19787731, PMCID: PMC2981352, DOI: 10.1002/jmri.21897.
Association of Thrombolysis in Myocardial Infarction Myocardial Perfusion Grade with cardiovascular magnetic resonance measures of infarct architecture after primary percutaneous coronary intervention for ST-segment elevation myocardial infarctionAppelbaum E, Abraham JM, Pride YB, Harrigan CJ, Peters DC, Biller LH, Manning WJ, Gibson CM. Association of Thrombolysis in Myocardial Infarction Myocardial Perfusion Grade with cardiovascular magnetic resonance measures of infarct architecture after primary percutaneous coronary intervention for ST-segment elevation myocardial infarction American Heart Journal 2009, 158: 84-91. PMID: 19540396, DOI: 10.1016/j.ahj.2009.04.012.
Whole heart magnetization‐prepared steady‐state free precession coronary vein MRIStoeck CT, Han Y, Peters DC, Hu P, Yeon SB, Kissinger KV, Goddu B, Goepfert L, Manning WJ, Kozerke S, Nezafat R. Whole heart magnetization‐prepared steady‐state free precession coronary vein MRI Journal Of Magnetic Resonance Imaging 2009, 29: 1293-1299. PMID: 19472386, DOI: 10.1002/jmri.21788.
Recurrence of Atrial Fibrillation Correlates With the Extent of Post-Procedural Late Gadolinium Enhancement A Pilot StudyPeters DC, Wylie JV, Hauser TH, Nezafat R, Han Y, Woo JJ, Taclas J, Kissinger KV, Goddu B, Josephson ME, Manning WJ. Recurrence of Atrial Fibrillation Correlates With the Extent of Post-Procedural Late Gadolinium Enhancement A Pilot Study JACC Cardiovascular Imaging 2009, 2: 308-316. PMID: 19356576, PMCID: PMC2703450, DOI: 10.1016/j.jcmg.2008.10.016.
Left atrial fat with cardiac MRPeters D, Goldfarb J, Nezafat R, Parikh N, Chuang M, Manning W. Left atrial fat with cardiac MR Journal Of Cardiovascular Magnetic Resonance 2009, 11: p128. PMCID: PMC7860840, DOI: 10.1186/1532-429x-11-s1-p128.
Relationship of ostial pulmonary vein scar with reduction in pulmonary vein size after atrial fibrillation ablationHauser T, Peters D, Wylie J, Lau C, Josephson M, Manning W. Relationship of ostial pulmonary vein scar with reduction in pulmonary vein size after atrial fibrillation ablation Journal Of Cardiovascular Magnetic Resonance 2009, 11: o73. PMCID: PMC7860763, DOI: 10.1186/1532-429x-11-s1-o73.
Coronary MRI with induced vasodilation using isosorbide dinitrateHu P, Stoeck C, Peters D, Kissinger K, Goddu B, Goepfert L, Manning W, Nezafat R. Coronary MRI with induced vasodilation using isosorbide dinitrate Journal Of Cardiovascular Magnetic Resonance 2009, 11: p5. PMCID: PMC7860846, DOI: 10.1186/1532-429x-11-s1-p5.
Circumferential and radial myocardial strain in cardiomyopathy patients with and without left bundle branch blockHan Y, Chan J, Haber I, Peters D, Zimetbaum P, Manning W, Yeon S. Circumferential and radial myocardial strain in cardiomyopathy patients with and without left bundle branch block Journal Of Cardiovascular Magnetic Resonance 2009, 11: p14. PMCID: PMC7860903, DOI: 10.1186/1532-429x-11-s1-p14.
Evaluating the left atrium by magnetic resonance imagingHauser TH, Peters DC, Wylie JV, Manning WJ. Evaluating the left atrium by magnetic resonance imaging EP Europace 2008, 10: iii22-iii27. PMID: 18955395, PMCID: PMC2573030, DOI: 10.1093/europace/eun223.
Inflow quantification in three‐dimensional cardiovascular MR imagingNezafat R, Herzka D, Stehning C, Peters DC, Nehrke K, Manning WJ. Inflow quantification in three‐dimensional cardiovascular MR imaging Journal Of Magnetic Resonance Imaging 2008, 28: 1273-1279. PMID: 18972337, DOI: 10.1002/jmri.21493.
2100 Correlation of left atrial scar due to pulmonary vein ablation with recorded ablation sitesTaclas J, Wylie J, Nezafat R, Josephson M, Manning W, Peters D. 2100 Correlation of left atrial scar due to pulmonary vein ablation with recorded ablation sites Journal Of Cardiovascular Magnetic Resonance 2008, 10: a369. DOI: 10.1186/1532-429x-10-s1-a369.
2049 Improved detection of myocardial fibrosis using high-resolution, late gadolinium-enhanced cardiovascular magnetic resonance in patients with hypertrophic cardiomyopathyHarrigan C, Peters D, Maron M, Maron B, Gibson C, Manning W, Appelbaum E. 2049 Improved detection of myocardial fibrosis using high-resolution, late gadolinium-enhanced cardiovascular magnetic resonance in patients with hypertrophic cardiomyopathy Journal Of Cardiovascular Magnetic Resonance 2008, 10: a318. DOI: 10.1186/1532-429x-10-s1-a318.
2D free‐breathing dual navigator‐gated cardiac function validated against the 2D breath‐hold acquisitionPeters DC, Nezafat R, Eggers H, Stehning C, Manning WJ. 2D free‐breathing dual navigator‐gated cardiac function validated against the 2D breath‐hold acquisition Journal Of Magnetic Resonance Imaging 2008, 28: 773-777. PMID: 18777547, PMCID: PMC2562245, DOI: 10.1002/jmri.21417.
Cardiovascular Magnetic Resonance Characterization of Mitral Valve ProlapseHan Y, Peters DC, Salton CJ, Bzymek D, Nezafat R, Goddu B, Kissinger KV, Zimetbaum PJ, Manning WJ, Yeon SB. Cardiovascular Magnetic Resonance Characterization of Mitral Valve Prolapse JACC Cardiovascular Imaging 2008, 1: 294-303. PMID: 19356441, DOI: 10.1016/j.jcmg.2008.01.013.
Left atrial function and scar after catheter ablation of atrial fibrillationWylie JV, Peters DC, Essebag V, Manning WJ, Josephson ME, Hauser TH. Left atrial function and scar after catheter ablation of atrial fibrillation Heart Rhythm 2008, 5: 656-662. PMID: 18452866, DOI: 10.1016/j.hrthm.2008.02.008.
Coronary magnetic resonance vein imaging: Imaging contrast, sequence, and timingNezafat R, Han Y, Peters DC, Herzka DA, Wylie JV, Goddu B, Kissinger KK, Yeon SB, Zimetbaum PJ, Manning WJ. Coronary magnetic resonance vein imaging: Imaging contrast, sequence, and timing Magnetic Resonance In Medicine 2007, 58: 1196-1206. PMID: 17969081, DOI: 10.1002/mrm.21395.
Delayed-Enhancement Cardiovascular Magnetic Resonance Coronary Artery Wall Imaging Comparison With Multislice Computed Tomography and Quantitative Coronary AngiographyYeon SB, Sabir A, Clouse M, Martinezclark PO, Peters DC, Hauser TH, Gibson CM, Nezafat R, Maintz D, Manning WJ, Botnar RM. Delayed-Enhancement Cardiovascular Magnetic Resonance Coronary Artery Wall Imaging Comparison With Multislice Computed Tomography and Quantitative Coronary Angiography Journal Of The American College Of Cardiology 2007, 50: 441-447. PMID: 17662397, DOI: 10.1016/j.jacc.2007.03.052.
Detection of Pulmonary Vein and Left Atrial Scar after Catheter Ablation with Three-dimensional Navigator-gated Delayed Enhancement MR Imaging: Initial ExperiencePeters DC, Wylie JV, Hauser TH, Kissinger KV, Botnar RM, Essebag V, Josephson ME, Manning WJ. Detection of Pulmonary Vein and Left Atrial Scar after Catheter Ablation with Three-dimensional Navigator-gated Delayed Enhancement MR Imaging: Initial Experience Radiology 2007, 243: 690-5. PMID: 17517928, DOI: 10.1148/radiol.2433060417.
Inversion recovery radial MRI with interleaved projection setsPeters DC, Botnar RM, Kissinger KV, Yeon SB, Appelbaum EA, Manning WJ. Inversion recovery radial MRI with interleaved projection sets Magnetic Resonance In Medicine 2006, 55: 1150-1156. PMID: 16598720, DOI: 10.1002/mrm.20865.
Characterizing radial undersampling artifacts for cardiac applicationsPeters DC, Rohatgi P, Botnar RM, Yeon SB, Kissinger KV, Manning WJ. Characterizing radial undersampling artifacts for cardiac applications Magnetic Resonance In Medicine 2006, 55: 396-403. PMID: 16408266, DOI: 10.1002/mrm.20782.
Real-Time Magnetic Resonance-Guided Endovascular Repair of Experimental Abdominal Aortic Aneurysm in SwineRaman VK, Karmarkar PV, Guttman MA, Dick AJ, Peters DC, Ozturk C, Pessanha BS, Thompson RB, Raval AN, DeSilva R, Aviles RJ, Atalar E, McVeigh ER, Lederman RJ. Real-Time Magnetic Resonance-Guided Endovascular Repair of Experimental Abdominal Aortic Aneurysm in Swine Journal Of The American College Of Cardiology 2005, 45: 2069-2077. PMID: 15963411, PMCID: PMC1317097, DOI: 10.1016/j.jacc.2005.03.029.
Pulmonary vein imaging: comparison of 3D magnetic resonance angiography with 2D cine MRI for characterizing anatomy and size.Syed MA, Peters DC, Rashid H, Arai AE. Pulmonary vein imaging: comparison of 3D magnetic resonance angiography with 2D cine MRI for characterizing anatomy and size. Journal Of Cardiovascular Magnetic Resonance 2005, 7: 355-60. PMID: 15881514, DOI: 10.1081/jcmr-200053458.
Invasive human magnetic resonance imaging: Feasibility during revascularization in a combined XMR suiteDick AJ, Raman VK, Raval AN, Guttman MA, Thompson RB, Ozturk C, Peters DC, Stine AM, Wright VJ, Schenke WH, Lederman RJ. Invasive human magnetic resonance imaging: Feasibility during revascularization in a combined XMR suite Catheterization And Cardiovascular Interventions 2005, 64: 265-274. PMID: 15736247, PMCID: PMC1317610, DOI: 10.1002/ccd.20302.
3D breath‐held cardiac function with projection reconstruction in steady state free precession validated using 2D cine MRIPeters DC, Ennis DB, Rohatgi P, Syed MA, McVeigh ER, Arai AE. 3D breath‐held cardiac function with projection reconstruction in steady state free precession validated using 2D cine MRI Journal Of Magnetic Resonance Imaging 2004, 20: 411-416. PMID: 15332248, PMCID: PMC2396304, DOI: 10.1002/jmri.20145.
Reduced field of view and undersampled PR combined for interventional imaging of a fully dynamic field of viewPeters DC, Guttman MA, Dick AJ, Raman VK, Lederman RJ, McVeigh ER. Reduced field of view and undersampled PR combined for interventional imaging of a fully dynamic field of view Magnetic Resonance In Medicine 2004, 51: 761-767. PMID: 15065249, PMCID: PMC2034278, DOI: 10.1002/mrm.20037.
Magnetic Resonance Fluoroscopy Allows Targeted Delivery of Mesenchymal Stem Cells to Infarct Borders in SwineDick AJ, Guttman MA, Raman VK, Peters DC, Pessanha BS, Hill JM, Smith S, Scott G, McVeigh ER, Lederman RJ. Magnetic Resonance Fluoroscopy Allows Targeted Delivery of Mesenchymal Stem Cells to Infarct Borders in Swine Circulation 2003, 108: 2899-2904. PMID: 14656911, PMCID: PMC1325104, DOI: 10.1161/01.cir.0000095790.28368.f9.
Centering the projection reconstruction trajectory: Reducing gradient delay errorsPeters DC, Derbyshire JA, McVeigh ER. Centering the projection reconstruction trajectory: Reducing gradient delay errors Magnetic Resonance In Medicine 2003, 50: 1-6. PMID: 12815671, PMCID: PMC2034322, DOI: 10.1002/mrm.10501.
Undersampled projection reconstruction for active catheter imaging with adaptable temporal resolution and catheter‐only viewsPeters DC, Lederman RJ, Dick AJ, Raman VK, Guttman MA, Derbyshire JA, McVeigh ER. Undersampled projection reconstruction for active catheter imaging with adaptable temporal resolution and catheter‐only views Magnetic Resonance In Medicine 2003, 49: 216-222. PMID: 12541240, PMCID: PMC2396305, DOI: 10.1002/mrm.10390.
High‐resolution MRI of cardiac function with projection reconstruction and steady‐state free precessionPeters DC, Ennis DB, McVeigh ER. High‐resolution MRI of cardiac function with projection reconstruction and steady‐state free precession Magnetic Resonance In Medicine 2002, 48: 82-88. PMID: 12111934, PMCID: PMC2396263, DOI: 10.1002/mrm.10193.
Catheter-Based Endomyocardial Injection With Real-Time Magnetic Resonance ImagingLederman RJ, Guttman MA, Peters DC, Thompson RB, Sorger JM, Dick AJ, Raman VK, McVeigh ER. Catheter-Based Endomyocardial Injection With Real-Time Magnetic Resonance Imaging Circulation 2002, 105: 1282-1284. PMID: 11901036, PMCID: PMC1317571, DOI: 10.1161/circ.105.11.1282.
Multislice first‐pass cardiac perfusion MRI: Validation in a model of myocardial infarction†Epstein FH, London JF, Peters DC, Goncalves LM, Agyeman K, Taylor J, Balaban RS, Arai AE. Multislice first‐pass cardiac perfusion MRI: Validation in a model of myocardial infarction† Magnetic Resonance In Medicine 2002, 47: 482-491. PMID: 11870835, DOI: 10.1002/mrm.10085.

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Dana Peters, PhD

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