Publication

Continuous Rapid Quantification of Stroke Volume Using Magnetohydrodynamic Voltages in 3T Magnetic Resonance Imaging

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Last modified
  • 02/25/2025
Type of Material
Authors
    T. Stan Gregory, University of GeorgiaJohn Oshinski, Emory UniversityEhud J. Schmidt, Brigham and Women’s HospitalRaymond Y. Kwong, Brigham and Women’s HospitalWilliam G. Stevenson, Brigham and Women’s HospitalZion Tsz Ho Tse, University of Georgia
Language
  • English
Date
  • 2015-12-01
Publisher
  • American Heart Association
Publication Version
Copyright Statement
  • © 2015 American Heart Association, Inc.
Final Published Version (URL)
Title of Journal or Parent Work
ISSN
  • 1941-9651
Volume
  • 8
Issue
  • 12
Grant/Funding Information
  • NIH R03 EB013873-01A1
Supplemental Material (URL)
Abstract
  • Background: To develop a technique to non-invasively estimate Stroke Volume (SV) in real-time during Magnetic Resonance Imaging (MRI) guided procedures, based on induced Magnetohydrodynamic Voltages (VMHD) that occur in Electrocardiogram (ECG) recordings during MRI exams, leaving the MRI scanner free to perform other imaging tasks. Due to the relationship between blood-flow (BF) and VMHD, we hypothesized that a method to obtain SV could be derived from extracted VMHD vectors in the Vectorcardiogram frame-of-reference (VMHDVCG). Methods and Results: To estimate a subject-specific BF-VMHD model, VMHDVCG was acquired during a 20-second breath-hold and calibrated versus aortic BF measured using Phase Contrast Magnetic Resonance (PCMR) in 10 subjects (n=10) and one subject diagnosed with Premature Ventricular Contractions (PVCs). Beat-to-Beat validation of VMHDVCG derived BF was performed using Real-Time Phase Contrast (RTPC) imaging in 7 healthy subjects (n=7) during a 15 minute cardiac exercise stress tests and 30 minutes after stress relaxation in 3T MRIs. Subject-specific equations were derived to correlate VMHDVCG to BF at rest, and validated using RTPC. An average error of 7.22% and 3.69% in SV estimation, respectively, was found during peak stress, and after complete relaxation. Measured beat-to-beat blood flow time-history derived from RTPC and VMHD were highly correlated using a Spearman Rank Correlation Coefficient during stress tests (0.89) and after stress relaxation (=0.86). Conclusions: Accurate beat-to-beat SV and BF were estimated using VMHDVCG extracted from intra-MRI 12-lead ECGs, providing a means to enhance patient monitoring during MR imaging and MR-guided interventions.
Author Notes
  • Correspondence to Zion Tsz Ho Tse, ziontse@uga.edu, The University of Georgia, College of Engineering, 597 D.W. Brooks Drive, Athens, GA 30602, Telephone: 706-542-4189, Fax: 706-542-8806.
Keywords
Research Categories
  • Health Sciences, Radiology
  • Engineering, Biomedical

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