An 8-channel Tx/Rx dipole array combined with 16 Rx loops for high-resolution functional cardiac imaging at 7 T

Bart R Steensma; Ingmar J Voogt; Tim Leiner; Peter R Luijten; Jesse Habets; DWJ Klomp; Cornelis A T van den Berg; AJE Raaijmakers

doi:10.1007/s10334-017-0665-5

An 8-channel Tx/Rx dipole array combined with 16 Rx loops for high-resolution functional cardiac imaging at 7 T

Bart R Steensma, Ingmar J Voogt, Tim Leiner, Peter R Luijten, Jesse Habets, DWJ Klomp, Cornelis A T van den Berg, AJE Raaijmakers

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

OBJECTIVE: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 transmit/receive dipole antennas and 16 receive loops.

MATERIALS AND METHODS: An 8-channel dipole array was extended by adding 16 receive-only loops. Average power constraints were determined by electromagnetic simulations. Cine imaging was performed on eight healthy subjects. Geometrical factor (g-factor) maps were calculated to assess acceleration performance. Signal-to-noise ratio (SNR)-scaled images were reconstructed for different combinations of receive channels, to demonstrate the SNR benefits of combining loops and dipoles.

RESULTS: The overall image quality of the cardiac functional images was rated a 2.6 on a 4-point scale by two experienced radiologists. Imaging results at different acceleration factors demonstrate that acceleration factors up to 6 could be obtained while keeping the average g-factor below 1.27. SNR maps demonstrate that combining loops and dipoles provides a more than 50% enhancement of the SNR in the heart, compared to a situation where only loops or dipoles are used.

CONCLUSION: This work demonstrates the performance of a combined loop/dipole array for cardiac imaging at 7 T. With this array, acceleration factors of 6 are possible without increasing the average g-factor in the heart beyond 1.27. Combining loops and dipoles in receive mode enhances the SNR compared to receiving with loops or dipoles only.

Original language	English
Pages (from-to)	7-18
Number of pages	12
Journal	Magma - Magnetic Resonance Materials In Physics Biology And Medicine
Volume	31
Issue number	1
DOIs	https://doi.org/10.1007/s10334-017-0665-5
Publication status	Published - Feb 2018

Keywords

Ultrahigh field
Dipole antennas
RF coil arrays
Cardiac imaging
Image Enhancement
Humans
Signal-To-Noise Ratio
Male
Healthy Volunteers
Magnetic Resonance Imaging, Cine/instrumentation
Equipment Design
Young Adult
Heart/diagnostic imaging
Cardiac Imaging Techniques/instrumentation
Electromagnetic Phenomena
Computer Simulation
Magnetic Resonance Imaging/instrumentation
Adult
Female
Phantoms, Imaging

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Steensma, B. R., Voogt, I. J., Leiner, T., Luijten, P. R., Habets, J., Klomp, DWJ., van den Berg, C. A. T., & Raaijmakers, AJE. (2018). An 8-channel Tx/Rx dipole array combined with 16 Rx loops for high-resolution functional cardiac imaging at 7 T. Magma - Magnetic Resonance Materials In Physics Biology And Medicine, 31(1), 7-18. https://doi.org/10.1007/s10334-017-0665-5

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title = "An 8-channel Tx/Rx dipole array combined with 16 Rx loops for high-resolution functional cardiac imaging at 7 T",

abstract = "OBJECTIVE: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 transmit/receive dipole antennas and 16 receive loops.MATERIALS AND METHODS: An 8-channel dipole array was extended by adding 16 receive-only loops. Average power constraints were determined by electromagnetic simulations. Cine imaging was performed on eight healthy subjects. Geometrical factor (g-factor) maps were calculated to assess acceleration performance. Signal-to-noise ratio (SNR)-scaled images were reconstructed for different combinations of receive channels, to demonstrate the SNR benefits of combining loops and dipoles.RESULTS: The overall image quality of the cardiac functional images was rated a 2.6 on a 4-point scale by two experienced radiologists. Imaging results at different acceleration factors demonstrate that acceleration factors up to 6 could be obtained while keeping the average g-factor below 1.27. SNR maps demonstrate that combining loops and dipoles provides a more than 50% enhancement of the SNR in the heart, compared to a situation where only loops or dipoles are used.CONCLUSION: This work demonstrates the performance of a combined loop/dipole array for cardiac imaging at 7 T. With this array, acceleration factors of 6 are possible without increasing the average g-factor in the heart beyond 1.27. Combining loops and dipoles in receive mode enhances the SNR compared to receiving with loops or dipoles only.",

keywords = "Ultrahigh field, Dipole antennas, RF coil arrays, Cardiac imaging, Image Enhancement, Humans, Signal-To-Noise Ratio, Male, Healthy Volunteers, Magnetic Resonance Imaging, Cine/instrumentation, Equipment Design, Young Adult, Heart/diagnostic imaging, Cardiac Imaging Techniques/instrumentation, Electromagnetic Phenomena, Computer Simulation, Magnetic Resonance Imaging/instrumentation, Adult, Female, Phantoms, Imaging",

author = "Steensma, {Bart R} and Voogt, {Ingmar J} and Tim Leiner and Luijten, {Peter R} and Jesse Habets and DWJ Klomp and {van den Berg}, {Cornelis A T} and AJE Raaijmakers",

year = "2018",

month = feb,

doi = "10.1007/s10334-017-0665-5",

language = "English",

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AU - Steensma, Bart R

AU - Voogt, Ingmar J

AU - Leiner, Tim

AU - Luijten, Peter R

AU - Habets, Jesse

AU - Klomp, DWJ

AU - van den Berg, Cornelis A T

AU - Raaijmakers, AJE

PY - 2018/2

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N2 - OBJECTIVE: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 transmit/receive dipole antennas and 16 receive loops.MATERIALS AND METHODS: An 8-channel dipole array was extended by adding 16 receive-only loops. Average power constraints were determined by electromagnetic simulations. Cine imaging was performed on eight healthy subjects. Geometrical factor (g-factor) maps were calculated to assess acceleration performance. Signal-to-noise ratio (SNR)-scaled images were reconstructed for different combinations of receive channels, to demonstrate the SNR benefits of combining loops and dipoles.RESULTS: The overall image quality of the cardiac functional images was rated a 2.6 on a 4-point scale by two experienced radiologists. Imaging results at different acceleration factors demonstrate that acceleration factors up to 6 could be obtained while keeping the average g-factor below 1.27. SNR maps demonstrate that combining loops and dipoles provides a more than 50% enhancement of the SNR in the heart, compared to a situation where only loops or dipoles are used.CONCLUSION: This work demonstrates the performance of a combined loop/dipole array for cardiac imaging at 7 T. With this array, acceleration factors of 6 are possible without increasing the average g-factor in the heart beyond 1.27. Combining loops and dipoles in receive mode enhances the SNR compared to receiving with loops or dipoles only.

AB - OBJECTIVE: To demonstrate imaging performance for cardiac MR imaging at 7 T using a coil array of 8 transmit/receive dipole antennas and 16 receive loops.MATERIALS AND METHODS: An 8-channel dipole array was extended by adding 16 receive-only loops. Average power constraints were determined by electromagnetic simulations. Cine imaging was performed on eight healthy subjects. Geometrical factor (g-factor) maps were calculated to assess acceleration performance. Signal-to-noise ratio (SNR)-scaled images were reconstructed for different combinations of receive channels, to demonstrate the SNR benefits of combining loops and dipoles.RESULTS: The overall image quality of the cardiac functional images was rated a 2.6 on a 4-point scale by two experienced radiologists. Imaging results at different acceleration factors demonstrate that acceleration factors up to 6 could be obtained while keeping the average g-factor below 1.27. SNR maps demonstrate that combining loops and dipoles provides a more than 50% enhancement of the SNR in the heart, compared to a situation where only loops or dipoles are used.CONCLUSION: This work demonstrates the performance of a combined loop/dipole array for cardiac imaging at 7 T. With this array, acceleration factors of 6 are possible without increasing the average g-factor in the heart beyond 1.27. Combining loops and dipoles in receive mode enhances the SNR compared to receiving with loops or dipoles only.

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KW - Phantoms, Imaging

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JO - Magma - Magnetic Resonance Materials In Physics Biology And Medicine

JF - Magma - Magnetic Resonance Materials In Physics Biology And Medicine

IS - 1

ER -

An 8-channel Tx/Rx dipole array combined with 16 Rx loops for high-resolution functional cardiac imaging at 7 T

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