Simultaneous multislice refocusing via time optimal control

Armin Rund; Christoph Stefan Aigner; Karl Kunisch; Rudolf Stollberger

doi:10.1002/mrm.27124

Simultaneous multislice refocusing via time optimal control

Armin Rund, Christoph Stefan Aigner, Karl Kunisch, Rudolf Stollberger

Institute of Biomedical Imaging (7170)

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

PURPOSE: Joint design of minimum duration RF pulses and slice-selective gradient shapes for MRI via time optimal control with strict physical constraints, and its application to simultaneous multislice imaging.

THEORY AND METHODS: The minimization of the pulse duration is cast as a time optimal control problem with inequality constraints describing the refocusing quality and physical constraints. It is solved with a bilevel method, where the pulse length is minimized in the upper level, and the constraints are satisfied in the lower level. To address the inherent nonconvexity of the optimization problem, the upper level is enhanced with new heuristics for finding a near global optimizer based on a second optimization problem.

RESULTS: A large set of optimized examples shows an average temporal reduction of 87.1% for double diffusion and 74% for turbo spin echo pulses compared to power independent number of slices pulses. The optimized results are validated on a 3T scanner with phantom measurements.

CONCLUSION: The presented design method computes minimum duration RF pulse and slice-selective gradient shapes subject to physical constraints. The shorter pulse duration can be used to decrease the effective echo time in existing echo-planar imaging or echo spacing in turbo spin echo sequences.

Originalsprache	englisch
Seiten (von - bis)	1416-1428
Fachzeitschrift	Magnetic Resonance in Medicine
Jahrgang	80
Ausgabenummer	4
DOIs	https://doi.org/10.1002/mrm.27124
Publikationsstatus	Veröffentlicht - Okt. 2018

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MRi
Biomedical Engineering

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10.1002/mrm.27124

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title = "Simultaneous multislice refocusing via time optimal control",

abstract = "PURPOSE: Joint design of minimum duration RF pulses and slice-selective gradient shapes for MRI via time optimal control with strict physical constraints, and its application to simultaneous multislice imaging.THEORY AND METHODS: The minimization of the pulse duration is cast as a time optimal control problem with inequality constraints describing the refocusing quality and physical constraints. It is solved with a bilevel method, where the pulse length is minimized in the upper level, and the constraints are satisfied in the lower level. To address the inherent nonconvexity of the optimization problem, the upper level is enhanced with new heuristics for finding a near global optimizer based on a second optimization problem.RESULTS: A large set of optimized examples shows an average temporal reduction of 87.1% for double diffusion and 74% for turbo spin echo pulses compared to power independent number of slices pulses. The optimized results are validated on a 3T scanner with phantom measurements.CONCLUSION: The presented design method computes minimum duration RF pulse and slice-selective gradient shapes subject to physical constraints. The shorter pulse duration can be used to decrease the effective echo time in existing echo-planar imaging or echo spacing in turbo spin echo sequences.",

keywords = "Journal Article, MRi, Biomedical Engineering",

author = "Armin Rund and Aigner, {Christoph Stefan} and Karl Kunisch and Rudolf Stollberger",

note = "{\textcopyright} 2018 International Society for Magnetic Resonance in Medicine.",

year = "2018",

month = oct,

doi = "10.1002/mrm.27124",

language = "English",

volume = "80",

pages = "1416--1428",

journal = "Magnetic Resonance in Medicine",

issn = "0740-3194",

publisher = "John Wiley and Sons Inc.",

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T1 - Simultaneous multislice refocusing via time optimal control

AU - Rund, Armin

AU - Aigner, Christoph Stefan

AU - Kunisch, Karl

AU - Stollberger, Rudolf

PY - 2018/10

Y1 - 2018/10

N2 - PURPOSE: Joint design of minimum duration RF pulses and slice-selective gradient shapes for MRI via time optimal control with strict physical constraints, and its application to simultaneous multislice imaging.THEORY AND METHODS: The minimization of the pulse duration is cast as a time optimal control problem with inequality constraints describing the refocusing quality and physical constraints. It is solved with a bilevel method, where the pulse length is minimized in the upper level, and the constraints are satisfied in the lower level. To address the inherent nonconvexity of the optimization problem, the upper level is enhanced with new heuristics for finding a near global optimizer based on a second optimization problem.RESULTS: A large set of optimized examples shows an average temporal reduction of 87.1% for double diffusion and 74% for turbo spin echo pulses compared to power independent number of slices pulses. The optimized results are validated on a 3T scanner with phantom measurements.CONCLUSION: The presented design method computes minimum duration RF pulse and slice-selective gradient shapes subject to physical constraints. The shorter pulse duration can be used to decrease the effective echo time in existing echo-planar imaging or echo spacing in turbo spin echo sequences.

AB - PURPOSE: Joint design of minimum duration RF pulses and slice-selective gradient shapes for MRI via time optimal control with strict physical constraints, and its application to simultaneous multislice imaging.THEORY AND METHODS: The minimization of the pulse duration is cast as a time optimal control problem with inequality constraints describing the refocusing quality and physical constraints. It is solved with a bilevel method, where the pulse length is minimized in the upper level, and the constraints are satisfied in the lower level. To address the inherent nonconvexity of the optimization problem, the upper level is enhanced with new heuristics for finding a near global optimizer based on a second optimization problem.RESULTS: A large set of optimized examples shows an average temporal reduction of 87.1% for double diffusion and 74% for turbo spin echo pulses compared to power independent number of slices pulses. The optimized results are validated on a 3T scanner with phantom measurements.CONCLUSION: The presented design method computes minimum duration RF pulse and slice-selective gradient shapes subject to physical constraints. The shorter pulse duration can be used to decrease the effective echo time in existing echo-planar imaging or echo spacing in turbo spin echo sequences.

KW - Journal Article

KW - MRi

KW - Biomedical Engineering

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DO - 10.1002/mrm.27124

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JO - Magnetic Resonance in Medicine

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Simultaneous multislice refocusing via time optimal control

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