Accelerating interventional real-time MRI

Pim Timon Samuel Borman

Accelerating interventional real-time MRI

Pim Timon Samuel Borman

Department of Radiotherapy

Research output: Thesis › Doctoral thesis 1 (Research UU / Graduation UU)

Abstract

This thesis investigates novel MRI techniques which are aimed at improving the use of MRI for treatment guidance during HIFU and radiotherapy treatments. To guide these treatments effectively, the MRI scans should encompass a large spatial coverage and have a high imaging frame rate such that motion can be compensated for. The first part of the thesis focuses on SMS MRI, a technique where multiple slices are imaged simultaneously. This is evaluated for temperature mapping during HIFU and for motion compensation during radiotherapy treatments. The second part focuses on a latency analysis of various MRI sequences. Minimizing the MRI latency is important when MRI is used as input for a real-time feedback loop, automatically adjusting the treatment based on the most current state of the anatomy.

Original language	English
Awarding Institution	University Medical Center (UMC) Utrecht
Supervisors/Advisors	Raaymakers, Bas, Primary supervisor Moonen, Chrit, Supervisor Bos, Clemens, Supervisor Tijssen, H.N., Co-supervisor
Award date	7 Nov 2019
Place of Publication	[Utrecht]
Publisher	Utrecht University
Print ISBNs	9789039371824
Publication status	Published - 7 Nov 2019

Keywords

MRI
MR-Linac
HIFU
real-time; latency
SMS
interventional

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abstract = "This thesis investigates novel MRI techniques which are aimed at improving the use of MRI for treatment guidance during HIFU and radiotherapy treatments. To guide these treatments effectively, the MRI scans should encompass a large spatial coverage and have a high imaging frame rate such that motion can be compensated for. The first part of the thesis focuses on SMS MRI, a technique where multiple slices are imaged simultaneously. This is evaluated for temperature mapping during HIFU and for motion compensation during radiotherapy treatments. The second part focuses on a latency analysis of various MRI sequences. Minimizing the MRI latency is important when MRI is used as input for a real-time feedback loop, automatically adjusting the treatment based on the most current state of the anatomy.",

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N2 - This thesis investigates novel MRI techniques which are aimed at improving the use of MRI for treatment guidance during HIFU and radiotherapy treatments. To guide these treatments effectively, the MRI scans should encompass a large spatial coverage and have a high imaging frame rate such that motion can be compensated for. The first part of the thesis focuses on SMS MRI, a technique where multiple slices are imaged simultaneously. This is evaluated for temperature mapping during HIFU and for motion compensation during radiotherapy treatments. The second part focuses on a latency analysis of various MRI sequences. Minimizing the MRI latency is important when MRI is used as input for a real-time feedback loop, automatically adjusting the treatment based on the most current state of the anatomy.

AB - This thesis investigates novel MRI techniques which are aimed at improving the use of MRI for treatment guidance during HIFU and radiotherapy treatments. To guide these treatments effectively, the MRI scans should encompass a large spatial coverage and have a high imaging frame rate such that motion can be compensated for. The first part of the thesis focuses on SMS MRI, a technique where multiple slices are imaged simultaneously. This is evaluated for temperature mapping during HIFU and for motion compensation during radiotherapy treatments. The second part focuses on a latency analysis of various MRI sequences. Minimizing the MRI latency is important when MRI is used as input for a real-time feedback loop, automatically adjusting the treatment based on the most current state of the anatomy.

KW - MRI

KW - MR-Linac

KW - HIFU

KW - real-time; latency

KW - SMS

KW - interventional

M3 - Doctoral thesis 1 (Research UU / Graduation UU)

SN - 9789039371824

PB - Utrecht University

CY - [Utrecht]

ER -

Accelerating interventional real-time MRI

Abstract

Keywords

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