List-Mode PET Motion Correction Using Markerless Head Tracking: Proof-of-Concept With Scans of Human Subject

Oline Vinter Olesen; Jenna M Sullivan; Tim Mulnix; Rasmus Reinhold Paulsen; Liselotte Højgaard; Bjarne Roed; Richard E Carson; Evan D Morris; Rasmus Larsen

doi:10.1109/tmi.2012.2219693

List-Mode PET Motion Correction Using Markerless Head Tracking: Proof-of-Concept With Scans of Human Subject

Oline Vinter Olesen, Jenna M Sullivan, Tim Mulnix, Rasmus Reinhold Paulsen, Liselotte Højgaard, Bjarne Roed, Richard E Carson, Evan D Morris, Rasmus Larsen

Institut for Klinisk Medicin

34 Citationer (Scopus)

Abstract

A custom designed markerless tracking system was demonstrated to be applicable for positron emission tomography (PET) brain imaging. Precise head motion registration is crucial for accurate motion correction (MC) in PET imaging. State-of-the-art tracking systems applied with PET brain imaging rely on markers attached to the patient's head. The marker attachment is the main weakness of these systems. A healthy volunteer participating in a cigarette smoking study to image dopamine release was scanned twice for 2 h with $^{11}{\rm C}$-racolopride on the high resolution research tomograph (HRRT) PET scanner. Head motion was independently measured, with a commercial marker-based device and the proposed vision-based system. A list-mode event-by-event reconstruction algorithm using the detected motion was applied. A phantom study with hand-controlled continuous random motion was obtained. Motion was time-varying with long drift motions of up to 18 mm and regular step-wise motion of 1-6 mm. The evaluated measures were significantly better for motion-corrected images compared to no MC. The demonstrated system agreed with a commercial integrated system. Motion-corrected images were improved in contrast recovery of small structures.

Originalsprog	Engelsk
Tidsskrift	IEEE Transactions on Medical Imaging
Vol/bind	32
Udgave nummer	2
Sider (fra-til)	200-9
Antal sider	10
ISSN	0278-0062
DOI	https://doi.org/10.1109/tmi.2012.2219693
Status	Udgivet - 2013

Adgang til dokumentet

10.1109/tmi.2012.2219693

Citationsformater

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title = "List-Mode PET Motion Correction Using Markerless Head Tracking: Proof-of-Concept With Scans of Human Subject",

abstract = "A custom designed markerless tracking system was demonstrated to be applicable for positron emission tomography (PET) brain imaging. Precise head motion registration is crucial for accurate motion correction (MC) in PET imaging. State-of-the-art tracking systems applied with PET brain imaging rely on markers attached to the patient's head. The marker attachment is the main weakness of these systems. A healthy volunteer participating in a cigarette smoking study to image dopamine release was scanned twice for 2 h with $^{11}{\rm C}$-racolopride on the high resolution research tomograph (HRRT) PET scanner. Head motion was independently measured, with a commercial marker-based device and the proposed vision-based system. A list-mode event-by-event reconstruction algorithm using the detected motion was applied. A phantom study with hand-controlled continuous random motion was obtained. Motion was time-varying with long drift motions of up to 18 mm and regular step-wise motion of 1-6 mm. The evaluated measures were significantly better for motion-corrected images compared to no MC. The demonstrated system agreed with a commercial integrated system. Motion-corrected images were improved in contrast recovery of small structures.",

author = "Olesen, {Oline Vinter} and Sullivan, {Jenna M} and Tim Mulnix and Paulsen, {Rasmus Reinhold} and Liselotte H{\o}jgaard and Bjarne Roed and Carson, {Richard E} and Morris, {Evan D} and Rasmus Larsen",

year = "2013",

doi = "10.1109/tmi.2012.2219693",

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T1 - List-Mode PET Motion Correction Using Markerless Head Tracking

T2 - Proof-of-Concept With Scans of Human Subject

AU - Olesen, Oline Vinter

AU - Sullivan, Jenna M

AU - Mulnix, Tim

AU - Paulsen, Rasmus Reinhold

AU - Højgaard, Liselotte

AU - Roed, Bjarne

AU - Carson, Richard E

AU - Morris, Evan D

AU - Larsen, Rasmus

PY - 2013

Y1 - 2013

N2 - A custom designed markerless tracking system was demonstrated to be applicable for positron emission tomography (PET) brain imaging. Precise head motion registration is crucial for accurate motion correction (MC) in PET imaging. State-of-the-art tracking systems applied with PET brain imaging rely on markers attached to the patient's head. The marker attachment is the main weakness of these systems. A healthy volunteer participating in a cigarette smoking study to image dopamine release was scanned twice for 2 h with $^{11}{\rm C}$-racolopride on the high resolution research tomograph (HRRT) PET scanner. Head motion was independently measured, with a commercial marker-based device and the proposed vision-based system. A list-mode event-by-event reconstruction algorithm using the detected motion was applied. A phantom study with hand-controlled continuous random motion was obtained. Motion was time-varying with long drift motions of up to 18 mm and regular step-wise motion of 1-6 mm. The evaluated measures were significantly better for motion-corrected images compared to no MC. The demonstrated system agreed with a commercial integrated system. Motion-corrected images were improved in contrast recovery of small structures.

AB - A custom designed markerless tracking system was demonstrated to be applicable for positron emission tomography (PET) brain imaging. Precise head motion registration is crucial for accurate motion correction (MC) in PET imaging. State-of-the-art tracking systems applied with PET brain imaging rely on markers attached to the patient's head. The marker attachment is the main weakness of these systems. A healthy volunteer participating in a cigarette smoking study to image dopamine release was scanned twice for 2 h with $^{11}{\rm C}$-racolopride on the high resolution research tomograph (HRRT) PET scanner. Head motion was independently measured, with a commercial marker-based device and the proposed vision-based system. A list-mode event-by-event reconstruction algorithm using the detected motion was applied. A phantom study with hand-controlled continuous random motion was obtained. Motion was time-varying with long drift motions of up to 18 mm and regular step-wise motion of 1-6 mm. The evaluated measures were significantly better for motion-corrected images compared to no MC. The demonstrated system agreed with a commercial integrated system. Motion-corrected images were improved in contrast recovery of small structures.

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DO - 10.1109/tmi.2012.2219693

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SN - 0278-0062

VL - 32

SP - 200

EP - 209

JO - IEEE Transactions on Medical Imaging

JF - IEEE Transactions on Medical Imaging

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ER -