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» Authors » Matthew G Spangler-Bickell

Matthew G Spangler-Bickell

Explore the profile of Matthew G Spangler-Bickell including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 9
Citations 61
Followers 0
Related Specialties
Nuclear Medicine
Neurology
Biophysics
Top 10 Co-Authors
Timothy W Deller
Floris Jansen
Floris P Jansen
Bart de Laat
Michael Zeineh
Daniel R McGowan
Kevin M Bradley
Johan Nuyts
Greg Zaharchuk
Alan B McMillan
Published In
J Nucl Med
J Neurol
Phys Med Biol
Clin Nucl Med
EJNMMI Res
Affiliations
Soon will be listed here.
Recent Articles
1.
Retrospective Data-Driven Motion Correction of 18 F-FDG Brain PET
Maurer A, Spangler-Bickell M, Mader C, Kotasidis F, Huellner M
Clin Nucl Med . 2024 Oct; 49(12):1103-1104. PMID: 39365097
A 51-year-old man with severe multifactorial neurocognitive disorders subsequent to delirium, benzodiazepine withdrawal, and preexisting psychiatric illness was referred for 18 F-FDG PET/CT brain imaging in order to rule out...
2.
Evaluation of Data-Driven Rigid Motion Correction in Clinical Brain PET Imaging
Spangler-Bickell M, Hurley S, Pirasteh A, Perlman S, Deller T, McMillan A
J Nucl Med . 2022 Jan; 63(10):1604-1610. PMID: 35086896
Head motion during brain PET imaging can significantly degrade the quality of the reconstructed image, leading to reduced diagnostic value and inaccurate quantitation. A fully data-driven motion correction approach was...
3.
Correction to: A solution to PET brain motion artefact
Bradley K, Deller T, Spangler-Bickell M, Jansen F, McGowan D
J Neurol . 2021 Jun; 268(9):3478-3479. PMID: 34125268
No abstract available.
4.
A solution to PET brain motion artefact
Bradley K, Deller T, Spangler-Bickell M, Jansen F, McGowan D
J Neurol . 2021 Jun; 268(9):3476-3477. PMID: 34091746
No abstract available.
5.
Optimizing the frame duration for data-driven rigid motion estimation in brain PET imaging
Spangler-Bickell M, Hurley S, Deller T, Jansen F, Bettinardi V, Carlson M, et al.
Med Phys . 2021 Apr; 48(6):3031-3041. PMID: 33880778
Purpose: Data-driven rigid motion estimation for PET brain imaging is usually performed using data frames sampled at low temporal resolution to reduce the overall computation time and to provide adequate...
6.
Ultra-Fast List-Mode Reconstruction of Short PET Frames and Example Applications
Spangler-Bickell M, Deller T, Bettinardi V, Jansen F
J Nucl Med . 2020 Jul; 62(2):287-292. PMID: 32646873
Standard clinical reconstructions usually require several minutes to complete, and this time is mostly independent of the duration of the data being reconstructed. Applications such as data-driven motion estimation, which...
7.
Rigid Motion Correction for Brain PET/MR Imaging using Optical Tracking
Spangler-Bickell M, Khalighi M, Hoo C, DiGiacomo P, MacLaren J, Aksoy M, et al.
IEEE Trans Radiat Plasma Med Sci . 2019 Aug; 3(4):498-503. PMID: 31396580
A significant challenge during high-resolution PET brain imaging on PET/MR scanners is patient head motion. This challenge is particularly significant for clinical patient populations who struggle to remain motionless in...
8.
The effect of isoflurane on F-FDG uptake in the rat brain: a fully conscious dynamic PET study using motion compensation
Spangler-Bickell M, de Laat B, Fulton R, Bormans G, Nuyts J
EJNMMI Res . 2016 Nov; 6(1):86. PMID: 27888500
Background: In preclinical positron emission tomography (PET) studies an anaesthetic is used to ensure that the animal does not move during the scan. However, anaesthesia may have confounding effects on...
9.
Optimising rigid motion compensation for small animal brain PET imaging
Spangler-Bickell M, Zhou L, Kyme A, de Laat B, Fulton R, Nuyts J
Phys Med Biol . 2016 Sep; 61(19):7074-7091. PMID: 27648644
Motion compensation (MC) in PET brain imaging of awake small animals is attracting increased attention in preclinical studies since it avoids the confounding effects of anaesthesia and enables behavioural tests...