Julia G Mannheim
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Explore the profile of Julia G Mannheim including associated specialties, affiliations and a list of published articles.
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29
Citations
362
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Recent Articles
1.
Kuntner C, Alcaide C, Anestis D, Bankstahl J, Boutin H, Brasse D, et al.
Mol Imaging Biol
. 2024 Jun;
26(4):668-679.
PMID: 38907124
Purpose: Preclinical imaging, with translational potential, lacks a standardized method for defining volumes of interest (VOIs), impacting data reproducibility. The aim of this study was to determine the interobserver variability...
2.
Mannheim J, Fu J, Wegener T, Klyuzhin I, Vafai N, Shahinfard E, et al.
Neuroimage Clin
. 2024 Apr;
42:103600.
PMID: 38599001
Several genetic pathogenic variants increase the risk of Parkinson's disease (PD) with pathogenic variants in the leucine-rich repeat kinase 2 (LRRK2) gene being among the most common. A joint pattern...
3.
Mannheim J, Rausch I, Conti M, Fougere C, Schmidt F
EJNMMI Phys
. 2023 May;
10(1):33.
PMID: 37243869
Background: Total-body PET scanners with axial field of views (FOVs) longer than 1 m enable new applications to study multiple organs (e.g., the brain-gut-axis) simultaneously. As the spatial resolution and...
4.
Rausch I, Mannheim J, Kupferschlager J, Fougere C, Schmidt F
EJNMMI Phys
. 2022 Dec;
9(1):87.
PMID: 36513949
Aim: Recently, total-body PET/CT systems with an extended axial field-of-view (aFOV) became commercially available which allow acquiring physiologic information of multiple organs simultaneously. However, the nominal aFOV may clinically not...
5.
Fu J, Wegener T, Klyuzhin I, Mannheim J, McKeown M, Stoessl A, et al.
Neuroimage Clin
. 2022 Dec;
36:103246.
PMID: 36451352
Alterations in different aspects of dopamine processing may exhibit different progressive behaviours throughout the course of Parkinson's disease. We used a novel data-driven multivariate approach to quantify and compare spatiotemporal...
6.
McDougald W, Mannheim J
EJNMMI Phys
. 2022 Oct;
9(1):77.
PMID: 36315337
The fundamental principle of experimental design is to ensure efficiency and efficacy of the performed experiments. Therefore, it behoves the researcher to gain knowledge of the technological equipment to be...
7.
Disselhorst J, Newport D, Schmid A, Schmidt F, Parl C, Liu C, et al.
Phys Med Biol
. 2022 Feb;
67(4).
PMID: 35171115
An avalanche photodiode (APD)-based small animal positron emission tomography (PET)-insert was fully evaluated for its PET performance, as well as potential influences on magnetic resonance imaging (MRI) performance. This PET-insert...
8.
Mannheim J, Cheng J, Vafai N, Shahinfard E, English C, McKenzie J, et al.
EJNMMI Phys
. 2021 Feb;
8(1):20.
PMID: 33635449
Background: The Siemens high-resolution research tomograph (HRRT - a dedicated brain PET scanner) is to this day one of the highest resolution PET scanners; thus, it can serve as useful...
9.
Herfert K, Mannheim J, Kuebler L, Marciano S, Amend M, Parl C, et al.
Mol Imaging Biol
. 2019 Jun;
22(2):223-244.
PMID: 31168682
Positron emission tomography (PET) is a non-invasive imaging technology employed to describe metabolic, physiological, and biochemical processes in vivo. These include receptor availability, metabolic changes, neurotransmitter release, and alterations of...
10.
Yamoah G, Cao L, Wu C, Beekman F, Vandeghinste B, Mannheim J, et al.
Mol Imaging Biol
. 2019 Mar;
21(6):1034-1043.
PMID: 30868426
Purpose: In biomedical research, imaging modalities help discover pathological mechanisms to develop and evaluate novel diagnostic and theranostic approaches. However, while standards for data storage in the clinical medical imaging...