David Schug

Overview

Explore the profile of David Schug including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 29

Citations 126

Followers 0

Related Specialties

Radiology

Biophysics

Nuclear Medicine

Top 10 Co-Authors

Volkmar Schulz

Pierre Gebhardt

Bjoern Weissler

Jakob Wehner

Andre Salomon

Benjamin Goldschmidt

Fabian Kiessling

Florian Mueller

Patrick Hallen

Stephan Naunheim

Published In

EJNMMI Phys

Phys Med Biol

Med Phys

Biomed Phys Eng Express

Nucl Instrum Methods Phys Res A

Affiliations

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Recent Articles

ASICs in PET: what we have and what we need

Nadig V, Gundacker S, Herweg K, Naunheim S, Schug D, Weissler B, et al.

EJNMMI Phys . 2025 Feb; 12(1):16. PMID: 39939493

Background: Designing positron emission tomography (PET) scanners involves several significant challenges. These include the precise measurement of the time of arrival of signals, accurate integration of the pulse shape, maintaining...

3D in-system calibration method for PET detectors

Kuhl Y, Mueller F, Thull J, Naunheim S, Schug D, Schulz V

Med Phys . 2024 Nov; 52(1):232-245. PMID: 39504412

Background: Light-sharing detector designs for positron emission tomography (PET) systems have sparked interest in the scientific community. Particularly, (semi-)monoliths show generally good performance characteristics regarding 2D positioning, energy-, and timing...

Initial results of the Hyperion IIPET insert for simultaneous PET-MRI applied to atherosclerotic plaque imaging in New-Zealand white rabbits

Gebhardt P, Gebhardt P, Lavin B, Lavin B, Phinikaridou A, Phinikaridou A, et al.

Phys Med Biol . 2024 Oct; 70(4). PMID: 39467386

In preclinical research,imaging of mice and rats is more common than any other animal species, since their physiopathology is very well-known and many genetically altered disease models exist. Animal studies...

A finely segmented semi-monolithic detector tailored for high-resolution PET

Kuhl Y, Mueller F, Naunheim S, Bovelett M, Lambertus J, Schug D, et al.

Med Phys . 2024 Jan; 51(5):3421-3436. PMID: 38214395

Background: Preclinical research and organ-dedicated applications use and require high (spatial-)resolution positron emission tomography (PET) detectors to visualize small structures (early) and understand biological processes at a finer level of...

Near-field coded-mask technique and its potential for proton therapy monitoring

Hetzel R, Urbanevych V, Bolke A, Kasper J, Kercz M, Kolodziej M, et al.

Phys Med Biol . 2023 Oct; 68(24). PMID: 37863101

Prompt-gamma imaging encompasses several approaches to the online monitoring of the beam range or deposited dose distribution in proton therapy. We test one of the imaging techniques - a coded...

Improving the Timing Resolution of Positron Emission Tomography Detectors Using Boosted Learning-A Residual Physics Approach

Naunheim S, Kuhl Y, Schug D, Schulz V, Mueller F

IEEE Trans Neural Netw Learn Syst . 2023 Oct; 36(1):582-594. PMID: 37862278

Artificial intelligence (AI) is entering medical imaging, mainly enhancing image reconstruction. Nevertheless, improvements throughout the entire processing, from signal detection to computation, potentially offer significant benefits. This work presents a...

Analysis of a convex time skew calibration for light sharing-based PET detectors

Naunheim S, Kuhl Y, Solf T, Schug D, Schulz V, Mueller F

Phys Med Biol . 2023 Jan; 68(2). PMID: 36595338

Positron emission tomography (PET) detectors providing attractive coincidence time resolutions (CTRs) offer time-of-flight information, resulting in an improved signal-to-noise ratio of the PET image. In applications with photosensor arrays that...

A semi-monolithic detector providing intrinsic DOI-encoding and sub-200 ps CRT TOF-capabilities for clinical PET applications

Mueller F, Naunheim S, Kuhl Y, Schug D, Solf T, Schulz V

Med Phys . 2022 Oct; 49(12):7469-7488. PMID: 36259245

Background: Current clinical positron emission tomography (PET) systems utilize detectors where the scintillator typically contains single elements of 3-6-mm width and about 20-mm height. While providing good time-of-flight performance, this...

High throughput software-based gradient tree boosting positioning for PET systems

Wassermann C, Mueller F, Dey T, Lambertus J, Schug D, Schulz V, et al.

Biomed Phys Eng Express . 2021 Jul; 7(5). PMID: 34229316

The supervised machine learning technique Gradient Tree Boosting (GTB) has shown good accuracy for position estimation of gamma interaction in PET crystals for bench-top experiments while its computational requirements can...

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Evaluation of the radiofrequency performance of a wide-bore 1.5 T positron emission tomography/magnetic resonance imaging body coil for radiotherapy planning

Branderhorst W, Steensma B, Beijst C, Huijing E, Alborahal C, Versteeg E, et al.

Phys Imaging Radiat Oncol . 2021 Apr; 17:13-19. PMID: 33898772

Background And Purpose: The restricted bore diameter of current simultaneous positron emission tomography/magnetic resonance imaging (PET/MRI) systems can be an impediment to achieving similar patient positioning during PET/MRI planning and...