Reinhard R Beichel
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Explore the profile of Reinhard R Beichel including associated specialties, affiliations and a list of published articles.
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37
Citations
365
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Recent Articles
1.
Wenzel P, Thorpe R, Maley J, Policeni B, Beichel R, Henkle K, et al.
Ear Nose Throat J
. 2024 Aug;
:1455613241272451.
PMID: 39192625
The presence of a catheter required for contrast infusion during sialography obscures imaging of the distal duct. Static imaging via cone beam computed tomography and magnetic resonance sialography fails to...
2.
Xiong X, Graves S, Gross B, Buatti J, Beichel R
Tomography
. 2024 May;
10(5):738-760.
PMID: 38787017
Radiation treatment of cancers like prostate or cervix cancer requires considering nearby bone structures like vertebrae. In this work, we present and validate a novel automated method for the 3D...
3.
Xiong X, Smith B, Graves S, Graham M, Buatti J, Beichel R
Tomography
. 2023 Oct;
9(5):1933-1948.
PMID: 37888743
Convolutional neural networks (CNNs) have a proven track record in medical image segmentation. Recently, Vision Transformers were introduced and are gaining popularity for many computer vision applications, including object detection,...
4.
Keller H, Shek T, Driscoll B, Xu Y, Nghiem B, Nehmeh S, et al.
Tomography
. 2022 Apr;
8(2):1113-1128.
PMID: 35448725
For multicenter clinical studies, characterizing the robustness of image-derived radiomics features is essential. Features calculated on PET images have been shown to be very sensitive to image noise. The purpose...
5.
Xiong X, Smith B, Graves S, Sunderland J, Graham M, Gross B, et al.
Med Phys
. 2022 Jan;
49(3):1585-1598.
PMID: 34982836
Purpose: The purpose of this work was to develop and validate a deep convolutional neural network (CNN) approach for the automated pelvis segmentation in computed tomography (CT) scans to enable...
6.
Smith B, Buatti J, Bauer C, Ulrich E, Ahmadvand P, Budzevich M, et al.
Tomography
. 2020 Jun;
6(2):65-76.
PMID: 32548282
Quantitative imaging biomarkers (QIBs) provide medical image-derived intensity, texture, shape, and size features that may help characterize cancerous tumors and predict clinical outcomes. Successful clinical translation of QIBs depends on...
7.
Ghattas A, Beichel R, Smith B
Stat Methods Med Res
. 2020 May;
29(11):3135-3152.
PMID: 32432517
Medical imaging is utilized in a wide range of clinical applications. To enable a detailed quantitative analysis, medical images must often be segmented to label (delineate) structures of interest; for...
8.
Glenny R, Krueger M, Bauer C, Beichel R
J Appl Physiol (1985)
. 2020 Jan;
128(2):362-367.
PMID: 31917627
Fractal biological structures are pervasive throughout the plant and animal kingdoms, with the mammalian lung being a quintessential example. The lung airway and vascular trees are generated during embryogenesis from...
9.
Xiong X, Linhardt T, Liu W, Smith B, Sun W, Bauer C, et al.
Med Phys
. 2019 Dec;
47(3):1058-1066.
PMID: 31855287
Purpose: The purpose of this work was to assess the potential of deep convolutional neural networks in automated measurement of cerebellum tracer uptake in F-18 fluorodeoxyglucose (FDG) positron emission tomography...
10.
Bauer C, Krueger M, Lamm W, Glenny R, Beichel R
J Appl Physiol (1985)
. 2019 Nov;
128(2):309-323.
PMID: 31774357
To facilitate computational toxicology, we developed an approach for generating high-resolution lung-anatomy and particle-deposition mouse models. Major processing steps of our method include mouse preparation, serial block-face cryomicrotome imaging, and...