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1. Influence of Medical Foreign Bodies on Dark-Field Chest Radiographs: First experiences

Author

Kaster, Lennard, Klein, Henriette, Marka, Alexander W., Urban, Theresa, Karl, Sandra, Gassert, Florian T., Steinhelfer, Lisa, Makowski, Marcus R., Pfeiffer, Daniela, and Pfeiffer, Franz

Subjects
Physics - Medical Physics, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Objectives: Evaluating the effects and artifacts introduced by medical foreign bodies in clinical dark-field chest radiographs and assessing their influence on the evaluation of pulmonary tissue, compared to conventional radiographs. Material & Methods: This retrospective study analyzed data from subjects enrolled in clinical trials conducted between 2018 and 2021, focusing on chronic obstructive pulmonary disease (COPD) and COVID-19 patients. All patients obtained a radiograph using an in-house developed clinical prototype for grating-based dark-field chest radiography. The prototype simultaneously delivers a conventional and dark-field radiograph. Two radiologists independently assessed the clinical studies to identify patients with foreign bodies. Subsequently, an analysis was conducted on the effects and artifacts attributed to distinct foreign bodies and their impact on the assessment of pulmonary tissue. Results: Overall, 30 subjects with foreign bodies were included in this study (mean age, 64 years +/- 11 [standard deviation]; 15 men). Foreign bodies composed of materials lacking microstructure exhibited a diminished dark-field signal or no discernible signal. Foreign bodies with a microstructure, in our investigations the cementation of the kyphoplasty, produce a positive dark-field signal. Since most foreign bodies lack microstructural features, dark-field imaging revealed fewer signals and artifacts by foreign bodies compared to conventional radiographs. Conclusion: Dark-field radiography enhances the assessment of pulmonary tissue with overlaying foreign bodies compared to conventional radiography. Reduced interfering signals result in fewer overlapping radiopaque artifacts within the investigated regions. This mitigates the impact on image quality and interpretability of the radiographs and the projection-related limitations of radiography compared to CT.

Published
2024

2. Improving image quality of sparse-view lung tumor CT images with U-Net

Author

Ries, Annika, Dorosti, Tina, Thalhammer, Johannes, Sasse, Daniel, Sauter, Andreas, Meurer, Felix, Benne, Ashley, Lasser, Tobias, Pfeiffer, Franz, Schaff, Florian, and Pfeiffer, Daniela

Subjects
Computer Science - Computer Vision and Pattern Recognition, Physics - Medical Physics
Abstract

Background: We aimed at improving image quality (IQ) of sparse-view computed tomography (CT) images using a U-Net for lung metastasis detection and determining the best tradeoff between number of views, IQ, and diagnostic confidence. Methods: CT images from 41 subjects aged 62.8 $\pm$ 10.6 years (mean $\pm$ standard deviation), 23 men, 34 with lung metastasis, 7 healthy, were retrospectively selected (2016-2018) and forward projected onto 2,048-view sinograms. Six corresponding sparse-view CT data subsets at varying levels of undersampling were reconstructed from sinograms using filtered backprojection with 16, 32, 64, 128, 256, and 512 views. A dual-frame U-Net was trained and evaluated for each subsampling level on 8,658 images from 22 diseased subjects. A representative image per scan was selected from 19 subjects (12 diseased, 7 healthy) for a single-blinded multireader study. These slices, for all levels of subsampling, with and without U-Net postprocessing, were presented to three readers. IQ and diagnostic confidence were ranked using predefined scales. Subjective nodule segmentation was evaluated using sensitivity and Dice similarity coefficient (DSC); clustered Wilcoxon signed-rank test was used. Results: The 64-projection sparse-view images resulted in 0.89 sensitivity and 0.81 DSC, while their counterparts, postprocessed with the U-Net, had improved metrics (0.94 sensitivity and 0.85 DSC) (p = 0.400). Fewer views led to insufficient IQ for diagnosis. For increased views, no substantial discrepancies were noted between sparse-view and postprocessed images. Conclusions: Projection views can be reduced from 2,048 to 64 while maintaining IQ and the confidence of the radiologists on a satisfactory level.

Published
2023
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4. Improving Automated Hemorrhage Detection in Sparse-view Computed Tomography via Deep Convolutional Neural Network based Artifact Reduction

Author

Thalhammer, Johannes, Schultheiss, Manuel, Dorosti, Tina, Lasser, Tobias, Pfeiffer, Franz, Pfeiffer, Daniela, and Schaff, Florian

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Physics - Medical Physics
Abstract

This is a preprint. The latest version has been published here: https://pubs.rsna.org/doi/10.1148/ryai.230275 Purpose: Sparse-view computed tomography (CT) is an effective way to reduce dose by lowering the total number of views acquired, albeit at the expense of image quality, which, in turn, can impact the ability to detect diseases. We explore deep learning-based artifact reduction in sparse-view cranial CT scans and its impact on automated hemorrhage detection. Methods: We trained a U-Net for artefact reduction on simulated sparse-view cranial CT scans from 3000 patients obtained from a public dataset and reconstructed with varying levels of sub-sampling. Additionally, we trained a convolutional neural network on fully sampled CT data from 17,545 patients for automated hemorrhage detection. We evaluated the classification performance using the area under the receiver operator characteristic curves (AUC-ROCs) with corresponding 95% confidence intervals (CIs) and the DeLong test, along with confusion matrices. The performance of the U-Net was compared to an analytical approach based on total variation (TV). Results: The U-Net performed superior compared to unprocessed and TV-processed images with respect to image quality and automated hemorrhage diagnosis. With U-Net post-processing, the number of views can be reduced from 4096 (AUC-ROC: 0.974; 95% CI: 0.972-0.976) views to 512 views (0.973; 0.971-0.975) with minimal decrease in hemorrhage detection (P<.001) and to 256 views (0.967; 0.964-0.969) with a slight performance decrease (P<.001). Conclusion: The results suggest that U-Net based artifact reduction substantially enhances automated hemorrhage detection in sparse-view cranial CTs. Our findings highlight that appropriate post-processing is crucial for optimal image quality and diagnostic accuracy while minimizing radiation dose., Comment: 11 pages, 6 figures, 1 table

Published
2023
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5. Optimizing Convolutional Neural Networks for Chronic Obstructive Pulmonary Disease Detection in Clinical Computed Tomography Imaging

Author

Dorosti, Tina, Schultheiss, Manuel, Hofmann, Felix, Thalhammer, Johannes, Kirchner, Luisa, Urban, Theresa, Pfeiffer, Franz, Schaff, Florian, Lasser, Tobias, and Pfeiffer, Daniela

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

We aim to optimize the binary detection of Chronic Obstructive Pulmonary Disease (COPD) based on emphysema presence in the lung with convolutional neural networks (CNN) by exploring manually adjusted versus automated window-setting optimization (WSO) on computed tomography (CT) images. 7,194 CT images (3,597 with COPD; 3,597 healthy controls) from 78 subjects (43 with COPD; 35 healthy controls) were selected retrospectively (10.2018-12.2019) and preprocessed. For each image, intensity values were manually clipped to the emphysema window setting and a baseline 'full-range' window setting. Class-balanced train, validation, and test sets contained 3,392, 1,114, and 2,688 images. The network backbone was optimized by comparing various CNN architectures. Furthermore, automated WSO was implemented by adding a customized layer to the model. The image-level area under the Receiver Operating Characteristics curve (AUC) [lower, upper limit 95% confidence] was utilized to compare model variations. Repeated inference (n=7) on the test set showed that the DenseNet was the most efficient backbone and achieved a mean AUC of 0.80 [0.76, 0.85] without WSO. Comparably, with input images manually adjusted to the emphysema window, the DenseNet model predicted COPD with a mean AUC of 0.86 [0.82, 0.89]. By adding a customized WSO layer to the DenseNet, an optimal window in the proximity of the emphysema window setting was learned automatically, and a mean AUC of 0.82 [0.78, 0.86] was achieved. Detection of COPD with DenseNet models was improved by WSO of CT data to the emphysema window setting range.

Published
2023

7. WNet: A data-driven dual-domain denoising model for sparse-view computed tomography with a trainable reconstruction layer

Author

Cheslerean-Boghiu, Theodor, Hofmann, Felix C., Schultheiß, Manuel, Pfeiffer, Franz, Pfeiffer, Daniela, and Lasser, Tobias

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Deep learning based solutions are being succesfully implemented for a wide variety of applications. Most notably, clinical use-cases have gained an increased interest and have been the main driver behind some of the cutting-edge data-driven algorithms proposed in the last years. For applications like sparse-view tomographic reconstructions, where the amount of measurement data is small in order to keep acquisition time short and radiation dose low, reduction of the streaking artifacts has prompted the development of data-driven denoising algorithms with the main goal of obtaining diagnostically viable images with only a subset of a full-scan data. We propose WNet, a data-driven dual-domain denoising model which contains a trainable reconstruction layer for sparse-view artifact denoising. Two encoder-decoder networks perform denoising in both sinogram- and reconstruction-domain simultaneously, while a third layer implementing the Filtered Backprojection algorithm is sandwiched between the first two and takes care of the reconstruction operation. We investigate the performance of the network on sparse-view chest CT scans, and we highlight the added benefit of having a trainable reconstruction layer over the more conventional fixed ones. We train and test our network on two clinically relevant datasets and we compare the obtained results with three different types of sparse-view CT denoising and reconstruction algorithms., Comment: Publisehd at IEEE TCI in January 2023. Supplementary materials are available @IEEE

Published
2022
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9. X-ray dark-field chest radiography: a reader study to evaluate the diagnostic quality of attenuation chest X-rays from a dual-contrast scanning prototype

Author

Kattau, Margarete, Willer, Konstantin, Noichl, Wolfgang, Urban, Theresa, Frank, Manuela, De Marco, Fabio, Schick, Rafael, Koehler, Thomas, Maack, Hanns-Ingo, Renger, Bernhard, Renz, Martin, Sauter, Andreas, Leonhardt, Yannik, Fingerle, Alexander, Makowski, Marcus, Pfeiffer, Daniela, and Pfeiffer, Franz

Published
2023
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14. Evaluation of MR-derived simulated CT-like images and simulated radiographs compared to conventional radiography in patients with shoulder pain: a proof-of-concept study

Author

Feuerriegel, Georg C., Kopp, Felix K., Pfeiffer, Daniela, Pogorzelski, Jonas, Wurm, Markus, Leonhardt, Yannik, Boehm, Christof, Kronthaler, Sophia, Karampinos, Dimitrios C., Neumann, Jan, Schwaiger, Benedikt J., Makowski, Marcus R., Woertler, Klaus, and Gersing, Alexandra S.

Published
2022
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15. Five material tissue decomposition by dual energy computed tomography

Author

Lochschmidt, Maximilian E., Gassenhuber, Melina, Riederer, Isabelle, Hammel, Johannes, Birnbacher, Lorenz, Busse, Madleen, Boeckh-Behrens, Tobias, Ikenberg, Benno, Wunderlich, Silke, Liesche-Starnecker, Friederike, Schlegel, Jürgen, Makowski, Marcus R., Zimmer, Claus, Pfeiffer, Franz, and Pfeiffer, Daniela

Published
2022
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16. Dark-field chest x-ray imaging: first experience in patients with alpha1-antitrypsin deficiency

Author

Zimmermann, Gregor S., Fingerle, Alexander A., Renger, Bernhard, Laugwitz, Karl-Ludwig, Hautmann, Hubert, Sauter, Andreas, Meurer, Felix, Gassert, Florian Tilman, Bodden, Jannis, Müller-Leisse, Christina, Renz, Martin, Rummeny, Ernst J., Makowski, Marcus R., Willer, Konstantin, Noichl, Wolfgang, De Marco, Fabio, Frank, Manuela, Urban, Theresa, Schick, Rafael C., Herzen, Julia, Koehler, Thomas, Haller, Bernhard, Pfeiffer, Daniela, and Pfeiffer, Franz

Published
2022
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17. Dark-field chest X-ray imaging for the assessment of COVID-19-pneumonia

Author

Frank, Manuela, Gassert, Florian T., Urban, Theresa, Willer, Konstantin, Noichl, Wolfgang, Schick, Rafael, Schultheiss, Manuel, Viermetz, Manuel, Gleich, Bernhard, De Marco, Fabio, Herzen, Julia, Koehler, Thomas, Engel, Klaus Jürgen, Renger, Bernhard, Gassert, Felix G., Sauter, Andreas, Fingerle, Alexander A., Haller, Bernhard, Makowski, Marcus R., Pfeiffer, Daniela, and Pfeiffer, Franz

Published
2022
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19. Dark-field radiography for the detection of bone microstructure changes in osteoporotic human lumbar spine specimens.

Author

Rischewski, Jon F., Gassert, Florian T., Urban, Theresa, Hammel, Johannes, Kufner, Alexander, Braun, Christian, Lochschmidt, Maximilian, Makowski, Marcus R., Pfeiffer, Daniela, Gersing, Alexandra S., and Pfeiffer, Franz

Subjects
SMALL-angle X-ray scattering, RANK correlation (Statistics), BONE density, LUMBAR vertebrae, RADIATION exposure
Abstract

Background: Dark-field radiography imaging exploits the wave character of x-rays to measure small-angle scattering on material interfaces, providing structural information with low radiation exposure. We explored the potential of dark-field imaging of bone microstructure to improve the assessment of bone strength in osteoporosis. Methods: We prospectively examined 14 osteoporotic/osteopenic and 21 non-osteoporotic/osteopenic human cadaveric vertebrae (L2–L4) with a clinical dark-field radiography system, micro-computed tomography (CT), and spectral CT. Dark-field images were obtained in both vertical and horizontal sample positions. Bone microstructural parameters (trabecular number, Tb.N; trabecular thickness, Tb.Th; bone volume fraction, BV/TV; degree of anisotropy, DA) were measured using standard ex vivo micro-CT, while hydroxyapatite density was measured using spectral CT. Correlations were assessed using Spearman rank correlation coefficients. Results: The measured dark-field signal was lower in osteoporotic/osteopenic vertebrae (vertical position, 0.23 ± 0.05 versus 0.29 ± 0.04, p < 0.001; horizontal position, 0.28 ± 0.06 versus 0.34 ± 0.04, p = 0.003). The dark-field signal from the vertical position correlated significantly with Tb.N (ρ = 0.46, p = 0.005), BV/TV (ρ = 0.45, p = 0.007), DA (ρ = -0.43, p = 0.010), and hydroxyapatite density (ρ = 0.53, p = 0.010). The calculated ratio of vertical/horizontal dark-field signal correlated significantly with Tb.N (ρ = 0.43, p = 0.011), BV/TV (ρ = 0.36, p = 0.032), DA (ρ = -0.51, p = 0.002), and hydroxyapatite density (ρ = 0.42, p = 0.049). Conclusion: Dark-field radiography is a feasible modality for drawing conclusions on bone microarchitecture in human cadaveric vertebral bone. Relevance statement: Gaining knowledge of the microarchitecture of bone contributes crucially to predicting bone strength in osteoporosis. This novel radiographic approach based on dark-field x-rays provides insights into bone microstructure at a lower radiation exposure than that of CT modalities. Key Points: Dark-field radiography can give information on bone microstructure with low radiation exposure. The dark-field signal correlated positively with bone microstructure parameters. Dark-field signal correlated negatively with the degree of anisotropy. Dark-field radiography helps to determine the directionality of trabecular loss. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Chondrosarcoma evaluation using hematein-based x-ray staining and high-resolution 3D micro-CT: a feasibility study

Author

Gersing, Alexandra S., primary, Kimm, Melanie A., additional, Bollwein, Christine, additional, Ilg, Patrick, additional, Mogler, Carolin, additional, Gassert, Felix G., additional, Feuerriegel, Georg C., additional, Knebel, Carolin, additional, Woertler, Klaus, additional, Pfeiffer, Daniela, additional, Busse, Madleen, additional, and Pfeiffer, Franz, additional

Published
2024
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23. What patient positioning in chest X-ray is still acceptable? – An empirical study on thresholding quality metrics

Author

von Berg, Jens, primary, Hergaarden, Kenneth F. M., additional, Englmaier, Max, additional, Pfeiffer, Daniela, additional, Wieberneit, Nataly, additional, Krönke-Hille, Sven, additional, Harder, Tim, additional, Gooßen, André, additional, Bystrov, Daniel, additional, Brueck, Matthias, additional, Young, Stewart, additional, and Lamb, Hildo J., additional

Published
2024
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24. Feasibility of Dark-Field Radiography to Enhance Detection of Nondisplaced Fractures

Author

Schaff, Florian, primary, Jud, Christoph, additional, Dierolf, Martin, additional, Günther, Benedikt, additional, Achterhold, Klaus, additional, Gleich, Bernhard, additional, Sauter, Andreas, additional, Woertler, Klaus, additional, Thalhammer, Johannes, additional, Meurer, Felix, additional, Neumann, Jan, additional, Pfeiffer, Franz, additional, and Pfeiffer, Daniela, additional

Published
2024
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28. X-ray dark-field chest imaging for detection and quantification of emphysema in patients with chronic obstructive pulmonary disease: a diagnostic accuracy study

Author

Willer, Konstantin, Fingerle, Alexander A, Noichl, Wolfgang, De Marco, Fabio, Frank, Manuela, Urban, Theresa, Schick, Rafael, Gustschin, Alex, Gleich, Bernhard, Herzen, Julia, Koehler, Thomas, Yaroshenko, Andre, Pralow, Thomas, Zimmermann, Gregor S, Renger, Bernhard, Sauter, Andreas P, Pfeiffer, Daniela, Makowski, Marcus R, Rummeny, Ernst J, Grenier, Philippe A, and Pfeiffer, Franz

Published
2021
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30. Correction for Mechanical Inaccuracies in a Scanning Talbot-Lau Interferometer

Author

Noichl, Wolfgang, primary, De Marco, Fabio, additional, Willer, Konstantin, additional, Urban, Theresa, additional, Frank, Manuela, additional, Schick, Rafael, additional, Gleich, Bernhard, additional, Hehn, Lorenz, additional, Gustschin, Alex, additional, Meyer, Pascal, additional, Koehler, Thomas, additional, Maack, Ingo, additional, Engel, Klaus-Jürgen, additional, Lundt, Bernd, additional, Renger, Bernhard, additional, Fingerle, Alexander, additional, Pfeiffer, Daniela, additional, Rummeny, Ernst, additional, Herzen, Julia, additional, and Pfeiffer, Franz, additional

Published
2024
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35. Lung nodule detection in chest X-rays using synthetic ground-truth data comparing CNN-based diagnosis to human performance

Author

Schultheiss, Manuel, Schmette, Philipp, Bodden, Jannis, Aichele, Juliane, Müller-Leisse, Christina, Gassert, Felix G., Gassert, Florian T., Gawlitza, Joshua F., Hofmann, Felix C., Sasse, Daniel, von Schacky, Claudio E., Ziegelmayer, Sebastian, De Marco, Fabio, Renger, Bernhard, Makowski, Marcus R., Pfeiffer, Franz, and Pfeiffer, Daniela

Published
2021
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36. Improving image quality of sparse-view lung tumor CT images with U-Net.

Author

Ries, Annika, Dorosti, Tina, Thalhammer, Johannes, Sasse, Daniel, Sauter, Andreas, Meurer, Felix, Benne, Ashley, Lasser, Tobias, Pfeiffer, Franz, Schaff, Florian, and Pfeiffer, Daniela

Subjects
COMPUTED tomography, LUNG tumors, WILCOXON signed-rank test, MEDICAL screening
Abstract

Background: We aimed to improve the image quality (IQ) of sparse-view computed tomography (CT) images using a U-Net for lung metastasis detection and determine the best tradeoff between number of views, IQ, and diagnostic confidence. Methods: CT images from 41 subjects aged 62.8 ± 10.6 years (mean ± standard deviation, 23 men), 34 with lung metastasis, 7 healthy, were retrospectively selected (2016–2018) and forward projected onto 2,048-view sinograms. Six corresponding sparse-view CT data subsets at varying levels of undersampling were reconstructed from sinograms using filtered backprojection with 16, 32, 64, 128, 256, and 512 views. A dual-frame U-Net was trained and evaluated for each subsampling level on 8,658 images from 22 diseased subjects. A representative image per scan was selected from 19 subjects (12 diseased, 7 healthy) for a single-blinded multireader study. These slices, for all levels of subsampling, with and without U-Net postprocessing, were presented to three readers. IQ and diagnostic confidence were ranked using predefined scales. Subjective nodule segmentation was evaluated using sensitivity and Dice similarity coefficient (DSC); clustered Wilcoxon signed-rank test was used. Results: The 64-projection sparse-view images resulted in 0.89 sensitivity and 0.81 DSC, while their counterparts, postprocessed with the U-Net, had improved metrics (0.94 sensitivity and 0.85 DSC) (p = 0.400). Fewer views led to insufficient IQ for diagnosis. For increased views, no substantial discrepancies were noted between sparse-view and postprocessed images. Conclusions: Projection views can be reduced from 2,048 to 64 while maintaining IQ and the confidence of the radiologists on a satisfactory level. Relevance statement: Our reader study demonstrates the benefit of U-Net postprocessing for regular CT screenings of patients with lung metastasis to increase the IQ and diagnostic confidence while reducing the dose. Key points: • Sparse-projection-view streak artifacts reduce the quality and usability of sparse-view CT images. • U-Net-based postprocessing removes sparse-view artifacts while maintaining diagnostically accurate IQ. • Postprocessed sparse-view CTs drastically increase radiologists' confidence in diagnosing lung metastasis. [ABSTRACT FROM AUTHOR]

Published
2024
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37. Multimaterial decomposition in dual-energy CT for characterization of clots from acute ischemic stroke patients.

Author

Gassenhuber, Melina, Lochschmidt, Maximilian E., Hammel, Johannes, Boeckh-Behrens, Tobias, Ikenberg, Benno, Wunderlich, Silke, Liesche-Starnecker, Friederike, Schlegel, Jürgen, Pfeiffer, Franz, Makowski, Marcus R., Zimmer, Claus, Riederer, Isabelle, and Pfeiffer, Daniela

Subjects
STROKE patients, ISCHEMIC stroke, LEUCOCYTES, ERYTHROCYTES
Abstract

Background: Nowadays, there is no method to quantitatively characterize the material composition of acute ischemic stroke thrombi prior to intervention, but dual-energy CT (DE-CT) offers imaging-based multimaterial decomposition. We retrospectively investigated the material composition of thrombi ex vivo using DE-CT with histological analysis as a reference. Methods: Clots of 70 patients with acute ischemic stroke were extracted by mechanical thrombectomy and scanned ex vivo in formalin-filled tubes with DE-CT. Multimaterial decomposition in the three components, i.e., red blood cells (RBC), white blood cells (WBC), and fibrin/platelets (F/P), was performed and compared to histology (hematoxylin/eosin staining) as reference. Attenuation and effective Z values were assessed, and histological composition was compared to stroke etiology according to the Trial of ORG 10172 in Acute Stroke Treatment (TOAST) criteria. Results: Histological and imaging analysis showed the following correlation coefficients for RBC (r = 0.527, p < 0.001), WBC (r = 0.305, p = 0.020), and F/P (r = 0.525, p < 0.001). RBC-rich thrombi presented higher clot attenuation in Hounsfield units than F/P-rich thrombi (51 HU versus 42 HU, p < 0.01). In histological analysis, cardioembolic clots showed less RBC (40% versus 56%, p = 0.053) and more F/P (53% versus 36%, p = 0.024), similar to cryptogenic clots containing less RBC (34% versus 56%, p = 0.006) and more F/P (58% versus 36%, p = 0.003) than non-cardioembolic strokes. No difference was assessed for the mean WBC portions in all TOAST groups. Conclusions: DE-CT has the potential to quantitatively characterize the material composition of ischemic stroke thrombi. Relevance statement: Using DE-CT, the composition of ischemic stroke thrombi can be determined. Knowledge of histological composition prior to intervention offers the opportunity to define personalized treatment strategies for each patient to accomplish faster recanalization and better clinical outcomes. Key points: • Acute ischemic stroke clots present different recanalization success according to histological composition. • Currently, no method can determine clot composition prior to intervention. • DE-CT allows quantitative material decomposition of thrombi ex vivo in red blood cells, white blood cells, and fibrin/platelets. • Histological clot composition differs between stroke etiology. • Insights into the histological composition in situ offer personalized treatment strategies. [ABSTRACT FROM AUTHOR]

Published
2024
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39. Dark-field X-ray imaging for the assessment of osteoporosis in human lumbar spine specimens

Author

Gassert, Florian T., primary, Urban, Theresa, additional, Kufner, Alexander, additional, Frank, Manuela, additional, Feuerriegel, Georg C., additional, Baum, Thomas, additional, Makowski, Marcus R., additional, Braun, Christian, additional, Pfeiffer, Daniela, additional, Schwaiger, Benedikt J., additional, Pfeiffer, Franz, additional, and Gersing, Alexandra S., additional

Published
2023
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41. Evaluation der diagnostischen Genauigkeit von Machine Learning für die Detektion von Lungenrundherden in der Thoraxradiographie

Author

Pfeiffer, Daniela (Prof. Dr.), Pfeiffer, Daniela (Prof. Dr.);Kirschke, Jan Stefan (Prof. Dr.), Amecke gen. Mönnighoff (geb. Lodde), Marie, Pfeiffer, Daniela (Prof. Dr.), Pfeiffer, Daniela (Prof. Dr.);Kirschke, Jan Stefan (Prof. Dr.), and Amecke gen. Mönnighoff (geb. Lodde), Marie

Abstract

Das Potenzial von Machine Learning Algorithmen zur Detektion von Lungenrundherden in Thoraxröntgenbildern wurde anhand einer Reader Studie ermittelt.Es wurden händisch segmentierte Datensätze erstellt und die Leistung auch auf das Vorliegen von Fremdmaterial untersucht.Es zeigte sich eine ähnliche Leistung zwischen Radiologen und Algorithmen innerhalb der Untersuchungen.Die Anzahl korrekt identifizierter Tumore könnte mittels Kombination aus menschlicher und rechnerischer Bewertung erhöht werden., The potential of machine learning algorithms for the detection of pulmonary nodules in chest radiographs was determined using a reader study. For training, manually segmented datasets were created and performance was also examined for the simultaneous presence of different foreign bodies. The study showed similar performance between radiologists and algorithms. The number of correctly identified tumors could be increased using a combination of human and computational assessments.

Published
2022

42. Iodine concentration of healthy lymph nodes of the neck, axilla and groin in Dual Energy Computed Tomography

Author

Pfeiffer, Daniela (Prof. Dr.), Pfeiffer, Daniela (Prof. Dr.);Nadjiri, Jonathan (Priv.-Doz. Dr.), Ostmeier, Anna Sophie Gertrud, Pfeiffer, Daniela (Prof. Dr.), Pfeiffer, Daniela (Prof. Dr.);Nadjiri, Jonathan (Priv.-Doz. Dr.), and Ostmeier, Anna Sophie Gertrud

Abstract

Dual-Energy Computed Tomography (DECT) has the capability to quantify tissue compositions. In order to translate DECT’s full potential into clinical practice this dissertation proposes reference values for healthy lymph nodes. The assessment of lymph nodes is highly relevant for classifying and staging of diseases. The retrospective study evaluated the iodine concentration for healthy lymph nodes in 99 patients per region. Potential reference values are (in mg/ml, SD-Interval): 2.1 (1.7 - 2.5) for the neck, 1.2 (0.8 - 1.6) for the axilla and 1.1 (0.8 - 1.4) for the groin., Die Dual-Energy-Computertomographie (DECT) bietet die Möglichkeit, Gewebezusammensetzungen zu quantifizieren. Besonders Referenzwerte der Jodkonzentration von gesunden Lymphknoten könnte in der klinischen Praxis für die Diagnostik und Klassifikation von Erkrankungen von Bedeutung sein. In einer retrospektiven Studie wurde die Jodkonzentration gesunder Lymphknoten bei 99 Patienten pro Region untersucht. Potenzielle Referenzwerte sind (in mg/ml, SD-Intervall): 2,1 (1,7 - 2,5) für den Hals, 1,2 (0,8 - 1,6) für die Achselhöhle und 1,1 (0,8 - 1,4) für die Leiste.

Published
2022

43. Dunkelfeld-Radiographie: Erste Ergebnisse in gesunden Probanden und Patienten mit Lungenemphysem

Author

Pfeiffer, Daniela (Prof. Dr.), Pfeiffer, Daniela (Prof. Dr.);Herzen, Julia (Prof. Dr.);Ley-Zaporozhan, Julia (Prof. Dr.), Gassert, Florian Tilman, Pfeiffer, Daniela (Prof. Dr.), Pfeiffer, Daniela (Prof. Dr.);Herzen, Julia (Prof. Dr.);Ley-Zaporozhan, Julia (Prof. Dr.), and Gassert, Florian Tilman

Abstract

In der vorliegenden Arbeit konnte gezeigt werden, dass die neuartige Dunkelfeld-Radiographie, welche nicht die Abschwächung sondern die Kleinwinkelstreuung beim Auftreffen der Röntgenstrahlen auf Gewebe misst, sich für die Bildgebung der menschlichen Lunge eignet und die Signalstärke dabei unabhängig von demographischen Parametern Alter, Geschlecht, Gewicht und Größe ist. Insbesondere für die Diagnostik eines Lungenemphysems konnte gezeigt werden, dass die Technik großes Potenzial aufweist., In the present work, it could be shown that the novel X-ray dark-field radiography, which measures the small-angle scattering occurring when the X-rays hit tissue rather than its attenuation, is suitable for imaging of the human lung and that the signal strength is independent of demographic parameters such as age, gender, weight and height. The technique has been shown to have great potential, particularly for diagnosing emphysema.

Published
2022

44. Vergleich der diagnostischen Leistungsfähigkeit verschiedener moderner Herz-MRT Techniken zur Detektion von myokardialen Schädigungen bei drei Tesla Feldstärke

Author

Pfeiffer, Daniela (Prof. Dr.), Pfeiffer, Daniela (Prof. Dr.);Görlach, Agnes (Prof. Dr.), Zaschka, Anna-Lena, Pfeiffer, Daniela (Prof. Dr.), Pfeiffer, Daniela (Prof. Dr.);Görlach, Agnes (Prof. Dr.), and Zaschka, Anna-Lena

Abstract

Die kardiale MRT gewinnt einen immer größeren Stellenwert bei der nicht-invasiven Diagnostik von Herzerkrankungen. Mapping Verfahren erweitern das Spektrum gewebespezifischer Analysen ohne invasive Biopsien. In dieser Arbeit wurden kardiale MRT-Daten (T1-/T2-Mapping, extrazelluläres Volumen) von nicht zuvor selektierten Patienten ausgewertet. Das Ziel war es Mapping-Referenzwerte für Patienten mit und ohne linksventrikuläre Pathologie zu generieren, die Leistungsfähigkeit der Mapping Verfahren hinsichtlich der Unterscheidung zwischen Normalbefunden und verschiedenen linksventrikulären Pathologien zu untersuchen und ihr Potenzial als Screening Methode herauszuarbeiten., Cardiac MRI is becoming increasingly important in the non-invasive diagnosis of heart disease. Mapping procedures expand the spectrum of tissue-specific analyzes without invasive biopsies. In this thesis, cardiac MRI data (T1 / T2 mapping, extracellular volume) were evaluated from not previously selected patients. The aim was to generate mapping reference values for patients with and without left ventricular pathology, to investigate the efficiency of the mapping procedures with regard to the differentiation between normal findings and various left ventricular pathologies and to work out their potential as a screening method.

Published
2022

45. Quantitative differentiation of minimal-fat angiomyolipomas from renal cell carcinomas using grating-based x-ray phase-contrast computed tomography: An ex vivo study

Author

Birnbacher, Lorenz, primary, Braunagel, Margarita, additional, Willner, Marian, additional, Marschner, Mathias, additional, De Marco, Fabio, additional, Viermetz, Manuel, additional, Auweter, Sigrid, additional, Notohamiprodjo, Susan, additional, Hellbach, Katharina, additional, Notohamiprodjo, Mike, additional, Staehler, Michael, additional, Pfeiffer, Daniela, additional, Reiser, Maximilian F., additional, Pfeiffer, Franz, additional, and Herzen, Julia, additional

Published
2023
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47. Coronary plaque characterization assessed by delayed enhancement dual-layer spectral CT angiography and optical coherence tomography

Author

Nadjiri, Jonathan, Koppara, Tobias, Kafka, Andre, Weis, Florian, Rasper, Michael, Gassert, Felix G., von Schacky, Claudio E., Pfeiffer, Daniela, Laugwitz, Karl-Ludwig, Makowski, Marcus R., and Ibrahim, Tareq

Abstract

This study aimed to prospectively evaluate delayed enhancement imaging by spectral computed tomography using soluble iodine containing contrast media to improve the in vivo characterization of coronary plaque types based on the quantification of delayed iodine enhancement. Patients with known or suspected coronary artery disease (CAD) underwent spectral coronary CT-angiography (SCCTA). Absolute delayed iodine enhancement in all visible coronary plaques was assessed. Patients with significant CAD (> 50% stenosis) further underwent invasive coronary angiography (ICA) including optical coherence tomography (OCT). We identified 50 non-calcified coronary plaques in 72 patients undergoing SCCTA. 17 patients with significant CAD underwent further ICA including OCT imaging. In those, we were able to match 35 plaques by both SCCTA and OCT. Based on OCT imaging, 22/35 matched plaques (63%) were characterized as high-risk coronary plaques (thin-cap fibroatheroma n = 2, fibroatheroma n = 20), whereas 13/35 (37%) were characterized as low-risk plaques (fibrocalcific lesion n = 3, fibrous plaques n = 9, and early-onset fibroatheroma n = 1). All plaques showed similar HU’s and could not be classified into high-risk or low-risk plaques by conventional CT measures. Minimal delayed iodine enhancement within plaques as quantified by SCCTA demonstrated significantly lower values in high-risk as compared to low-risk coronary plaques (1.0 ± 1.5 mg/ml vs. 2.2 ± 1.1 mg/ml, p = 0.021) which allowed estimation of high-risk plaques with high sensitivity and moderate specificity (77% and 56%). Measurement of delayed enhancement iodine uptake within stable coronary artery plaques using dual-layer SCCTA might contribute to a more precise estimation of plaque vulnerability surpassing conventional CT techniques.

Published
2024
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49. X-ray Dark-Field Chest Imaging: Qualitative and Quantitative Results in Healthy Humans

Author

Gassert, Florian T., primary, Urban, Theresa, additional, Frank, Manuela, additional, Willer, Konstantin, additional, Noichl, Wolfgang, additional, Buchberger, Philipp, additional, Schick, Rafael, additional, Koehler, Thomas, additional, von Berg, Jens, additional, Fingerle, Alexander A., additional, Sauter, Andreas P., additional, Makowski, Marcus R., additional, Pfeiffer, Daniela, additional, and Pfeiffer, Franz, additional

Published
2023
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