Your search keyword '"Brendlin A"' showing total 103 results

1. Focal Unspecific Bone Uptake on [18F]PSMA-1007 PET: Evaluation Analog PROMISE Criteria and Validation via PET/CT Follow-Up

Author

Jonas-Alexander Benecke, Eduardo Calderón, Gerald Reischl, Andreas Brendlin, Igor Tsaur, Christian la Fougère, and Jonas Vogel

Subjects

prostate cancer, [18F]PSMA-1007, PET/CT, unspecific bone uptake, bone lesion, bone metastases, Medicine (General), R5-920

Abstract

Background: Focal unspecific bone uptake (UBU) is common in [18F]PSMA-1007 PET/CT, yet its clinical significance remains unclear, causing uncertainty in treatment decisions. Material and Methods: We retrospectively analyzed 99 prostate cancer patients (age 69 ± 7) who underwent [18F]PSMA-1007 PET/CT scans (3 MBq/kg; uptake time 70 ± 14 min) for staging and follow-up (after 13.0 ± 7.2 months). Semiquantitative assessment using the miPSMA score, analogous to the PROMISE criteria, evaluated the prevalence of UBU and bone metastases. Results: In the initial PET/CT scan, 56 patients had 230 lesions classified as UBU. A total of 19 patients were found to have bone metastases and UBU, while 24 patients had no focal bone uptake. UBU distribution was as follows: ribs (50%), spine (30%), pelvis (15%), and other sites (5%). There were no significant differences in age, Gleason score, injected tracer dose, uptake time, SUVpeak of UBU, or SUVmean in the spleen and parotid gland between patients with and without UBU. Follow-up showed stable miPSMA-score and CT appearance in 44/56 patients with UBU (79%), minor changes in 5/56 patients (8%), and new bone metastases in 7/56 patients (12%). Patient-specific analysis indicated at least one bone metastasis initially classified as UBU in 3/56 patients (5%) and new bone metastases in 4/56 patients (7%). In total, 4 of the 24 patients (17%) without initial focal uptake developed osseous metastases at follow-up. Conclusions: No significant differences were found between patients with or without UBU. Only a small portion of UBU (2%) evolved into metastases, a lower rate than the development of new osseous metastases, which appears to be independent of UBU.

Published

2024

2. Factors Influencing Background Parenchymal Enhancement in Contrast-Enhanced Mammography Images

Author

Daniel Wessling, Simon Männlin, Ricarda Schwarz, Florian Hagen, Andreas Brendlin, Sebastian Gassenmaier, and Heike Preibsch

Subjects

breast density, mammography, female, Medicine (General), R5-920

Abstract

Background: The aim of this study is to evaluate the correlation between background parenchymal enhancement (BPE) and various patient-related and technical factors in recombined contrast-enhanced spectral mammography (CESM) images. Material and Methods: We assessed CESM images from 62 female patients who underwent CESM between May 2017 and October 2019, focusing on factors influencing BPE. A total of 235 images, all acquired using the same mammography machine, were analyzed. A region of interest (ROI) with a standard size of 0.75 to 1 cm2 was used to evaluate the minimal, maximal, and average pixel intensity enhancement. Additionally, the images were qualitatively assessed on a scale from 1 (minimal BPE) to 4 (marked BPE). We examined correlations with body mass index (BMI), age, hematocrit, hemoglobin levels, cardiovascular conditions, and the amount of pressure applied during the examination. Results: Our study identified a significant correlation between the amount of pressure applied during the examination and the BPE (Spearman’s ρ = 0.546). Additionally, a significant but weak correlation was observed between BPE and BMI (Spearman’s ρ = 0.421). No significant associations were found between BPE and menopausal status, cardiovascular preconditions, hematocrit, hemoglobin levels, breast density, or age. Conclusions: Patient-related and procedural factors significantly influence BPE in CESM images. Specifically, increased applied pressure and BMI are associated with higher BPE.

Published

2024

3. Enhancing Cone-Beam CT Image Quality in TIPSS Procedures Using AI Denoising

Author

Reza Dehdab, Andreas S. Brendlin, Gerd Grözinger, Haidara Almansour, Jan Michael Brendel, Sebastian Gassenmaier, Patrick Ghibes, Sebastian Werner, Konstantin Nikolaou, and Saif Afat

Subjects

TIPSS (Transjugular Intrahepatic Portosystemic Shunt), cone-beam computed tomography, AI denoising, image quality analysis, radiation dose reduction, Medicine (General), R5-920

Abstract

Purpose: This study evaluates a deep learning-based denoising algorithm to improve the trade-off between radiation dose, image noise, and motion artifacts in TIPSS procedures, aiming for shorter acquisition times and reduced radiation with maintained diagnostic quality. Methods: In this retrospective study, TIPSS patients were divided based on CBCT acquisition times of 6 s and 3 s. Traditional weighted filtered back projection (Original) and an AI denoising algorithm (AID) were used for image reconstructions. Objective assessments of image quality included contrast, noise levels, and contrast-to-noise ratios (CNRs) through place-consistent region-of-interest (ROI) measurements across various critical areas pertinent to the TIPSS procedure. Subjective assessments were conducted by two blinded radiologists who evaluated the overall image quality, sharpness, contrast, and motion artifacts for each dataset combination. Statistical significance was determined using a mixed-effects model (p ≤ 0.05). Results: From an initial cohort of 60 TIPSS patients, 44 were selected and paired. The mean dose-area product (DAP) for the 6 s acquisitions was 5138.50 ± 1325.57 µGy·m2, significantly higher than the 2514.06 ± 691.59 µGym2 obtained for the 3 s series. CNR was highest in the 6 s-AID series (p < 0.05). Both denoised and original series showed consistent contrast for 6 s and 3 s acquisitions, with no significant noise differences between the 6 s Original and 3 s AID images (p > 0.9). Subjective assessments indicated superior quality in 6 s-AID images, with no significant overall quality difference between the 6 s-Original and 3 s-AID series (p > 0.9). Conclusions: The AI denoising algorithm enhances CBCT image quality in TIPSS procedures, allowing for shorter scans that reduce radiation exposure and minimize motion artifacts.

Published

2024

4. Prospective Deployment of Deep Learning Reconstruction Facilitates Highly Accelerated Upper Abdominal MRI

Author

Brendel, Jan M., Jacoby, Johann, Dehdab, Reza, Ursprung, Stephan, Fritz, Victor, Werner, Sebastian, Herrmann, Judith, Brendlin, Andreas S., Gassenmaier, Sebastian, Schick, Fritz, Nickel, Dominik, Nikolaou, Konstantin, Afat, Saif, and Almansour, Haidara

Published

2024

5. Novel Deep Learning Denoising Enhances Image Quality and Lowers Radiation Exposure in Interventional Bronchial Artery Embolization Cone Beam CT

Author

Brendlin, Andreas S., Dehdab, Reza, Stenzl, Benedikt, Mueck, Jonas, Ghibes, Patrick, Groezinger, Gerd, Kim, Jonghyo, Afat, Saif, and Artzner, Christoph

Published

2024

6. Shortening Acquisition Time and Improving Image Quality for Pelvic MRI Using Deep Learning Reconstruction for Diffusion-Weighted Imaging at 1.5 T

Author

Herrmann, Judith, Benkert, Thomas, Brendlin, Andreas, Gassenmaier, Sebastian, Hölldobler, Thomas, Maennlin, Simon, Almansour, Haidara, Lingg, Andreas, Weiland, Elisabeth, and Afat, Saif

Published

2024

7. How Real Are Computed Tomography Low Dose Simulations? An Investigational In-Vivo Large Animal Study

Author

Brendlin, Andreas S., Wrazidlo, Robin, Almansour, Haidara, Estler, Arne, Plajer, David, Vega, Salvador Guillermo Castaneda, Klingert, Wilfried, Bertolani, Elisa, Othman, Ahmed E., Schenk, Martin, and Afat, Saif

Published

2023

8. AI Denoising Improves Image Quality and Radiological Workflows in Pediatric Ultra-Low-Dose Thorax Computed Tomography Scans

Author

Andreas S. Brendlin, Ulrich Schmid, David Plajer, Maryanna Chaika, Markus Mader, Robin Wrazidlo, Simon Männlin, Jakob Spogis, Arne Estler, Michael Esser, Jürgen Schäfer, Saif Afat, and Ilias Tsiflikas

Subjects

pneumonia, computed tomography, AI (artificial intelligence), image quality enhancement, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

(1) This study evaluates the impact of an AI denoising algorithm on image quality, diagnostic accuracy, and radiological workflows in pediatric chest ultra-low-dose CT (ULDCT). (2) Methods: 100 consecutive pediatric thorax ULDCT were included and reconstructed using weighted filtered back projection (wFBP), iterative reconstruction (ADMIRE 2), and AI denoising (PixelShine). Place-consistent noise measurements were used to compare objective image quality. Eight blinded readers independently rated the subjective image quality on a Likert scale (1 = worst to 5 = best). Each reader wrote a semiquantitative report to evaluate disease severity using a severity score with six common pathologies. The time to diagnosis was measured for each reader to compare the possible workflow benefits. Properly corrected mixed-effects analysis with post-hoc subgroup tests were used. Spearman’s correlation coefficient measured inter-reader agreement for the subjective image quality analysis and the severity score sheets. (3) Results: The highest noise was measured for wFBP, followed by ADMIRE 2, and PixelShine (76.9 ± 9.62 vs. 43.4 ± 4.45 vs. 34.8 ± 3.27 HU; each p < 0.001). The highest subjective image quality was measured for PixelShine, followed by ADMIRE 2, and wFBP (4 (4–5) vs. 3 (4–5) vs. 3 (2–4), each p < 0.001) with good inter-rater agreement (r ≥ 0.790; p ≤ 0.001). In diagnostic accuracy analysis, there was a good inter-rater agreement between the severity scores (r ≥ 0.764; p < 0.001) without significant differences between severity score items per reconstruction mode (F (5.71; 566) = 0.792; p = 0.570). The shortest time to diagnosis was measured for the PixelShine datasets, followed by ADMIRE 2, and wFBP (2.28 ± 1.56 vs. 2.45 ± 1.90 vs. 2.66 ± 2.31 min; F (1.000; 99.00) = 268.1; p < 0.001). (4) Conclusions: AI denoising significantly improves image quality in pediatric thorax ULDCT without compromising the diagnostic confidence and reduces the time to diagnosis substantially.

Published

2022

9. AI Denoising Significantly Enhances Image Quality and Diagnostic Confidence in Interventional Cone-Beam Computed Tomography

Author

Andreas S. Brendlin, Arne Estler, David Plajer, Adrian Lutz, Gerd Grözinger, Malte N. Bongers, Ilias Tsiflikas, Saif Afat, and Christoph P. Artzner

Subjects

cone beam computed tomography, AI (artificial intelligence), image quality enhancement, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

(1) To investigate whether interventional cone-beam computed tomography (cbCT) could benefit from AI denoising, particularly with respect to patient body mass index (BMI); (2) From 1 January 2016 to 1 January 2022, 100 patients with liver-directed interventions and peri-procedural cbCT were included. The unenhanced mask run and the contrast-enhanced fill run of the cbCT were reconstructed using weighted filtered back projection. Additionally, each dataset was post-processed using a novel denoising software solution. Place-consistent regions of interest measured signal-to-noise ratio (SNR) per dataset. Corrected mixed-effects analysis with BMI subgroup analyses compared objective image quality. Multiple linear regression measured the contribution of “Radiation Dose”, “Body-Mass-Index”, and “Mode” to SNR. Two radiologists independently rated diagnostic confidence. Inter-rater agreement was measured using Spearman correlation (r); (3) SNR was significantly higher in the denoised datasets than in the regular datasets (p < 0.001). Furthermore, BMI subgroup analysis showed significant SNR deteriorations in the regular datasets for higher patient BMI (p < 0.001), but stable results for denoising (p > 0.999). In regression, only denoising contributed positively towards SNR (0.6191; 95%CI 0.6096 to 0.6286; p < 0.001). The denoised datasets received overall significantly higher diagnostic confidence grades (p = 0.010), with good inter-rater agreement (r ≥ 0.795, p < 0.001). In a subgroup analysis, diagnostic confidence deteriorated significantly for higher patient BMI (p < 0.001) in the regular datasets but was stable in the denoised datasets (p ≥ 0.103).; (4) AI denoising can significantly enhance image quality in interventional cone-beam CT and effectively mitigate diagnostic confidence deterioration for rising patient BMI.

Published

2022

10. Early Tumor Size Reduction of at least 10% at the First Follow-Up Computed Tomography Can Predict Survival in the Setting of Advanced Melanoma and Immunotherapy

Author

Almansour, Haidara, Afat, Saif, Serna-Higuita, Lina Maria, Amaral, Teresa, Schraag, Amadeus, Peisen, Felix, Brendlin, Andreas, Seith, Ferdinand, Klumpp, Bernhard, Eigentler, Thomas K., and Othman, Ahmed E.

Published

2022

11. Focal Unspecific Bone Uptake on [ 18 F]PSMA-1007 PET: Evaluation Analog PROMISE Criteria and Validation via PET/CT Follow-Up.

Author

Benecke, Jonas-Alexander, Calderón, Eduardo, Reischl, Gerald, Brendlin, Andreas, Tsaur, Igor, la Fougère, Christian, and Vogel, Jonas

Subjects

BONE metastasis, PROSTATE cancer patients, COMPUTED tomography, PAROTID glands, GLEASON grading system, PROSTATE cancer

Abstract

Background: Focal unspecific bone uptake (UBU) is common in [18F]PSMA-1007 PET/CT, yet its clinical significance remains unclear, causing uncertainty in treatment decisions. Material and Methods: We retrospectively analyzed 99 prostate cancer patients (age 69 ± 7) who underwent [18F]PSMA-1007 PET/CT scans (3 MBq/kg; uptake time 70 ± 14 min) for staging and follow-up (after 13.0 ± 7.2 months). Semiquantitative assessment using the miPSMA score, analogous to the PROMISE criteria, evaluated the prevalence of UBU and bone metastases. Results: In the initial PET/CT scan, 56 patients had 230 lesions classified as UBU. A total of 19 patients were found to have bone metastases and UBU, while 24 patients had no focal bone uptake. UBU distribution was as follows: ribs (50%), spine (30%), pelvis (15%), and other sites (5%). There were no significant differences in age, Gleason score, injected tracer dose, uptake time, SUVpeak of UBU, or SUVmean in the spleen and parotid gland between patients with and without UBU. Follow-up showed stable miPSMA-score and CT appearance in 44/56 patients with UBU (79%), minor changes in 5/56 patients (8%), and new bone metastases in 7/56 patients (12%). Patient-specific analysis indicated at least one bone metastasis initially classified as UBU in 3/56 patients (5%) and new bone metastases in 4/56 patients (7%). In total, 4 of the 24 patients (17%) without initial focal uptake developed osseous metastases at follow-up. Conclusions: No significant differences were found between patients with or without UBU. Only a small portion of UBU (2%) evolved into metastases, a lower rate than the development of new osseous metastases, which appears to be independent of UBU. [ABSTRACT FROM AUTHOR]

Published

2024

12. Factors Influencing Background Parenchymal Enhancement in Contrast-Enhanced Mammography Images.

Author

Wessling, Daniel, Männlin, Simon, Schwarz, Ricarda, Hagen, Florian, Brendlin, Andreas, Gassenmaier, Sebastian, and Preibsch, Heike

Subjects

BODY mass index, MAMMOGRAMS, HEMOGLOBINS, WOMEN patients, PIXELS

Abstract

Background: The aim of this study is to evaluate the correlation between background parenchymal enhancement (BPE) and various patient-related and technical factors in recombined contrast-enhanced spectral mammography (CESM) images. Material and Methods: We assessed CESM images from 62 female patients who underwent CESM between May 2017 and October 2019, focusing on factors influencing BPE. A total of 235 images, all acquired using the same mammography machine, were analyzed. A region of interest (ROI) with a standard size of 0.75 to 1 cm2 was used to evaluate the minimal, maximal, and average pixel intensity enhancement. Additionally, the images were qualitatively assessed on a scale from 1 (minimal BPE) to 4 (marked BPE). We examined correlations with body mass index (BMI), age, hematocrit, hemoglobin levels, cardiovascular conditions, and the amount of pressure applied during the examination. Results: Our study identified a significant correlation between the amount of pressure applied during the examination and the BPE (Spearman's ρ = 0.546). Additionally, a significant but weak correlation was observed between BPE and BMI (Spearman's ρ = 0.421). No significant associations were found between BPE and menopausal status, cardiovascular preconditions, hematocrit, hemoglobin levels, breast density, or age. Conclusions: Patient-related and procedural factors significantly influence BPE in CESM images. Specifically, increased applied pressure and BMI are associated with higher BPE. [ABSTRACT FROM AUTHOR]

Published

2024

13. Enhancing Cone-Beam CT Image Quality in TIPSS Procedures Using AI Denoising.

Author

Dehdab, Reza, Brendlin, Andreas S., Grözinger, Gerd, Almansour, Haidara, Brendel, Jan Michael, Gassenmaier, Sebastian, Ghibes, Patrick, Werner, Sebastian, Nikolaou, Konstantin, and Afat, Saif

Subjects

*CONE beam computed tomography, *IMAGE quality analysis, *COMPUTED tomography, *IMAGE reconstruction, *REAR-screen projection

Abstract

Purpose: This study evaluates a deep learning-based denoising algorithm to improve the trade-off between radiation dose, image noise, and motion artifacts in TIPSS procedures, aiming for shorter acquisition times and reduced radiation with maintained diagnostic quality. Methods: In this retrospective study, TIPSS patients were divided based on CBCT acquisition times of 6 s and 3 s. Traditional weighted filtered back projection (Original) and an AI denoising algorithm (AID) were used for image reconstructions. Objective assessments of image quality included contrast, noise levels, and contrast-to-noise ratios (CNRs) through place-consistent region-of-interest (ROI) measurements across various critical areas pertinent to the TIPSS procedure. Subjective assessments were conducted by two blinded radiologists who evaluated the overall image quality, sharpness, contrast, and motion artifacts for each dataset combination. Statistical significance was determined using a mixed-effects model (p ≤ 0.05). Results: From an initial cohort of 60 TIPSS patients, 44 were selected and paired. The mean dose-area product (DAP) for the 6 s acquisitions was 5138.50 ± 1325.57 µGy·m2, significantly higher than the 2514.06 ± 691.59 µGym2 obtained for the 3 s series. CNR was highest in the 6 s-AID series (p < 0.05). Both denoised and original series showed consistent contrast for 6 s and 3 s acquisitions, with no significant noise differences between the 6 s Original and 3 s AID images (p > 0.9). Subjective assessments indicated superior quality in 6 s-AID images, with no significant overall quality difference between the 6 s-Original and 3 s-AID series (p > 0.9). Conclusions: The AI denoising algorithm enhances CBCT image quality in TIPSS procedures, allowing for shorter scans that reduce radiation exposure and minimize motion artifacts. [ABSTRACT FROM AUTHOR]

Published

2024

14. Image Quality and Quantitative PET Parameters of Low-Dose [18F]FDG PET in a Long Axial Field-of-View PET/CT Scanner

Author

Eduardo Calderón, Fabian P. Schmidt, Wenhong Lan, Salvador Castaneda-Vega, Andreas S. Brendlin, Nils F. Trautwein, Helmut Dittmann, Christian la Fougère, and Lena Sophie Kiefer

Subjects

total-body PET/CT scanner, LAFOV PET/CT, low-dose [18F]FDG PET, [18F]FDG, Medicine (General), R5-920

Abstract

PET/CT scanners with a long axial field-of-view (LAFOV) provide increased sensitivity, enabling the adjustment of imaging parameters by reducing the injected activity or shortening the acquisition time. This study aimed to evaluate the limitations of reduced [18F]FDG activity doses on image quality, lesion detectability, and the quantification of lesion uptake in the Biograph Vision Quadra, as well as to assess the benefits of the recently introduced ultra-high sensitivity mode in a clinical setting. A number of 26 patients who underwent [18F]FDG-PET/CT (3.0 MBq/kg, 5 min scan time) were included in this analysis. The PET raw data was rebinned for shorter frame durations to simulate 5 min scans with lower activities in the high sensitivity (HS) and ultra-high sensitivity (UHS) modes. Image quality, noise, and lesion detectability (n = 82) were assessed using a 5-point Likert scale. The coefficient of variation (CoV), signal-to-noise ratio (SNR), tumor-to-background ratio (TBR), and standardized uptake values (SUV) including SUVmean, SUVmax, and SUVpeak were evaluated. Subjective image ratings were generally superior in UHS compared to the HS mode. At 0.5 MBq/kg, lesion detectability decreased to 95% (HS) and to 98% (UHS). SNR was comparable at 1.0 MBq/kg in HS (5.7 ± 0.6) and 0.5 MBq/kg in UHS (5.5 ± 0.5). With lower doses, there were negligible reductions in SUVmean and SUVpeak, whereas SUVmax increased steadily. Reducing the [18F]FDG activity to 1.0 MBq/kg (HS/UHS) in a LAFOV PET/CT provides diagnostic image quality without statistically significant changes in the uptake parameters. The UHS mode improves image quality, noise, and lesion detectability compared to the HS mode.

Published

2023

15. AI Lung Segmentation and Perfusion Analysis of Dual-Energy CT Can Help to Distinguish COVID-19 Infiltrates from Visually Similar Immunotherapy-Related Pneumonitis Findings and Can Optimize Radiological Workflows

Author

Andreas S. Brendlin, Markus Mader, Sebastian Faby, Bernhard Schmidt, Ahmed E. Othman, Sebastian Gassenmaier, Konstantin Nikolaou, and Saif Afat

Subjects

COVID-19, dual energy, tomography, X-ray computed, artificial intelligence, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

(1) To explore the potential impact of an AI dual-energy CT (DECT) prototype on decision making and workflows by investigating its capabilities to differentiate COVID-19 from immunotherapy-related pneumonitis. (2) Methods: From 3 April 2020 to 12 February 2021, DECT from biometrically matching patients with COVID-19, pneumonitis, and inconspicuous findings were selected from our clinical routine. Three blinded readers independently scored each pulmonary lobe analogous to CO-RADS. Inter-rater agreement was determined with an intraclass correlation coefficient (ICC). Averaged perfusion metrics per lobe (iodine uptake in mg, volume without vessels in ml, iodine concentration in mg/mL) were extracted using manual segmentation and an AI DECT prototype. A generalized linear mixed model was used to investigate metric validity and potential distinctions at equal CO-RADS scores. Multinomial regression measured the contribution “Reader”, “CO-RADS score”, and “perfusion metrics” to diagnosis. The time to diagnosis was measured for manual vs. AI segmentation. (3) Results: We included 105 patients (62 ± 13 years, mean BMI 27 ± 2). There were no significant differences between manually and AI-extracted perfusion metrics (p = 0.999). Regardless of the CO-RADS score, iodine uptake and concentration per lobe were significantly higher in COVID-19 than in pneumonitis (p < 0.001). In regression, iodine uptake had a greater contribution to diagnosis than CO-RADS scoring (Odds Ratio (OR) = 1.82 [95%CI 1.10–2.99] vs. OR = 0.20 [95%CI 0.14–0.29]). The AI prototype extracted the relevant perfusion metrics significantly faster than radiologists (10 ± 1 vs. 15 ± 2 min, p < 0.001). (4) Conclusions: The investigated AI prototype positively impacts decision making and workflows by extracting perfusion metrics that differentiate COVID-19 from visually similar pneumonitis significantly faster than radiologists.

Published

2021

16. Diagnosis of an Acute Anterior Wall Infarction in Dual-Energy CT

Author

Aynur Gökduman, Ibrahim Yel, Thomas J. Vogl, Mirela Dimitrova, Leon D. Grünewald, Vitali Koch, Leona S. Alizadeh, Andreas S. Brendlin, Ahmed E. Othman, Simon S. Martin, Tommaso D’Angelo, Alfredo Blandino, Silvio Mazziotti, and Christian Booz

Subjects

dual-energy CT, myocardial infarct, acute chest pain, cardiovascular diseases, triple-rule-out, virtual monoenergetic images, Medicine (General), R5-920

Abstract

Due to its high morbidity and mortality, myocardial infarction is the leading cause of death worldwide. Against this background, rapid diagnosis is of immense importance. Especially in case of an atypical course, the correct diagnosis may be delayed and thus lead to increased mortality rates. In this report, we present a complex case of acute coronary syndrome. A triple-rule-out CT examination was performed in dual-energy CT (DECT) mode. While pulmonary artery embolism and aortic dissection could be ruled out with conventional CT series, the presence of anterior wall infarction was only detectable on DECT reconstructions. Subsequently, adequate and rapid therapy was then initiated leading to survival of the patient.

Published

2023

17. A Machine learning model trained on dual-energy CT radiomics significantly improves immunotherapy response prediction for patients with stage IV melanoma

Author

Konstantin Nikolaou, Thomas Eigentler, Ahmed E Othman, Andreas Stefan Brendlin, Felix Peisen, Haidara Almansour, Saif Afat, Sebastian Faby, and Adria Font Calvarons

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2021

18. Application of a Deep Learning Algorithm for Combined Super-Resolution and Partial Fourier Reconstruction Including Time Reduction in T1-Weighted Precontrast and Postcontrast Gradient Echo Imaging of Abdominopelvic MR Imaging

Author

Daniel Wessling, Judith Herrmann, Saif Afat, Dominik Nickel, Haidara Almansour, Gabriel Keller, Ahmed E. Othman, Andreas S. Brendlin, and Sebastian Gassenmaier

Subjects

MRI, deep learning, abdominal, pelvic, Medicine (General), R5-920

Abstract

Purpose: The purpose of this study was to test the technical feasibility and the impact on the image quality of a deep learning-based super-resolution reconstruction algorithm in 1.5 T abdominopelvic MR imaging. Methods: 44 patients who underwent abdominopelvic MRI were retrospectively included, of which 4 had to be subsequently excluded. After the acquisition of the conventional volume interpolated breath-hold examination (VIBEStd), images underwent postprocessing, using a deep learning-based iterative denoising super-resolution reconstruction algorithm for partial Fourier acquisitions (VIBESR). Image analysis of 40 patients with a mean age of 56 years (range 18–84 years) was performed qualitatively by two radiologists independently using a Likert scale ranging from 1 to 5, where 5 was considered the best rating. Results: Image analysis showed an improvement of image quality, noise, sharpness of the organs and lymph nodes, and sharpness of the intestine for pre- and postcontrast images in VIBESR compared to VIBEStd (each p < 0.001). Lesion detectability was better for VIBESR (p < 0.001), while there were no differences concerning the number of lesions. Average acquisition time was 16 s (±1) for the upper abdomen and 15 s (±1) for the pelvis for VIBEStd, and 15 s (±1) for the upper abdomen and 14 s (±1) for the pelvis for VIBESR. Conclusion: This study demonstrated the technical feasibility of a deep learning-based super-resolution algorithm including partial Fourier technique in abdominopelvic MR images and illustrated a significant improvement of image quality, noise, and sharpness while reducing TA.

Published

2022

19. Image Quality and Quantitative PET Parameters of Low-Dose [18F]FDG PET in a Long Axial Field-of-View PET/CT Scanner

Author

Calderón, Eduardo, primary, Schmidt, Fabian P., additional, Lan, Wenhong, additional, Castaneda-Vega, Salvador, additional, Brendlin, Andreas S., additional, Trautwein, Nils F., additional, Dittmann, Helmut, additional, la Fougère, Christian, additional, and Kiefer, Lena Sophie, additional

Published

2023

20. AI Denoising Significantly Improves Image Quality in Whole-Body Low-Dose Computed Tomography Staging

Author

Andreas S. Brendlin, David Plajer, Maryanna Chaika, Robin Wrazidlo, Arne Estler, Ilias Tsiflikas, Christoph P. Artzner, Saif Afat, and Malte N. Bongers

Subjects

computed tomography, tumor staging, AI (artificial intelligence), image quality enhancement, protection, radiation, Medicine (General), R5-920

Abstract

(1) Background: To evaluate the effects of an AI-based denoising post-processing software solution in low-dose whole-body computer tomography (WBCT) stagings; (2) Methods: From 1 January 2019 to 1 January 2021, we retrospectively included biometrically matching melanoma patients with clinically indicated WBCT staging from two scanners. The scans were reconstructed using weighted filtered back-projection (wFBP) and Advanced Modeled Iterative Reconstruction strength 2 (ADMIRE 2) at 100% and simulated 50%, 40%, and 30% radiation doses. Each dataset was post-processed using a novel denoising software solution. Five blinded radiologists independently scored subjective image quality twice with 6 weeks between readings. Inter-rater agreement and intra-rater reliability were determined with an intraclass correlation coefficient (ICC). An adequately corrected mixed-effects analysis was used to compare objective and subjective image quality. Multiple linear regression measured the contribution of “Radiation Dose”, “Scanner”, “Mode”, “Rater”, and “Timepoint” to image quality. Consistent regions of interest (ROI) measured noise for objective image quality; (3) Results: With good–excellent inter-rater agreement and intra-rater reliability (Timepoint 1: ICC ≥ 0.82, 95% CI 0.74–0.88; Timepoint 2: ICC ≥ 0.86, 95% CI 0.80–0.91; Timepoint 1 vs. 2: ICC ≥ 0.84, 95% CI 0.78–0.90; all p ≤ 0.001), subjective image quality deteriorated significantly below 100% for wFBP and ADMIRE 2 but remained good–excellent for the post-processed images, regardless of input (p ≤ 0.002). In regression analysis, significant increases in subjective image quality were only observed for higher radiation doses (≥0.78, 95%CI 0.63–0.93; p < 0.001), as well as for the post-processed images (≥2.88, 95%CI 2.72–3.03, p < 0.001). All post-processed images had significantly lower image noise than their standard counterparts (p < 0.001), with no differences between the post-processed images themselves. (4) Conclusions: The investigated AI post-processing software solution produces diagnostic images as low as 30% of the initial radiation dose (3.13 ± 0.75 mSv), regardless of scanner type or reconstruction method. Therefore, it might help limit patient radiation exposure, especially in the setting of repeated whole-body staging examinations.

Published

2022

21. Clinical Evaluation of an Abbreviated Contrast-Enhanced Whole-Body MRI for Oncologic Follow-Up Imaging

Author

Judith Herrmann, Saif Afat, Andreas Brendlin, Maryanna Chaika, Andreas Lingg, and Ahmed E. Othman

Subjects

magnetic resonance imaging, whole body imaging, cancer staging, Medicine (General), R5-920

Abstract

Over the last decades, overall survival for most cancer types has increased due to earlier diagnosis and more effective treatments. Simultaneously, whole-body MRI-(WB-MRI) has gained importance as a radiation free staging alternative to computed tomography. The aim of this study was to evaluate the diagnostic confidence and reproducibility of a novel abbreviated 20-min WB-MRI for oncologic follow-up imaging in patients with melanoma. In total, 24 patients with melanoma were retrospectively included in this institutional review board-approved study. All patients underwent three consecutive staging examinations via WB-MRI in a clinical 3 T MR scanner with an abbreviated 20-min protocol. Three radiologists independently evaluated the images in a blinded, random order regarding image quality (overall image quality, organ-based image quality, sharpness, noise, and artifacts) and regarding its diagnostic confidence on a 5-point-Likert-Scale (5 = excellent). Inter-reader agreement and reproducibility were assessed. Overall image quality and diagnostic confidence were rated to be excellent (median 5, interquartile range [IQR] 5–5). The sharpness of anatomic structures, and the extent of noise and artifacts, as well as the assessment of lymph nodes, liver, bone, and the cutaneous system were rated to be excellent (median 5, IQR 4–5). The image quality of the lung was rated to be good (median 4, IQR 4–5). Therefore, our study demonstrated that the novel accelerated 20-min WB-MRI protocol is feasible, providing high image quality and diagnostic confidence with reliable reproducibility for oncologic follow-up imaging.

Published

2021

22. Shortening Acquisition Time and Improving Image Quality for Pelvic MRI Using Deep Learning Reconstruction for Diffusion-Weighted Imaging at 1.5 T

Author

Herrmann, Judith, primary, Benkert, Thomas, additional, Brendlin, Andreas, additional, Gassenmaier, Sebastian, additional, Hölldobler, Thomas, additional, Maennlin, Simon, additional, Almansour, Haidara, additional, Lingg, Andreas, additional, Weiland, Elisabeth, additional, and Afat, Saif, additional

Published

2023

23. Diagnostic Performance of a Contrast-Enhanced Ultra-Low-Dose High-Pitch CT Protocol with Reduced Scan Range for Detection of Pulmonary Embolisms

Author

Andreas S. Brendlin, Moritz T. Winkelmann, Felix Peisen, Christoph P. Artzner, Konstantin Nikolaou, Ahmed E. Othman, and Saif Afat

Subjects

pulmonary embolism, emergency radiology, radiation dose reduction, iterative reconstruction, reduced scan range, 3rd generation dual-source CT, Medicine (General), R5-920

Abstract

(1) Background: To evaluate the diagnostic performance of a simulated ultra-low-dose (ULD), high-pitch computed tomography pulmonary angiography (CTPA) protocol with low tube current (mAs) and reduced scan range for detection of pulmonary embolisms (PE). (2) Methods: We retrospectively included 130 consecutive patients (64 ± 16 years, 69 female) who underwent clinically indicated high-pitch CTPA examination for suspected acute PE on a 3rd generation dual-source CT scanner (SOMATOM FORCE, Siemens Healthineers, Forchheim, Germany). ULD datasets with a realistic simulation of 25% mAs, reduced scan range (aortic arch—basal pericardium), and Advanced Modeled Iterative Reconstruction (ADMIRE®, Siemens Healthineers, Forchheim, Germany) strength 5 were created. The effective radiation dose (ED) of both datasets (standard and ULD) was estimated using a dedicated dosimetry software solution. Subjective image quality and diagnostic confidence were evaluated independently by three reviewers using a 5-point Likert scale. Objective image quality was compared using noise measurements. For assessment of diagnostic accuracy, patients and pulmonary vessels were reviewed binarily for affection by PE, using standard CTPA protocol datasets as the reference standard. Percentual affection of pulmonary vessels by PE was computed for disease severity (modified Qanadli score). (3) Results: Mean ED in ULD protocol was 0.7 ± 0.3 mSv (16% of standard protocol: 4.3 ± 1.7 mSv, p < 0.001, r > 0.5). Comparing ULD to standard protocol, subjective image quality and diagnostic confidence were comparably good (p = 0.486, r > 0.5) and image noise was significantly lower in ULD (p < 0.001, r > 0.5). A total of 42 patients (32.2%) were affected by PE. ULD protocol had a segment-based false-negative rate of only 0.1%. Sensitivity for detection of any PE was 98.9% (95% CI, 97.2–99.7%), specificity was 100% (95% CI, 99.8–100%), and overall accuracy was 99.9% (95% CI, 98.6–100%). Diagnoses correlated strongly between ULD and standard protocol (Chi-square (1) = 42, p < 0.001) with a decrease in disease severity of only 0.48% (T = 1.667, p = 0.103). (4) Conclusions: Compared to a standard CTPA protocol, the proposed ULD protocol proved reliable in detecting and ruling out acute PE with good levels of image quality and diagnostic confidence, as well as significantly lower image noise, at 0.7 ± 0.3 mSv (84% dose reduction).

Published

2021

24. World Congress Integrative Medicine & Health 2017: part two

Author

Carolyn Ee, Sharmala Thuraisingam, Marie Pirotta, Simon French, Charlie Xue, Helena Teede, Agnete E. Kristoffersen, Fuschia Sirois, Trine Stub, Jennifer Engler, Stefanie Joos, Corina Güthlin, Jennifer Felenda, Christiane Beckmann, Florian Stintzing, Roni Evans, Gert Bronfort, Daniel Keefe, Anna Taberko, Linda Hanson, Alex Haley, Haiwei Ma, Joseph Jolton, Lana Yarosh, Francis Keefe, Jung Nam, Liwanag Ojala, Mary J. Kreitzer, Careen Fink, Karin Kraft, Andrew Flower, George Lewith, Kim Harman, Beth Stuart, Felicity L. Bishop, Jane Frawley, Lilla Füleki, Eva Kiss, Tamas Vancsik, Tibor Krenacs, Martha Funabashi, Katherine A. Pohlman, Silvano Mior, Haymo Thiel, Michael D. Hill, David J. Cassidy, Michael Westaway, Jerome Yager, Eric Hurwitz, Gregory N. Kawchuk, Maeve O’Beirne, Sunita Vohra, Isabelle Gaboury, Chantal Morin, Katharina Gaertner, Loredana Torchetti, Martin Frei-Erb, Michael Kundi, Michael Frass, Eugenia Gallo, Valentina Maggini, Mattia Comite, Francesco Sofi, Sonia Baccetti, Alfredo Vannacci, Mariella Di Stefano, Maria V. Monechi, Luigi Gori, Elio Rossi, Fabio Firenzuoli, Rocco D. Mediati, Giovanna Ballerini, Paula Gardiner, Anna S. Lestoquoy, Lily Negash, Sarah Stillman, Prachi Shah, Jane Liebschutz, Pamela Adelstein, Christine Farrell-Riley, Ivy Brackup, Brian Penti, Robert Saper, Isabel Giralt Sampedro, Gilda Carvajal, Andreas Gleiss, Marie M. Gross, Dorothea Brendlin, Jonas Röttger, Wiebke Stritter, Georg Seifert, Noelle Grzanna, Rainer Stange, Peter W. Guendling, Wen Gu, Yan Lu, Jie Wang, Chengcheng Zhang, Hua Bai, Yuxi He, Xiaoxu Zhang, Zhengju Zhang, Dali Wang, Fengxian Meng, Alexander Hagel, Heinz Albrecht, Claudia Vollbracht, Wolfgang Dauth, Wolfgang Hagel, Francesco Vitali, Ingo Ganzleben, Hans Schultis, Peter Konturek, Jürgen Stein, Markus Neurath, Martin Raithel, Bianka Krick, Heidemarie Haller, Petra Klose, Gustav Dobos, Sherko Kümmel, Holger Cramer, Felix J. Saha, Anna Kowoll, Barbara Ebner, Bettina Berger, Kyung-Eun Choi, Lisha He, Han Wang, X. He, C. Gu, Y. Zhang, Linhua Zhao, Xiaolin Tong, Xinhui He, Chengjuan Gu, Ying Zhang, Robin S. T. Ho, Vincent C. H. Chung, Xinyin Wu, Charlene H. L. Wong, Justin C. Y. Wu, Samuel Y. S. Wong, Alexander Y. L. Lau, Regina W. S. Sit, Wendy Wong, Michelle Holmes, Felicity Bishop, Lynn Calman, Dave Newell, Jonathan Field, Win L. Htut, Dongwoon Han, Da I. Choi, Soo J. Choi, Ha Y. Kim, Jung H. Hwang, Ching W. Huang, Bo H. Jang, Fang P. Chen, Seong G. Ko, Wenjing Huang, De Jin, Fengmei Lian, Soobin Jang, Kyeong H. Kim, Eun K. Lee, Seung H. Sun, Ho Y. Go, Youme Ko, Sunju Park, Yong C. Shin, Hubert Janik, Natalie Greiffenhagen, Jürgen Bolte, Mariusz Jaworski, Miroslawa Adamus, Aleksandra Dobrzynska, Michael Jeitler, Jessica Jaspers, Christel von Scheidt, Barbara Koch, Andreas Michalsen, Nico Steckhan, Christian Kessler, Wen-jing Huang, Bing Pang, Feng-Mei Lian, Miek Jong, Erik Baars, Anja Glockmann, Harald Hamre, Mosaburo Kainuma, Aya Murakami, Toshio Kubota, Daisuke Kobayashi, Yasuhiro Sumoto, Norihiro Furusyo, Shin-Ichi Ando, Takao Shimazoe, Olaf Kelber, S. Verjee, Eva Gorgus, Dieter Schrenk, Kathi Kemper, Ellie Hill, Nisha Rao, Gregg Gascon, John Mahan, Gunver Kienle, Jörg Dietrich, Claudia Schmoor, Roman Huber, Weon H. Kim, Mansoor Ahmed, Luzhu He, Jung Hye Hwang, Nora Meggyeshazi, Csaba Kovago, Anne K. Klaus, Roland Zerm, Danilo Pranga, Thomas Ostermann, Marcus Reif, Hans Broder von Laue, Benno Brinkhaus, Matthias Kröz, Daniela Rodrigues Recchia, Hans B. von Laue, Christien T. Klein-Laansma, Mats Jong, Cornelia von Hagens, Jean P. Jansen, Herman van Wietmarschen, Miek C. Jong, Seung-Ho Sun, Ho-Yeon Go, Chan-Yong Jeon, Yun-Kyung Song, Seong-Gyu Ko, Anna K. Koch, Sybille Rabsilber, Romy Lauche, Jost Langhorst, Milena Trifunovic-Koenig, Evi Koster, Diana Delnoij, Lena Kroll, Kathrin Weiss, Ai Kubo, Sarah Hendlish, Andrea Altschuler, Nancy Connolly, Andy Avins, Jon Wardle, David Lee, David Sibbritt, Jon Adams, Crystal Park, Gita Mishra, Johann Lechner, Inseon Lee, Younbyoung Chae, Jisu Lee, Seung H. Cho, Yujin Choi, Jee Y. Lee, Han S. Ryu, Sung S. Yoon, Hye K. Oh, Lyun K. Hyun, Jin O. Kim, Seong W. Yoon, Ju-Yeon Lee, Sang-Hoon Shin, Min Jang, Indra Müller, So-Hyun Janson Park, Lance Laird, Suzanne Mitchell, Xiaofei Li, Yunhui Wang, Jianhua Zhen, He Yu, Tiegang Liu, Xiaohong Gu, Hui Liu, Weiguo Ma, Xuezheng Shang, Yu Bai, Wei Liu, Collin Rooney, Amos Smith, Shirlene Lopes, Marcelo Demarzo, Maria do Patrocínio Nunes, Peter Lorenz, Carsten Gründemann, Miriam Heinrich, Manuel Garcia-Käufer, Franziska Grunewald, Silke Messerschmidt, Anja Herrick, Kim Gruber, Matthias Knödler, Carmen Steinborn, Taoying Lu, Lixin Wang, Darong Wu, Christina M Luberto, Daniel L. Hall, Emma Chad-Friedman, Suzanne Lechner, Elyse R. Park, Christina M. Luberto, Elyse Park, Janice Goodman, Sonja Luer, Matthias Heri, Klaus von Ammon, Ida Landini, Andrea Lapucci, Stefania Nobili, Enrico Mini, Clare McDermott, Selwyn Richards, Diane Cox, Sarah Frossell, Geraldine Leydon, Caroline Eyles, Hilly Raphael, Rachael Rogers, Michelle Selby, Charlotte Adler, Jo Allam, Xiangwei Bu, Honghong Zhang, Jianpeng Zhang, Michael Mikolasek, Jonas Berg, Claudia Witt, Jürgen Barth, Ivan Miskulin, Zdenka Lalic, Maja Miskulin, Albina Dumic, Damir Sebo, Aleksandar Vcev, Nasr A. A. Mohammed, Soo Jeung Choi, Hyea Bin Im, Anwesha Mukherjee, Amit Kandhare, Subhash Bodhankar, Prasad Thakurdesai, Niki Munk, Erica Evans, Amanda Froman, Matthew Kline, Matthew J. Bair, Frauke Musial, Terje Alræk, Harald J. Hamre, Lars Björkman, Vinjar M. Fønnebø, Feng-mei Lian, Qing Ni, Xiao-lin Tong, Xin-long Li, Wen-ke Liu, Shuo Feng, Xi-yan Zhao, Yu-jiao Zheng, Xue-min Zhao, Yi-qun Lin, Tian-yu Zhao, Xi-Yan Zhao, Hui Che Phd, Chen Zhang, Feng Liu, Lin-hua Zhao, Ru Ye, Cheng-juan Gu, Wenbo Peng, Diana De Carvalho, Mohamed El-Bayoumi, Bob Haig, Kimbalin Kelly, Darrell J. Wade, Emanuela Portalupi, Giampietro Gobo, Luigi Bellavita, Chiara Guglielmetti, Christa Raak, Myriam Teuber, Friedrich Molsberger, Ulrich von Rath, Ulrike Reichelt, Uta Schwanebeck, Sabine Zeil, Christian Vogelberg, Dolores Rodríguez Veintimilla, Guerrero Tapia Mery, Marisol Maldonado Villavicencio, Sandra Herrera Moran, Christian Sachse, Peter W Gündlin, Monirsadat Sahebkarkhorasani, Hoda Azizi, Dania Schumann, Tobias Sundberg, Matthew J. Leach, Susana Seca, Henry Greten, Sugir Selliah, Anu Shakya, Ha Yun Kim, Hyea B. Im, Anna Sherbakova, Gudrun Ulrich-Merzenich, Heba Abdel-Aziz, Erica Sibinga, Lindsey Webb, Jonathan Ellen, Kari Skrautvol, Dagfinn Nåden, Rhayun Song, Weronika Grabowska, Kamila Osypiuk, Gloria V. Diaz, Paolo Bonato, Moonkyoung Park, Jeffrey Hausdorff, Michael Fox, Lewis R. Sudarsky, Daniel Tarsy, James Novakowski, Eric A. Macklin, Peter M. Wayne, Inok Hwang, Sukhee Ahn, Myung-Ah Lee, Min K. Sohn, Oleg Sorokin, Dagmar Heydeck, Astrid Borchert, Christoph-Daniel Hohmann, Harmut Kühn, Clemens Kirschbaum, Tobias Stalder, Barbara Stöckigt, Michael Teut, Ralf Suhr, Daniela Sulmann, Chris Streeter, Patrica Gerbarg, Marisa Silveri, Richard Brown, John Jensen, Britta Rutert, Angelika Eggert, Alfred Längler, Christine Holmberg, Jin Sun, Xin Deng, Wen-Yuan Li, Bin Wen, Nicola Robinson, Jian-Ping Liu, Hyun K. Sung, Narae Yang, Seon M. Shin, Hee Jung, Young J. Kim, Woo S. Jung, Tae Y. Park, Kiyoshi Suzuki, Toshinori Ito, Seiya Uchida, Seika Kamohara, Naoya Ono, Mitsuyuki Takamura, Ayumu Yokochi, Kazuo Maruyama, Patricio Tapia, Katarzyna Thabaut, Anja Thronicke, Megan Steele, Harald Matthes, Cornelia Herbstreit, Friedemann Schad, Jiaxing Tian, Libo Yang, Tian Tian, Hewei Zhang, Xia Tian, CongCong Wang, Qian Yun Chai, Lijuan Zhang, Ruyu Xia, Na Huang, Yutong Fei, Jianpin Liu, Natalie Trent, Mindy Miraglia, Jeffrey Dusek, Edi Pasalis, Sat B. Khalsa, Milena Trifunovic-König, Anna Koch, Lisa Uebelacker, Geoffrey Tremont, Lee Gillette, Gary Epstein-Lubow, David Strong, Ana Abrantes, Audrey Tyrka, Tanya Tran, Brandon Gaudiano, Ivan Miller, Gerhild Ullmann, Yuhua Li, Sujata Vaidya, Vinod Marathe, Ana C. Vale, Jacquelyne Motta, Fabíola Donadão, Angela C. Valente, Luana C. Carvalho Valente, Ricardo Ghelman, Dusan Vesovic, Dragan Jevdic, Aleksandar Jevdic, Katarina Jevdic, Mihael Djacic, Dragica Letic, Drago Bozic, Marija Markovic, Slobodan Dunjic, Gordana Ruscuklic, Dezire Baksa, Kenan Vrca, Ann Vincent, Dietlind Wahner-Roedler, Mary Whipple, Maria M. Vogelius, Iris Friesecke, Peter W. Gündling, Saswati Mahapatra, Rebecca Hynes, Kimberly Van Rooy, Sherry Looker, Aditya Ghosh, Brent Bauer, Susanne Cutshall, Harald Walach, Ana Borges Flores, Michael Ofner, Andreas Kastner, Gerhard Schwarzl, Hermann Schwameder, Nathalie Alexander, Gerda Strutzenberger, Xianwei Bu, Jianping Zhang, Shang Wang, Jinfeng Shi, Yu Hao, Jun Wu, Zeji Qiu, Yuh-Hai Wang, Chi-Jung Lou, Sam Watts, Peter Wayne, Gloria Vergara-Diaz, Brian Gow, Jose Miranda, Lewis Sudarsky, Eric Macklin, Kathrin Wode, Jenny Bergqvist, Britt-Marie Bernhardsson, Johanna Hök Nordberg, Lena Sharp, Roger Henriksson, Yeonju Woo, Min K. Hyun, Hao Wu, Tian-Fang Wang, Yan Zhao, Yu Wei, Lei Tian, Lei He, Xue Wang, Ruohan Wu, Mei Han, Patrina H. Y. Caldwell, Shigang Liu, Jing Zhang, Jianping Liu, Qianyun Chai, Zhongning Guo, Congcong Wang, Zhijun Liu, Xun Li, I. J. Yang, V. Ruberio Lincha, S. H. Ahn, D. U. Lee, H. M. Shin, Lu Yang, N. Yang, H. Sung, S. M. Shin, H. Y. Go, H. Jung, Y. Kim, T. Y. Park, Angela Yap, Yu H. Kwan, Chuen S. Tan, Syed Ibrahim, Seng B. Ang, Alfred Yayi, Jeong E. Yoo, Ho R. Yoo, Sae B. Jang, Hye L. Lee, Ala’a Youssef, Shahira Ezzat, Amira Abdel Motaal, Hesham El-Askary, Xiaotong Yu, Yashan Cui, Younghee Yun, Jin-Hyang Ahn, Bo-Hyung Jang, Kyu-Seok Kim, Inhwa Choi, Augustina Glinz, Fadime ten Brink, Arnd Büssing, Christoph Gutenbrunner, Bert Helbrecht, Tiesheng Fang, Fengxion Meng, Zhiming Shen, Ruixin Zhang, Fan Wu, Ming Li, Xinyun Xuan, Xueyong Shen, Ke Ren, Brian Berman, Zian Zheng, Yuxiang Wan, Xueyan Ma, Fei Dong, Suzie Zick, Richard Harris, Go E. Bae, Jung N. Kwon, Hye Y. Lee, Jong K. Nam, Sang D. Lee, Dong H. Lee, Ji Y. Han, Young J. Yun, Ji H. Lee, Hye L. Park, Seong H. Park, Chiara Bocci, Giovanni B. Ivaldi, Ilaria Vietti, Ilaria Meaglia, Marta Guffi, Rubina Ruggiero, Marita Gualea, Emanuela Longa, Massimo Bonucci, Sarah Croke, Lourdes Diaz Rodriguez, Juan C. Caracuel-Martínez, Manuel F. Fajardo-Rodríguez, Angélica Ariza-García, Francisca García-De la Fuente, Manuel Arroyo-Morales, Maria S. Estrems, Vicente G. Gómez, Mónica Valero Sabater, Rosaria Ferreri, Simonetta Bernardini, Roberto Pulcri, Franco Cracolici, Massimo Rinaldi, Claudio Porciani, Peter Fisher, John Hughes, Ariadna Mendoza, Hugh MacPherson, Jacqueline Filshie, Antonia Di Francesco, Alberto Bernardini, Monica Messe, Vincenzo Primitivo, Piera A. Iasella, Monica Taminato, Jaqueline Do Carmo Alcantara, Katia R. De Oliveira, Debora C. De Azevedo Rodrigues, Juliana R. Campana Mumme, Olga K. Matsumoto Sunakozawa, Vicente Odone Filho, Joshua Goldenberg, Andrew Day, Masa Sasagawa, Lesley Ward, Kieran Cooley, Thora Gunnarsdottir, Ingibjorg Hjaltadottir, Mahdie Hajimonfarednejad, Nicole Hannan, Rut Hellsing, Susanne Andermo, Maria Arman, Iris von Hörsten, Patricia Vásquez Torrielo, Carmen L. Andrade Vilaró, Francisco Cerda Cabrera, Henny Hui, Eric Ziea, Dora Tsui, Joyce Hsieh, Christine Lam, Edith Chan, Mark P. Jensen, Samuel L. Battalio, Joy Chan, Karlyn A. Edwards, Kevin J. Gertz, Melissa A. Day, Leslie H. Sherlin, Dawn M. Ehde, Bo-Hyoung Jang, Anja Börner, Jihong Lee, Boram Lee, Gyu T. Chang, Alejandra Menassa, Yoshiharu Motoo, Jürgen Müller, Sabine Rabini, Bettina Vinson, Martin Storr, Martin Niemeijer, Joop Hoekman, Wied Ruijssenaaars, Faith C. Njoku, Arne J. Norheim, Filiz Okumus, and Halime Oncu-Celik

Subjects

Other systems of medicine, RZ201-999

Published

2017

25. Early Tumor Size Reduction of at least 10% at the First Follow-Up Computed Tomography Can Predict Survival in the Setting of Advanced Melanoma and Immunotherapy

Author

Thomas Eigentler, Ferdinand Seith, Amadeus Schraag, Saif Afat, Felix Peisen, Teresa Amaral, Haidara Almansour, Andreas Brendlin, Bernhard Klumpp, Lina María Serna-Higuita, and Ahmed E. Othman

Subjects

Oncology, medicine.medical_specialty, Context (language use), 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Humans, Radiology, Nuclear Medicine and imaging, Prospective Studies, Progression-free survival, Prospective cohort study, Melanoma, Retrospective Studies, business.industry, fungi, Retrospective cohort study, medicine.disease, Clinical trial, Treatment Outcome, 030220 oncology & carcinogenesis, Biomarker (medicine), Immunotherapy, Tomography, X-Ray Computed, business, Progressive disease, Follow-Up Studies

Abstract

Early tumor size reduction (TSR) has been explored as a prognostic factor for survival in patients with advanced melanoma in clinical trials. The purpose of this analysis is to validate, in a routine clinical milieu, the predictive capacity of TSR by 10% for overall survival (OS) and progression-free survival (PFS) and to compare its predictive performance with the RECIST 1.1 criteria.This retrospective study was approved by the local ethics committee. A total of 152 patients with both CT before immunotherapy initiation and at first response evaluation after immunotherapy initiation were included. Prior to statistical analysis, treatment response was trichotomized as follows: Complete response and/or partial response, stable disease and progressive disease. Furthermore, response was dichotomized regarding TSR (TSR ≥ 10% and TSR10%). Kaplan-Meier survival estimates, Cox regression and Harrel's concordance index (C-index) were computed for prediction of overall survival and progression-free survival.Tumor size reduction by at least 10% significantly differentiated between patients with increased survival from the ones with decreased survival (median OS: TSR ≥ 10%: 2137 days vs. TSR10%: 263 days) (p0.001) (median PFS: TSR ≥ 10%: 590 days vs. TSR10%: 11 days) (p0.001). RECIST 1.1. criteria had a slightly higher C-index for overall survival reflecting a slight superior predictive capacity (RECIST: 0.69 vs TSR: 0.64) but a similar predictive capacity regarding progression-free survival (both: 0. 63).Early tumor size reduction serves as a simple-to-use metric which can be implemented on the first follow-up CT. Tumor size reduction by at least 10% can be considered an additional biomarker predictive of overall survival and progression-free survival in routine clinical care and not only in the context of clinical trials in patients with advanced melanoma undergoing immunotherapy. Nevertheless, RECIST-based criteria should remain the main tool of treatment response assessment until results of prospective studies validating the TSR method are available.

Published

2022

26. Simulated Radiation Dose Reduction in Whole-Body CT on a 3rd Generation Dual-Source Scanner: An Intraindividual Comparison

Author

Andreas S. Brendlin, Moritz T. Winkelmann, Phuong Linh Do, Vincent Schwarze, Felix Peisen, Haidara Almansour, Malte N. Bongers, Christoph P. Artzner, Jakob Weiss, Jong Hyo Kim, Ahmed E. Othman, and Saif Afat

Subjects

CT, whole-body staging, radiation dose, 3rd generation dual-source scanner, iterative reconstruction (IR), Filtered Back Projection (FBP), Medicine (General), R5-920

Abstract

To evaluate the effect of radiation dose reduction on image quality and diagnostic confidence in contrast-enhanced whole-body computed tomography (WBCT) staging. We randomly selected March 2016 for retrospective inclusion of 18 consecutive patients (14 female, 60 ± 15 years) with clinically indicated WBCT staging on the same 3rd generation dual-source CT. Using low-dose simulations, we created data sets with 100, 80, 60, 40, and 20% of the original radiation dose. Each set was reconstructed using filtered back projection (FBP) and Advanced Modeled Iterative Reconstruction (ADMIRE®, Siemens Healthineers, Forchheim, Germany) strength 1–5, resulting in 540 datasets total. ADMIRE 2 was the reference standard for intraindividual comparison. The effective radiation dose was calculated using commercially available software. For comparison of objective image quality, noise assessments of subcutaneous adipose tissue regions were performed automatically using the software. Three radiologists blinded to the study evaluated image quality and diagnostic confidence independently on an equidistant 5-point Likert scale (1 = poor to 5 = excellent). At 100%, the effective radiation dose in our population was 13.3 ± 9.1 mSv. At 20% radiation dose, it was possible to obtain comparably low noise levels when using ADMIRE 5 (p = 1.000, r = 0.29). We identified ADMIRE 3 at 40% radiation dose (5.3 ± 3.6 mSv) as the lowest achievable radiation dose with image quality and diagnostic confidence equal to our reference standard (p = 1.000, r > 0.4). The inter-rater agreement for this result was almost perfect (ICC ≥ 0.958, 95% CI 0.909–0.983). On a 3rd generation scanner, it is feasible to maintain good subjective image quality, diagnostic confidence, and image noise in single-energy WBCT staging at dose levels as low as 40% of the original dose (5.3 ± 3.6 mSv), when using ADMIRE 3.

Published

2021

27. Diagnostic Performance of Different Simulated Low-Dose Levels in Patients with Suspected Cervical Abscess Using a Third-Generation Dual-Source CT Scanner

Author

Moritz T. Winkelmann, Saif Afat, Sven S. Walter, Eva Stock, Vincent Schwarze, Andreas Brendlin, Manuel Kolb, Christoph P. Artzner, and Ahmed E. Othman

Subjects

cervical abscess, neck computed tomography, radiation dosage, iterative reconstruction, third-generation dual-source CT, image reconstruction, Medicine (General), R5-920

Abstract

The aim of this study was to investigate the effects of dose reduction on diagnostic accuracy and image quality of cervical computed tomography (CT) in patients with suspected cervical abscess. Forty-eight patients (mean age 45.5 years) received a CT for suspected cervical abscess. Low-dose CT (LDCT) datasets with 25%, 50%, and 75% of the original dose were generated with a realistic simulation. The image data were reconstructed with filtered back projection (FBP) and with advanced modeled iterative reconstruction (ADMIRE) (strengths 3 and 5). A five-point Likert scale was used to assess subjective image quality and diagnostic confidence. The signal-to-noise ratio (SNR) of the sternocleidomastoid muscle and submandibular gland and the contrast-to-noise ratio (CNR) of the sternocleidomastoid muscle and submandibular glandular fat were calculated to assess the objective image quality. Diagnostic accuracy was calculated for LDCT using the original dose as the reference standard. The prevalence of cervical abscesses was high (72.9%) in the cohort; the mean effective dose for all 48 scans was 1.8 ± 0.8 mSv. Sternocleidomastoid and submandibular SNR and sternocleidomastoid muscle fat and submandibular gland fat CNR increased with higher doses and were significantly higher for ADMIRE compared to FBP, with the best results in ADMIRE 5 (all p < 0.001). Subjective image quality was highest for ADMIRE 5 at 75% and lowest for FBP at 25% of the original dose (p < 0.001). Diagnostic confidence was highest for ADMIRE 5 at 75% and lowest for FBP at 25% (p < 0.001). Patient-based diagnostic accuracy was high for all LDCT datasets, down to 25% for ADMIRE 3 and 5 (sensitivity: 100%; specificity: 100%) and lower for FBP at 25% dose reduction (sensitivity: 88.6–94.3%; specificity: 92.3–100%). The use of a modern dual-source CT of the third generation and iterative reconstruction allows a reduction in the radiation dose to 25% (0.5 mSv) of the original dose with the same diagnostic accuracy for the assessment of neck abscesses.

Published

2020

28. Image Quality and Quantitative PET Parameters of Low-Dose [ 18 F]FDG PET in a Long Axial Field-of-View PET/CT Scanner.

Author

Calderón, Eduardo, Schmidt, Fabian P., Lan, Wenhong, Castaneda-Vega, Salvador, Brendlin, Andreas S., Trautwein, Nils F., Dittmann, Helmut, la Fougère, Christian, and Kiefer, Lena Sophie

Subjects

SCANNING systems, SIGNAL-to-noise ratio, LIKERT scale, DIAGNOSTIC imaging

Abstract

PET/CT scanners with a long axial field-of-view (LAFOV) provide increased sensitivity, enabling the adjustment of imaging parameters by reducing the injected activity or shortening the acquisition time. This study aimed to evaluate the limitations of reduced [18F]FDG activity doses on image quality, lesion detectability, and the quantification of lesion uptake in the Biograph Vision Quadra, as well as to assess the benefits of the recently introduced ultra-high sensitivity mode in a clinical setting. A number of 26 patients who underwent [18F]FDG-PET/CT (3.0 MBq/kg, 5 min scan time) were included in this analysis. The PET raw data was rebinned for shorter frame durations to simulate 5 min scans with lower activities in the high sensitivity (HS) and ultra-high sensitivity (UHS) modes. Image quality, noise, and lesion detectability (n = 82) were assessed using a 5-point Likert scale. The coefficient of variation (CoV), signal-to-noise ratio (SNR), tumor-to-background ratio (TBR), and standardized uptake values (SUV) including SUVmean, SUVmax, and SUVpeak were evaluated. Subjective image ratings were generally superior in UHS compared to the HS mode. At 0.5 MBq/kg, lesion detectability decreased to 95% (HS) and to 98% (UHS). SNR was comparable at 1.0 MBq/kg in HS (5.7 ± 0.6) and 0.5 MBq/kg in UHS (5.5 ± 0.5). With lower doses, there were negligible reductions in SUVmean and SUVpeak, whereas SUVmax increased steadily. Reducing the [18F]FDG activity to 1.0 MBq/kg (HS/UHS) in a LAFOV PET/CT provides diagnostic image quality without statistically significant changes in the uptake parameters. The UHS mode improves image quality, noise, and lesion detectability compared to the HS mode. [ABSTRACT FROM AUTHOR]

Published

2023

29. Diagnosis of an Acute Anterior Wall Infarction in Dual-Energy CT

Author

Gökduman, Aynur, primary, Yel, Ibrahim, additional, Vogl, Thomas J., additional, Dimitrova, Mirela, additional, Grünewald, Leon D., additional, Koch, Vitali, additional, Alizadeh, Leona S., additional, Brendlin, Andreas S., additional, Othman, Ahmed E., additional, Martin, Simon S., additional, D’Angelo, Tommaso, additional, Blandino, Alfredo, additional, Mazziotti, Silvio, additional, and Booz, Christian, additional

Published

2023

30. How Real Are Computed Tomography Low Dose Simulations? An Investigational In-Vivo Large Animal Study

Author

Andreas S. Brendlin, Robin Wrazidlo, Haidara Almansour, Arne Estler, David Plajer, Salvador Guillermo Castaneda Vega, Wilfried Klingert, Elisa Bertolani, Ahmed E. Othman, Martin Schenk, and Saif Afat

Subjects

Radiology, Nuclear Medicine and imaging

Published

2023

31. AI Lung Segmentation and Perfusion Analysis of Dual-Energy CT Can Help to Distinguish COVID-19 Infiltrates from Visually Similar Immunotherapy-Related Pneumonitis Findings and Can Optimize Radiological Workflows

Author

Brendlin, Andreas S., Mader, Markus, Faby, Sebastian, Schmidt, Bernhard, Othman, Ahmed E., Gassenmaier, Sebastian, Nikolaou, Konstantin, and Afat, Saif

Subjects

SARS-CoV-2, COVID-19, X-ray computed, dual energy, tomography, artificial intelligence, Article, Workflow, Perfusion, Humans, Immunotherapy, Tomography, X-Ray Computed, Lung, Retrospective Studies

Abstract

(1) To explore the potential impact of an AI dual-energy CT (DECT) prototype on decision making and workflows by investigating its capabilities to differentiate COVID-19 from immunotherapy-related pneumonitis. (2) Methods: From 3 April 2020 to 12 February 2021, DECT from biometrically matching patients with COVID-19, pneumonitis, and inconspicuous findings were selected from our clinical routine. Three blinded readers independently scored each pulmonary lobe analogous to CO-RADS. Inter-rater agreement was determined with an intraclass correlation coefficient (ICC). Averaged perfusion metrics per lobe (iodine uptake in mg, volume without vessels in ml, iodine concentration in mg/mL) were extracted using manual segmentation and an AI DECT prototype. A generalized linear mixed model was used to investigate metric validity and potential distinctions at equal CO-RADS scores. Multinomial regression measured the contribution “Reader”, “CO-RADS score”, and “perfusion metrics” to diagnosis. The time to diagnosis was measured for manual vs. AI segmentation. (3) Results: We included 105 patients (62 ± 13 years, mean BMI 27 ± 2). There were no significant differences between manually and AI-extracted perfusion metrics (p = 0.999). Regardless of the CO-RADS score, iodine uptake and concentration per lobe were significantly higher in COVID-19 than in pneumonitis (p < 0.001). In regression, iodine uptake had a greater contribution to diagnosis than CO-RADS scoring (Odds Ratio (OR) = 1.82 [95%CI 1.10–2.99] vs. OR = 0.20 [95%CI 0.14–0.29]). The AI prototype extracted the relevant perfusion metrics significantly faster than radiologists (10 ± 1 vs. 15 ± 2 min, p < 0.001). (4) Conclusions: The investigated AI prototype positively impacts decision making and workflows by extracting perfusion metrics that differentiate COVID-19 from visually similar pneumonitis significantly faster than radiologists.

Published

2021

32. Application of a Deep Learning Algorithm for Combined Super-Resolution and Partial Fourier Reconstruction Including Time Reduction in T1-Weighted Precontrast and Postcontrast Gradient Echo Imaging of Abdominopelvic MR Imaging

Author

Wessling, Daniel, primary, Herrmann, Judith, additional, Afat, Saif, additional, Nickel, Dominik, additional, Almansour, Haidara, additional, Keller, Gabriel, additional, Othman, Ahmed E., additional, Brendlin, Andreas S., additional, and Gassenmaier, Sebastian, additional

Published

2022

33. AI Denoising Improves Image Quality and Radiological Workflows in Pediatric Ultra-Low-Dose Thorax Computed Tomography Scans

Author

Tsiflikas, Andreas S. Brendlin, Ulrich Schmid, David Plajer, Maryanna Chaika, Markus Mader, Robin Wrazidlo, Simon Männlin, Jakob Spogis, Arne Estler, Michael Esser, Jürgen Schäfer, Saif Afat, and Ilias

Subjects

pneumonia, computed tomography, AI (artificial intelligence), image quality enhancement

Abstract

(1) This study evaluates the impact of an AI denoising algorithm on image quality, diagnostic accuracy, and radiological workflows in pediatric chest ultra-low-dose CT (ULDCT). (2) Methods: 100 consecutive pediatric thorax ULDCT were included and reconstructed using weighted filtered back projection (wFBP), iterative reconstruction (ADMIRE 2), and AI denoising (PixelShine). Place-consistent noise measurements were used to compare objective image quality. Eight blinded readers independently rated the subjective image quality on a Likert scale (1 = worst to 5 = best). Each reader wrote a semiquantitative report to evaluate disease severity using a severity score with six common pathologies. The time to diagnosis was measured for each reader to compare the possible workflow benefits. Properly corrected mixed-effects analysis with post-hoc subgroup tests were used. Spearman’s correlation coefficient measured inter-reader agreement for the subjective image quality analysis and the severity score sheets. (3) Results: The highest noise was measured for wFBP, followed by ADMIRE 2, and PixelShine (76.9 ± 9.62 vs. 43.4 ± 4.45 vs. 34.8 ± 3.27 HU; each p < 0.001). The highest subjective image quality was measured for PixelShine, followed by ADMIRE 2, and wFBP (4 (4–5) vs. 3 (4–5) vs. 3 (2–4), each p < 0.001) with good inter-rater agreement (r ≥ 0.790; p ≤ 0.001). In diagnostic accuracy analysis, there was a good inter-rater agreement between the severity scores (r ≥ 0.764; p < 0.001) without significant differences between severity score items per reconstruction mode (F (5.71; 566) = 0.792; p = 0.570). The shortest time to diagnosis was measured for the PixelShine datasets, followed by ADMIRE 2, and wFBP (2.28 ± 1.56 vs. 2.45 ± 1.90 vs. 2.66 ± 2.31 min; F (1.000; 99.00) = 268.1; p < 0.001). (4) Conclusions: AI denoising significantly improves image quality in pediatric thorax ULDCT without compromising the diagnostic confidence and reduces the time to diagnosis substantially.

Published

2022

34. Combination of Whole-Body Baseline CT Radiomics and Clinical Parameters to Predict Response and Survival in a Stage-IV Melanoma Cohort Undergoing Immunotherapy

Author

Othman, Felix Peisen, Annika Hänsch, Alessa Hering, Andreas S. Brendlin, Saif Afat, Konstantin Nikolaou, Sergios Gatidis, Thomas Eigentler, Teresa Amaral, Jan H. Moltz, and Ahmed E.

Subjects

melanoma, prognostic biomarkers, imaging biomarkers, biomarkers for immunotherapy, checkpoint blockade, artificial intelligence and machine-learning

Abstract

Background: This study investigated whether a machine-learning-based combination of radiomics and clinical parameters was superior to the use of clinical parameters alone in predicting therapy response after three months, and overall survival after six and twelve months, in stage-IV malignant melanoma patients undergoing immunotherapy with PD-1 checkpoint inhibitors and CTLA-4 checkpoint inhibitors. Methods: A random forest model using clinical parameters (demographic variables and tumor markers = baseline model) was compared to a random forest model using clinical parameters and radiomics (extended model) via repeated 5-fold cross-validation. For this purpose, the baseline computed tomographies of 262 stage-IV malignant melanoma patients treated at a tertiary referral center were identified in the Central Malignant Melanoma Registry, and all visible metastases were three-dimensionally segmented (n = 6404). Results: The extended model was not significantly superior compared to the baseline model for survival prediction after six and twelve months (AUC (95% CI): 0.664 (0.598, 0.729) vs. 0.620 (0.545, 0.692) and AUC (95% CI): 0.600 (0.526, 0.667) vs. 0.588 (0.481, 0.629), respectively). The extended model was not significantly superior compared to the baseline model for response prediction after three months (AUC (95% CI): 0.641 (0.581, 0.700) vs. 0.656 (0.587, 0.719)). Conclusions: The study indicated a potential, but non-significant, added value of radiomics for six-month and twelve-month survival prediction of stage-IV melanoma patients undergoing immunotherapy.

Published

2022

35. Combination of Whole-Body Baseline CT Radiomics and Clinical Parameters to Predict Response and Survival in a Stage-IV Melanoma Cohort Undergoing Immunotherapy

Author

Peisen, F., Hänsch, Annika, Hering, Alessa, Brendlin, A.S., Afat, S., Nikolaou, K., Gatidis, S., Eigentler, T., Amaral, T., Moltz, Jan Hendrik, Othman, A.E., and Publica

Subjects

artificial intelligence and machine-learning, biomarkers for immunotherapy, melanoma, checkpoint blockade, prognostic biomarkers, imaging biomarkers

Abstract

Background: This study investigated whether a machine-learning-based combination of radiomics and clinical parameters was superior to the use of clinical parameters alone in predicting therapy response after three months, and overall survival after six and twelve months, in stage-IV malignant melanoma patients undergoing immunotherapy with PD-1 checkpoint inhibitors and CTLA-4 checkpoint inhibitors. Methods: A random forest model using clinical parameters (demo-graphic variables and tumor markers = baseline model) was compared to a random forest model using clinical parameters and radiomics (extended model) via repeated 5-fold cross-validation. For this purpose, the baseline computed tomographies of 262 stage-IV malignant melanoma patients treated at a tertiary referral center were identified in the Central Malignant Melanoma Registry, and all visible metastases were three-dimensionally segmented (n = 6404). Results: The extended model was not significantly superior compared to the baseline model for survival prediction after six and twelve months (AUC (95% CI): 0.664 (0.598, 0.729) vs. 0.620 (0.545, 0.692) and AUC (95% CI): 0.600 (0.526, 0.667) vs. 0.588 (0.481, 0.629), respectively). The extended model was not significantly superior compared to the baseline model for response prediction after three months (AUC (95% CI): 0.641 (0.581, 0.700) vs. 0.656 (0.587, 0.719)). Conclusion: The study indicated a potential, but non-significant, added value of radiomics for six-month and twelve-month survival prediction of stage-IV melanoma patients undergoing immunotherapy.

Published

2022

36. AI Denoising Improves Image Quality and Radiological Workflows in Pediatric Ultra-Low-Dose Thorax Computed Tomography Scans

Author

Brendlin, Andreas S., primary, Schmid, Ulrich, additional, Plajer, David, additional, Chaika, Maryanna, additional, Mader, Markus, additional, Wrazidlo, Robin, additional, Männlin, Simon, additional, Spogis, Jakob, additional, Estler, Arne, additional, Esser, Michael, additional, Schäfer, Jürgen, additional, Afat, Saif, additional, and Tsiflikas, Ilias, additional

Published

2022

37. Combination of Whole-Body Baseline CT Radiomics and Clinical Parameters to Predict Response and Survival in a Stage-IV Melanoma Cohort Undergoing Immunotherapy

Author

Peisen, Felix, primary, Hänsch, Annika, additional, Hering, Alessa, additional, Brendlin, Andreas S., additional, Afat, Saif, additional, Nikolaou, Konstantin, additional, Gatidis, Sergios, additional, Eigentler, Thomas, additional, Amaral, Teresa, additional, Moltz, Jan H., additional, and Othman, Ahmed E., additional

Published

2022

38. Combination of Whole-Body Baseline CT Radiomics and Clinical Parameters to Predict Response and Survival in a Stage-IV Melanoma Cohort Undergoing Immunotherapy

Author

Felix, Peisen, Annika, Hänsch, Alessa, Hering, Andreas S, Brendlin, Saif, Afat, Konstantin, Nikolaou, Sergios, Gatidis, Thomas, Eigentler, Teresa, Amaral, Jan H, Moltz, and Ahmed E, Othman

Abstract

This study investigated whether a machine-learning-based combination of radiomics and clinical parameters was superior to the use of clinical parameters alone in predicting therapy response after three months, and overall survival after six and twelve months, in stage-IV malignant melanoma patients undergoing immunotherapy with PD-1 checkpoint inhibitors and CTLA-4 checkpoint inhibitors.A random forest model using clinical parameters (demographic variables and tumor markers = baseline model) was compared to a random forest model using clinical parameters and radiomics (extended model) via repeated 5-fold cross-validation. For this purpose, the baseline computed tomographies of 262 stage-IV malignant melanoma patients treated at a tertiary referral center were identified in the Central Malignant Melanoma Registry, and all visible metastases were three-dimensionally segmented (The extended model was not significantly superior compared to the baseline model for survival prediction after six and twelve months (AUC (95% CI): 0.664 (0.598, 0.729) vs. 0.620 (0.545, 0.692) and AUC (95% CI): 0.600 (0.526, 0.667) vs. 0.588 (0.481, 0.629), respectively). The extended model was not significantly superior compared to the baseline model for response prediction after three months (AUC (95% CI): 0.641 (0.581, 0.700) vs. 0.656 (0.587, 0.719)).The study indicated a potential, but non-significant, added value of radiomics for six-month and twelve-month survival prediction of stage-IV melanoma patients undergoing immunotherapy.

Published

2022

39. AI Denoising Significantly Enhances Image Quality and Diagnostic Confidence in Interventional Cone-Beam Computed Tomography

Author

Artzner, Andreas S. Brendlin, Arne Estler, David Plajer, Adrian Lutz, Gerd Grözinger, Malte N. Bongers, Ilias Tsiflikas, Saif Afat, and Christoph P.

Subjects

cone beam computed tomography, AI (artificial intelligence), image quality enhancement

Abstract

(1) To investigate whether interventional cone-beam computed tomography (cbCT) could benefit from AI denoising, particularly with respect to patient body mass index (BMI); (2) From 1 January 2016 to 1 January 2022, 100 patients with liver-directed interventions and peri-procedural cbCT were included. The unenhanced mask run and the contrast-enhanced fill run of the cbCT were reconstructed using weighted filtered back projection. Additionally, each dataset was post-processed using a novel denoising software solution. Place-consistent regions of interest measured signal-to-noise ratio (SNR) per dataset. Corrected mixed-effects analysis with BMI subgroup analyses compared objective image quality. Multiple linear regression measured the contribution of “Radiation Dose”, “Body-Mass-Index”, and “Mode” to SNR. Two radiologists independently rated diagnostic confidence. Inter-rater agreement was measured using Spearman correlation (r); (3) SNR was significantly higher in the denoised datasets than in the regular datasets (p < 0.001). Furthermore, BMI subgroup analysis showed significant SNR deteriorations in the regular datasets for higher patient BMI (p < 0.001), but stable results for denoising (p > 0.999). In regression, only denoising contributed positively towards SNR (0.6191; 95%CI 0.6096 to 0.6286; p < 0.001). The denoised datasets received overall significantly higher diagnostic confidence grades (p = 0.010), with good inter-rater agreement (r ≥ 0.795, p < 0.001). In a subgroup analysis, diagnostic confidence deteriorated significantly for higher patient BMI (p < 0.001) in the regular datasets but was stable in the denoised datasets (p ≥ 0.103).; (4) AI denoising can significantly enhance image quality in interventional cone-beam CT and effectively mitigate diagnostic confidence deterioration for rising patient BMI.

Published

2022

40. CoRad-19-Modular Digital Teaching during the SARS-CoV-2 Pandemic

Author

Brendlin, Andreas Stefan, Molwitz, Isabel, Oechtering, Thekla Helene, Barkhausen, Joerg, Frydrychowicz, Alex, Sulkowski, Tanja, Balks, Maren Friederike, Buchholz, Michael, Lohwasser, Stefan, Voelker, Martin, Goldschmidt, Olaf, Johenning, Anja, Schlender, Sabine, Paulus, Christian, Antoch, Gerald, Dettmer, Sabine, Baessler, Bettina, Maintz, David, dos Santos, Daniel Pinto, Vogl, Thomas J., Hattingen, Elke, Stoevesandt, Dietrich, Reinartz, Sebastian, Storz, Corinna, Mueller-Peltzer, Katharina, Bamberg, Fabian, Rengier, Fabian, Weis, Meike, Frisch, Anne, Hansen, Nienke Lynn, Kolb, Manuel, Maurer, Michael, Nikolaou, Konstantin, Afat, Saif, Othman, Ahmed E., Brendlin, Andreas Stefan, Molwitz, Isabel, Oechtering, Thekla Helene, Barkhausen, Joerg, Frydrychowicz, Alex, Sulkowski, Tanja, Balks, Maren Friederike, Buchholz, Michael, Lohwasser, Stefan, Voelker, Martin, Goldschmidt, Olaf, Johenning, Anja, Schlender, Sabine, Paulus, Christian, Antoch, Gerald, Dettmer, Sabine, Baessler, Bettina, Maintz, David, dos Santos, Daniel Pinto, Vogl, Thomas J., Hattingen, Elke, Stoevesandt, Dietrich, Reinartz, Sebastian, Storz, Corinna, Mueller-Peltzer, Katharina, Bamberg, Fabian, Rengier, Fabian, Weis, Meike, Frisch, Anne, Hansen, Nienke Lynn, Kolb, Manuel, Maurer, Michael, Nikolaou, Konstantin, Afat, Saif, and Othman, Ahmed E.

Abstract

Purpose During the SARS-CoV-2 pandemic, higher education worldwide had to switch to digital formats. The purpose of this study was to evaluate CoRad-19, a digital teaching tool created by the German Radiological Society for medical students during the COVID-19 pandemic. Materials and Methods A total of 13 German-speaking universities implemented CoRad-19 in their curriculum and partially or completely replaced their classes with the online courses. Previous experience and contact with radiology and the participants' opinions regarding the medium of e-learning were surveyed using a custom questionnaire. The subjective level of knowledge regarding the individual modules was also surveyed before and after participation to measure learning effects. The data of 994 medical students from the participating sites were analyzed and compared intraindividually using the Friedman test. Results From 4/1/2020-10/1/2020, 451 complete data sets from a total of 994 surveys were included. E-learning was rated very useful both before and after course participation (4 [IQR 3-4], p = 0.527, r= 0.16). E-learning as a method was also rated as a very good medium both before and after participation (4 [IQR 3-4], p=0.414, r=0.17). After participation, participants rated radiology as particularly suitable for digital teaching (before: 3 [IQR 3-4] vs. after 4 [IQR 3-4], p = 0.005, r =0.6). Significant learning gains were measurable in all course modules (p <= 0.009). Post-hoc analysis showed interest in radiology to increase significantly after course participation (p = 0.02). Conclusion In the representative survey, significant learning effects were observed in all course modules. In addition, it should be particularly emphasized that the students' interest in radiology was increased by course participation. Thus, the German Radiological Society provided significant support to German-speaking medical faculties with respect to maintaining excellent education using CoRad-19.

Published

2022

41. AI Denoising Significantly Enhances Image Quality and Diagnostic Confidence in Interventional Cone-Beam Computed Tomography

Author

Brendlin, Andreas S., primary, Estler, Arne, additional, Plajer, David, additional, Lutz, Adrian, additional, Grözinger, Gerd, additional, Bongers, Malte N., additional, Tsiflikas, Ilias, additional, Afat, Saif, additional, and Artzner, Christoph P., additional

Published

2022

42. AI Lung Segmentation and Perfusion Analysis of Dual-Energy CT Can Help to Distinguish COVID-19 Infiltrates from Visually Similar Immunotherapy-Related Pneumonitis Findings and Can Optimize Radiological Workflows

Author

Afat, Andreas S. Brendlin, Markus Mader, Sebastian Faby, Bernhard Schmidt, Ahmed E. Othman, Sebastian Gassenmaier, Konstantin Nikolaou, and Saif

Subjects

COVID-19, dual energy, tomography, X-ray computed, artificial intelligence

Abstract

(1) To explore the potential impact of an AI dual-energy CT (DECT) prototype on decision making and workflows by investigating its capabilities to differentiate COVID-19 from immunotherapy-related pneumonitis. (2) Methods: From 3 April 2020 to 12 February 2021, DECT from biometrically matching patients with COVID-19, pneumonitis, and inconspicuous findings were selected from our clinical routine. Three blinded readers independently scored each pulmonary lobe analogous to CO-RADS. Inter-rater agreement was determined with an intraclass correlation coefficient (ICC). Averaged perfusion metrics per lobe (iodine uptake in mg, volume without vessels in ml, iodine concentration in mg/mL) were extracted using manual segmentation and an AI DECT prototype. A generalized linear mixed model was used to investigate metric validity and potential distinctions at equal CO-RADS scores. Multinomial regression measured the contribution “Reader”, “CO-RADS score”, and “perfusion metrics” to diagnosis. The time to diagnosis was measured for manual vs. AI segmentation. (3) Results: We included 105 patients (62 ± 13 years, mean BMI 27 ± 2). There were no significant differences between manually and AI-extracted perfusion metrics (p = 0.999). Regardless of the CO-RADS score, iodine uptake and concentration per lobe were significantly higher in COVID-19 than in pneumonitis (p < 0.001). In regression, iodine uptake had a greater contribution to diagnosis than CO-RADS scoring (Odds Ratio (OR) = 1.82 [95%CI 1.10–2.99] vs. OR = 0.20 [95%CI 0.14–0.29]). The AI prototype extracted the relevant perfusion metrics significantly faster than radiologists (10 ± 1 vs. 15 ± 2 min, p < 0.001). (4) Conclusions: The investigated AI prototype positively impacts decision making and workflows by extracting perfusion metrics that differentiate COVID-19 from visually similar pneumonitis significantly faster than radiologists.

Published

2021

43. AI Denoising Significantly Improves Image Quality in Whole-Body Low-Dose Computed Tomography Staging

Author

Brendlin, Andreas S., primary, Plajer, David, additional, Chaika, Maryanna, additional, Wrazidlo, Robin, additional, Estler, Arne, additional, Tsiflikas, Ilias, additional, Artzner, Christoph P., additional, Afat, Saif, additional, and Bongers, Malte N., additional

Published

2022

44. Clinical Evaluation of an Abbreviated Contrast-Enhanced Whole-Body MRI for Oncologic Follow-Up Imaging

Author

Herrmann, Judith, primary, Afat, Saif, additional, Brendlin, Andreas, additional, Chaika, Maryanna, additional, Lingg, Andreas, additional, and Othman, Ahmed E., additional

Published

2021

45. Diagnostic Performance of a Contrast-Enhanced Ultra-Low-Dose High-Pitch CT Protocol with Reduced Scan Range for Detection of Pulmonary Embolisms

Author

Afat, Andreas S. Brendlin, Moritz T. Winkelmann, Felix Peisen, Christoph P. Artzner, Konstantin Nikolaou, Ahmed E. Othman, and Saif

Subjects

pulmonary embolism, emergency radiology, radiation dose reduction, iterative reconstruction, reduced scan range, 3rd generation dual-source CT

Abstract

(1) Background: To evaluate the diagnostic performance of a simulated ultra-low-dose (ULD), high-pitch computed tomography pulmonary angiography (CTPA) protocol with low tube current (mAs) and reduced scan range for detection of pulmonary embolisms (PE). (2) Methods: We retrospectively included 130 consecutive patients (64 ± 16 years, 69 female) who underwent clinically indicated high-pitch CTPA examination for suspected acute PE on a 3rd generation dual-source CT scanner (SOMATOM FORCE, Siemens Healthineers, Forchheim, Germany). ULD datasets with a realistic simulation of 25% mAs, reduced scan range (aortic arch—basal pericardium), and Advanced Modeled Iterative Reconstruction (ADMIRE®, Siemens Healthineers, Forchheim, Germany) strength 5 were created. The effective radiation dose (ED) of both datasets (standard and ULD) was estimated using a dedicated dosimetry software solution. Subjective image quality and diagnostic confidence were evaluated independently by three reviewers using a 5-point Likert scale. Objective image quality was compared using noise measurements. For assessment of diagnostic accuracy, patients and pulmonary vessels were reviewed binarily for affection by PE, using standard CTPA protocol datasets as the reference standard. Percentual affection of pulmonary vessels by PE was computed for disease severity (modified Qanadli score). (3) Results: Mean ED in ULD protocol was 0.7 ± 0.3 mSv (16% of standard protocol: 4.3 ± 1.7 mSv, p < 0.001, r > 0.5). Comparing ULD to standard protocol, subjective image quality and diagnostic confidence were comparably good (p = 0.486, r > 0.5) and image noise was significantly lower in ULD (p < 0.001, r > 0.5). A total of 42 patients (32.2%) were affected by PE. ULD protocol had a segment-based false-negative rate of only 0.1%. Sensitivity for detection of any PE was 98.9% (95% CI, 97.2–99.7%), specificity was 100% (95% CI, 99.8–100%), and overall accuracy was 99.9% (95% CI, 98.6–100%). Diagnoses correlated strongly between ULD and standard protocol (Chi-square (1) = 42, p < 0.001) with a decrease in disease severity of only 0.48% (T = 1.667, p = 0.103). (4) Conclusions: Compared to a standard CTPA protocol, the proposed ULD protocol proved reliable in detecting and ruling out acute PE with good levels of image quality and diagnostic confidence, as well as significantly lower image noise, at 0.7 ± 0.3 mSv (84% dose reduction).

Published

2021

46. Diagnostic Performance of a Contrast-Enhanced Ultra-Low-Dose High-Pitch CT Protocol with Reduced Scan Range for Detection of Pulmonary Embolisms

Author

Brendlin, Andreas S., Winkelmann, Moritz T., Peisen, Felix, Artzner, Christoph P., Nikolaou, Konstantin, Othman, Ahmed E., and Afat, Saif

Subjects

iterative reconstruction, Medicine (General), pulmonary embolism, R5-920, 3rd generation dual-source CT, radiation dose reduction, reduced scan range, emergency radiology, Article

Abstract

(1) Background: To evaluate the diagnostic performance of a simulated ultra-low-dose (ULD), high-pitch computed tomography pulmonary angiography (CTPA) protocol with low tube current (mAs) and reduced scan range for detection of pulmonary embolisms (PE). (2) Methods: We retrospectively included 130 consecutive patients (64 ± 16 years, 69 female) who underwent clinically indicated high-pitch CTPA examination for suspected acute PE on a 3rd generation dual-source CT scanner (SOMATOM FORCE, Siemens Healthineers, Forchheim, Germany). ULD datasets with a realistic simulation of 25% mAs, reduced scan range (aortic arch—basal pericardium), and Advanced Modeled Iterative Reconstruction (ADMIRE®, Siemens Healthineers, Forchheim, Germany) strength 5 were created. The effective radiation dose (ED) of both datasets (standard and ULD) was estimated using a dedicated dosimetry software solution. Subjective image quality and diagnostic confidence were evaluated independently by three reviewers using a 5-point Likert scale. Objective image quality was compared using noise measurements. For assessment of diagnostic accuracy, patients and pulmonary vessels were reviewed binarily for affection by PE, using standard CTPA protocol datasets as the reference standard. Percentual affection of pulmonary vessels by PE was computed for disease severity (modified Qanadli score). (3) Results: Mean ED in ULD protocol was 0.7 ± 0.3 mSv (16% of standard protocol: 4.3 ± 1.7 mSv, p < 0.001, r > 0.5). Comparing ULD to standard protocol, subjective image quality and diagnostic confidence were comparably good (p = 0.486, r > 0.5) and image noise was significantly lower in ULD (p < 0.001, r > 0.5). A total of 42 patients (32.2%) were affected by PE. ULD protocol had a segment-based false-negative rate of only 0.1%. Sensitivity for detection of any PE was 98.9% (95% CI, 97.2–99.7%), specificity was 100% (95% CI, 99.8–100%), and overall accuracy was 99.9% (95% CI, 98.6–100%). Diagnoses correlated strongly between ULD and standard protocol (Chi-square (1) = 42, p < 0.001) with a decrease in disease severity of only 0.48% (T = 1.667, p = 0.103). (4) Conclusions: Compared to a standard CTPA protocol, the proposed ULD protocol proved reliable in detecting and ruling out acute PE with good levels of image quality and diagnostic confidence, as well as significantly lower image noise, at 0.7 ± 0.3 mSv (84% dose reduction).

Published

2021

47. A Machine learning model trained on dual-energy CT radiomics significantly improves immunotherapy response prediction for patients with stage IV melanoma

Author

Brendlin, Andreas Stefan, primary, Peisen, Felix, additional, Almansour, Haidara, additional, Afat, Saif, additional, Eigentler, Thomas, additional, Amaral, Teresa, additional, Faby, Sebastian, additional, Calvarons, Adria Font, additional, Nikolaou, Konstantin, additional, and Othman, Ahmed E, additional

Published

2021

48. Early Tumor Size Reduction of at least 10% at the First Follow-Up Computed Tomography Can Predict Survival in the Setting of Advanced Melanoma and Immunotherapy

Author

Almansour, Haidara, primary, Afat, Saif, additional, Serna-Higuita, Lina Maria, additional, Amaral, Teresa, additional, Schraag, Amadeus, additional, Peisen, Felix, additional, Brendlin, Andreas, additional, Seith, Ferdinand, additional, Klumpp, Bernhard, additional, Eigentler, Thomas K., additional, and Othman, Ahmed E., additional

Published

2021

49. Digitale Lehre mit, durch und nach COVID-19

Author

Jörg Barkhausen, Andreas Brendlin, Saif Afat, Ahmed E. Othman, Sebastian Reinartz, and Isabel Molwitz

Subjects

2019-20 coronavirus outbreak, medicine.medical_specialty, medicine.diagnostic_test, Coronavirus disease 2019 (COVID-19), business.industry, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), MEDLINE, COVID-19, Interventional radiology, Education, Distance, Radiology Nuclear Medicine and imaging, medicine, Humans, Radiology, Nuclear Medicine and imaging, Medical physics, business, radClub, Cardiac imaging, Neuroradiology

Published

2021

50. Simulated Radiation Dose Reduction in Whole-Body CT on a 3rd Generation Dual-Source Scanner: An Intraindividual Comparison

Author

Brendlin, Andreas S., Winkelmann, Moritz T., Do, Phuong Linh, Schwarze, Vincent, Peisen, Felix, Almansour, Haidara, Bongers, Malte N., Artzner, Christoph P., Weiss, Jakob, Kim, Jong Hyo, Othman, Ahmed E., and Afat, Saif

Subjects

lcsh:R5-920, 3rd generation dual-source scanner, iterative reconstruction (IR), Filtered Back Projection (FBP), whole-body staging, Advanced Modeled Iterative Reconstruction (ADMIRE), lcsh:Medicine (General), radiation dose, image reconstruction, Article, CT

Abstract

To evaluate the effect of radiation dose reduction on image quality and diagnostic confidence in contrast-enhanced whole-body computed tomography (WBCT) staging. We randomly selected March 2016 for retrospective inclusion of 18 consecutive patients (14 female, 60 ± 15 years) with clinically indicated WBCT staging on the same 3rd generation dual-source CT. Using low-dose simulations, we created data sets with 100, 80, 60, 40, and 20% of the original radiation dose. Each set was reconstructed using filtered back projection (FBP) and Advanced Modeled Iterative Reconstruction (ADMIRE®, Siemens Healthineers, Forchheim, Germany) strength 1–5, resulting in 540 datasets total. ADMIRE 2 was the reference standard for intraindividual comparison. The effective radiation dose was calculated using commercially available software. For comparison of objective image quality, noise assessments of subcutaneous adipose tissue regions were performed automatically using the software. Three radiologists blinded to the study evaluated image quality and diagnostic confidence independently on an equidistant 5-point Likert scale (1 = poor to 5 = excellent). At 100%, the effective radiation dose in our population was 13.3 ± 9.1 mSv. At 20% radiation dose, it was possible to obtain comparably low noise levels when using ADMIRE 5 (p = 1.000, r = 0.29). We identified ADMIRE 3 at 40% radiation dose (5.3 ± 3.6 mSv) as the lowest achievable radiation dose with image quality and diagnostic confidence equal to our reference standard (p = 1.000, r > 0.4). The inter-rater agreement for this result was almost perfect (ICC ≥ 0.958, 95% CI 0.909–0.983). On a 3rd generation scanner, it is feasible to maintain good subjective image quality, diagnostic confidence, and image noise in single-energy WBCT staging at dose levels as low as 40% of the original dose (5.3 ± 3.6 mSv), when using ADMIRE 3.

Published

2021