Your search keyword '"Kunz W.G."' showing total 18 results

1. PD-0969 FDG PET/CT follow up imaging of durvalumab maintenance in inoperable stage III NSCLC patients

Author

Holzgreve, A., primary, Unterrainer, M., additional, Taugner, J., additional, Müller, P., additional, Tufman, A., additional, Reinmuth, N., additional, Li, M., additional, Unterrainer, L.M., additional, Bartenstein, P., additional, Kunz, W.G., additional, Ricke, J., additional, Belka, C., additional, Eze, C., additional, Manapov, F., additional, and Käsmann, L., additional

Published

2023

2. Standardised lesion segmentation for imaging biomarker quantitation:a consensus recommendation from ESR and EORTC

Author

DeSouza, N.M., Lugt, A. van der, Deroose, C.M., Alberich-Bayarri, A., Bidaut, L., Fournier, L., Costaridou, L., Oprea-Lager, D.E., Kotter, E., Smits, M., Mayerhoefer, M.E., Boellaard, R., Caroli, A., Geus-Oei, L.F. de, Kunz, W.G., Oei, E.H., Lecouvet, F., Franca, M., Loewe, C., Lopci, E., Caramella, C., Persson, A., Golay, X., Dewey, M., O'Connor, J.P.B., DeGraaf, P., Gatidis, S., Zahlmann, G., European Soc Radiology, European Org Res Treatment Canc, Radiology and nuclear medicine, AII - Cancer immunology, AII - Inflammatory diseases, CCA - Cancer biology and immunology, CCA - Imaging and biomarkers, Amsterdam Neuroscience - Brain Imaging, and Radiology & Nuclear Medicine

Subjects

Science & Technology, PET/CT, Segmentation and standardisation, Organ-specific, Radiology, Nuclear Medicine & Medical Imaging, mDelphi, Region of interest, Modality-specific, CANCER, CLASSIFICATION, VALIDATION, SDG 3 - Good Health and Well-being, Radiology, Nuclear Medicine and imaging, Radiologi och bildbehandling, Life Sciences & Biomedicine, MRI, Radiology, Nuclear Medicine and Medical Imaging

Abstract

Background Lesion/tissue segmentation on digital medical images enables biomarker extraction, image-guided therapy delivery, treatment response measurement, and training/validation for developing artificial intelligence algorithms and workflows. To ensure data reproducibility, criteria for standardised segmentation are critical but currently unavailable. Methods A modified Delphi process initiated by the European Imaging Biomarker Alliance (EIBALL) of the European Society of Radiology (ESR) and the European Organisation for Research and Treatment of Cancer (EORTC) Imaging Group was undertaken. Three multidisciplinary task forces addressed modality and image acquisition, segmentation methodology itself, and standards and logistics. Devised survey questions were fed via a facilitator to expert participants. The 58 respondents to Round 1 were invited to participate in Rounds 2-4. Subsequent rounds were informed by responses of previous rounds. Results/conclusions Items with >= 75% consensus are considered a recommendation. These include system performance certification, thresholds for image signal-to-noise, contrast-to-noise and tumour-to-background ratios, spatial resolution, and artefact levels. Direct, iterative, and machine or deep learning reconstruction methods, use of a mixture of CE marked and verified research tools were agreed and use of specified reference standards and validation processes considered essential. Operator training and refreshment were considered mandatory for clinical trials and clinical research. Items with a 60-74% agreement require reporting (site-specific accreditation for clinical research, minimal pixel number within lesion segmented, use of post-reconstruction algorithms, operator training refreshment for clinical practice). Items with Funding Agencies|European Union [826494, 952159, 952172, 101057699]; NIH/NCI Cancer Center Support Grant [P30 CA008748]; National Institute for Health Research University College London Hospitals Biomedical Research Centre; French government under management of the Agence Nationale de la Recherche as part of the "Investissements davenir" program [ANR19-P3IA-0001]

Published

2022

3. Diagnostic Performance of Whole-Body Ultra-Low-Dose CT for Detection of Mechanical Ventriculoperitoneal Shunt Complications: A Retrospective Analysis

Author

Afat, S., primary, Pjontek, R., additional, Nikoubashman, O., additional, Kunz, W.G., additional, Brockmann, M.A., additional, Ridwan, H., additional, Wiesmann, M., additional, Clusmann, H., additional, Othman, A.E., additional, and Hamou, H.A., additional

Published

2022

4. 443TiP Impact of a centralized tumour board on secondary intervention rate in patients with RAS mutant metastatic colorectal cancer after first-line treatment with FOLFOXIRI plus bevacizumab (FIRE-7, AIO-KRK-0120)

Author

Stahler, A., primary, Heinrich, K., additional, Stintzing, S., additional, Jelas, I., additional, Pratschke, J., additional, Schöning, W., additional, Angele, M., additional, D'Haese, J., additional, Gebauer, B., additional, Seidensticker, M., additional, Streitparth, F., additional, Kunz, W.G., additional, Corradini, S.D., additional, Stromberger, C., additional, Vehling-Kaiser, U., additional, Zhang, D., additional, Kurreck, A., additional, Alig, A.H.S., additional, Modest, D.P., additional, and Heinemann, V., additional

Published

2022

5. 1738P Results from the conference on challenges in sarcoma (CCS) 2024

Author

Rothermundt, C.A., Hofer, S.B., Pauli, C., Miah, A., Kunz, W.G., Wardelmann, E., Rutkowski, P., Reichardt, P., Gelderblom, H., Haas, R.L., Fotopoulou, C., Scheinemann, K., and Andreou, D.

Published

2024

6. Cost-effectiveness of CT perfusion for patients with acute ischemic stroke (CLEOPATRA)-Study protocol for a healthcare evaluation study

Author

Koopman, M.S., Hoving, J.W., van Voorst, H., Daems, J.D., Peerlings, D., Buskens, E., Lingsma, H.F., Marquering, H.A., de Jong, H.W.A.M., Berkhemer, O.A., van Zwam, W.H., van Walderveen, M.A.A., van den Wijngaard, I., van der Lugt, A., Dippel, D.W.J., Yoo, A.J., Campbell, B.C.V., Kunz, W.G., Majoie, C.B.L.M., Emmer, B.J., CLEOPATRA Investigators, Koopman, M.S., Hoving, J.W., van Voorst, H., Daems, J.D., Peerlings, D., Buskens, E., Lingsma, H.F., Marquering, H.A., de Jong, H.W.A.M., Berkhemer, O.A., van Zwam, W.H., van Walderveen, M.A.A., van den Wijngaard, I., van der Lugt, A., Dippel, D.W.J., Yoo, A.J., Campbell, B.C.V., Kunz, W.G., Majoie, C.B.L.M., Emmer, B.J., and CLEOPATRA Investigators

Abstract

Introduction: Computed tomography perfusion (CTP) is variably considered to assess eligibility for endovascular thrombectomy (EVT) in acute ischemic (AIS) stroke patients. Although CTP is recommended for patient selection in later (6-24 h) time window, it is currently not recommended in the earlier (0-6 h) time window and the costs and health effects of including CTP for EVT selection remain unknown. We aim to estimate the costs and health effects of using CTP for EVT selection in AIS patients compared to conventional selection. Patients and methods: CLEOPATRA is a healthcare evaluation study using clinical and imaging data from multiple, prospective EVT trials and registries in both the earlier and later time windows. To study the long-term health and cost effects, we will construct a ("Markov") health state transition model simulating the clinical outcome over a 5-year follow-up period for CTP-based and conventional selection for EVT. Clinical data acquired within the current study and estimates from the literature will be used as input for probabilities of events, costs, and Quality-Adjusted Life Years (QALYs) per modified Rankin Scale (mRS) subscore. Primary outcome for the cost-effectiveness analysis will be the Incremental Cost-Effectiveness Ratio (ICER) in terms of costs per QALY gained over the simulated follow-up period. Study outcomes: Outcome measures will be reported as cumulative values over a 5-year follow-up period. Discussion: This study will provide preliminary insight into costs and health effects of including CTP in the selection for EVT for AIS patients, presenting between 0 and 24 h after time last known well. The results may be used to develop recommendations and inform further implementation projects and studies.

Published

2022

7. Biological-tumour-volumes in standard and early summation 18F-FET PET images distinctly exceed contrast-enhancement in patients with IDH-wildtype glioblastoma

Author

Unterrainer, M., additional, von Rohr, K., additional, Kaiser, L., additional, Ruf, V., additional, Holzgreve, A., additional, Unterrainer, L.M., additional, Brendel, M., additional, Kunz, W.G., additional, Herms, J., additional, Bartenstein, P., additional, Niyazi, M., additional, Tonn, J.C., additional, and Albert, N.L., additional

Published

2022

8. ESMO Clinical Practice Guideline for the diagnosis, staging and treatment of patients with metastatic breast cancer

Author

Gennari, A., primary, André, F., additional, Barrios, C.H., additional, Cortés, J., additional, de Azambuja, E., additional, DeMichele, A., additional, Dent, R., additional, Fenlon, D., additional, Gligorov, J., additional, Hurvitz, S.A., additional, Im, S.-A., additional, Krug, D., additional, Kunz, W.G., additional, Loi, S., additional, Penault-Llorca, F., additional, Ricke, J., additional, Robson, M., additional, Rugo, H.S., additional, Saura, C., additional, Schmid, P., additional, Singer, C.F., additional, Spanic, T., additional, Tolaney, S.M., additional, Turner, N.C., additional, Curigliano, G., additional, Loibl, S., additional, Paluch-Shimon, S., additional, and Harbeck, N., additional

Published

2021

9. Incorporating radiomics into clinical trials: expert consensus endorsed by the European Society of Radiology on considerations for data-driven compared to biologically driven quantitative biomarkers (Jan , 10.1007/s00330-020-07598-8, 2021)

Author

Fournier, L., Costaridou, L., Bidaut, L., Michoux, N., Lecouvet, F.E., Geus-Oei, L.F. de, Boellaard, R., Oprea-Lager, D.E., Obuchowski, N.A., Caroli, A., Kunz, W.G., Oei, E.H., O'Connor, J.P.B., Mayerhoefer, M.E., Franca, M., Alberich-Bayarri, A., Deroose, C.M., Loewe, C., Manniesing, R., Caramella, C., Lopci, E., Lassau, N., Persson, A., Achten, R., Rosendahl, K., Clement, O., Kotter, E., Golay, X., Smits, M., Dewey, M., Sullivan, D.C., Lugt, A. van der, deSouza, N.M., and European Soc Radiology

Subjects

GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries)

Abstract

A Correction to this paper has been published

Published

2021

10. Incorporating radiomics into clinical trials: expert consensus on considerations for data-driven compared to biologically driven quantitative biomarkers

Author

Fournier, L., Costaridou, L., Bidaut, L., Michoux, N., Lecouvet, F.E., Geus-Oei, L.F. de, Boellaard, R., Oprea-Lager, D.E., Obuchowski, N.A., Caroli, A., Kunz, W.G., Oei, E.H., O'Connor, J.P.B., Mayerhoefer, M.E., Franca, M., Alberich-Bayarri, A., Deroose, C.M., Loewe, C., Manniesing, R., Caramella, C., Lopci, E., Lassau, N., Persson, A., Achten, R., Rosendahl, K., Clement, O., Kotter, E., Golay, X., Smits, M., Dewey, M., Sullivan, D.C., Lugt, A. van der, and deSouza, N.M.

Subjects

Clinical trial, Statistics and numerical data, Validation studies, Radiology, Standardization

Abstract

Existing quantitative imaging biomarkers (QIBs) are associated with known biological tissue characteristics and follow a well-understood path of technical, biological and clinical validation before incorporation into clinical trials. In radiomics, novel data-driven processes extract numerous visually imperceptible statistical features from the imaging data with no a priori assumptions on their correlation with biological processes. The selection of relevant features (radiomic signature) and incorporation into clinical trials therefore requires additional considerations to ensure meaningful imaging endpoints. Also, the number of radiomic features tested means that power calculations would result in sample sizes impossible to achieve within clinical trials. This article examines how the process of standardising and validating data-driven imaging biomarkers differs from those based on biological associations. Radiomic signatures are best developed initially on datasets that represent diversity of acquisition protocols as well as diversity of disease and of normal findings, rather than within clinical trials with standardised and optimised protocols as this would risk the selection of radiomic features being linked to the imaging process rather than the pathology. Normalisation through discretisation and feature harmonisation are essential pre-processing steps. Biological correlation may be performed after the technical and clinical validity of a radiomic signature is established, but is not mandatory. Feature selection may be part of discovery within a radiomics-specific trial or represent exploratory endpoints within an established trial; a previously validated radiomic signature may even be used as a primary/secondary endpoint, particularly if associations are demonstrated with specific biological processes and pathways being targeted within clinical trials. KEY POINTS: • Data-driven processes like radiomics risk false discoveries due to high-dimensionality of the dataset compared to sample size, making adequate diversity of the data, cross-validation and external validation essential to mitigate the risks of spurious associations and overfitting. • Use of radiomic signatures within clinical trials requires multistep standardisation of image acquisition, image analysis and data mining processes. • Biological correlation may be established after clinical validation but is not mandatory. ispartof: EUROPEAN RADIOLOGY vol:31 issue:8 pages:6001-6012 ispartof: location:Germany status: published

Published

2021

11. Incorporating radiomics into clinical trials: expert consensus endorsed by the European Society of Radiology on considerations for data-driven compared to biologically driven quantitative biomarkers

Author

Fournier, L., Costaridou, L., Bidaut, L., Michoux, N., Lecouvet, F.E., Geus-Oei, L.F. de, Boellaard, R., Oprea-Lager, D.E., Obuchowski, N.A., Caroli, A., Kunz, W.G., Oei, E.H., O'Connor, J.P.B., Mayerhoefer, M.E., Franca, M., Alberich-Bayarri, A., Deroose, C.M., Loewe, C., Manniesing, R., Caramella, C., Lopci, E., Lassau, N., Persson, A., Achten, R., Rosendahl, K., Clement, O., Kotter, E., Golay, X., Smits, Marion, Dewey, M., Sullivan, D.C., Lugt, A. van der, Desouza, N.M., Fournier, L., Costaridou, L., Bidaut, L., Michoux, N., Lecouvet, F.E., Geus-Oei, L.F. de, Boellaard, R., Oprea-Lager, D.E., Obuchowski, N.A., Caroli, A., Kunz, W.G., Oei, E.H., O'Connor, J.P.B., Mayerhoefer, M.E., Franca, M., Alberich-Bayarri, A., Deroose, C.M., Loewe, C., Manniesing, R., Caramella, C., Lopci, E., Lassau, N., Persson, A., Achten, R., Rosendahl, K., Clement, O., Kotter, E., Golay, X., Smits, Marion, Dewey, M., Sullivan, D.C., Lugt, A. van der, and Desouza, N.M.

Abstract

Contains fulltext : 238654.pdf (Publisher’s version ) (Open Access), Existing quantitative imaging biomarkers (QIBs) are associated with known biological tissue characteristics and follow a well-understood path of technical, biological and clinical validation before incorporation into clinical trials. In radiomics, novel data-driven processes extract numerous visually imperceptible statistical features from the imaging data with no a priori assumptions on their correlation with biological processes. The selection of relevant features (radiomic signature) and incorporation into clinical trials therefore requires additional considerations to ensure meaningful imaging endpoints. Also, the number of radiomic features tested means that power calculations would result in sample sizes impossible to achieve within clinical trials. This article examines how the process of standardising and validating data-driven imaging biomarkers differs from those based on biological associations. Radiomic signatures are best developed initially on datasets that represent diversity of acquisition protocols as well as diversity of disease and of normal findings, rather than within clinical trials with standardised and optimised protocols as this would risk the selection of radiomic features being linked to the imaging process rather than the pathology. Normalisation through discretisation and feature harmonisation are essential pre-processing steps. Biological correlation may be performed after the technical and clinical validity of a radiomic signature is established, but is not mandatory. Feature selection may be part of discovery within a radiomics-specific trial or represent exploratory endpoints within an established trial; a previously validated radiomic signature may even be used as a primary/secondary endpoint, particularly if associations are demonstrated with specific biological processes and pathways being targeted within clinical trials. KEY POINTS: * Data-driven processes like radiomics risk false discoveries due to high-dimensionality of the da

Published

2021

12. Incorporating radiomics into clinical trials: expert consensus on considerations for data-driven compared to biologically driven quantitative biomarkers

Author

Fournier, L. (Laure), Costaridou, L. (Lena), Bidaut, L. (Luc), Michoux, N. (Nicolas), Lecouvet, F.E. (Frédéric), de Geus-Oei, L.-F. (Lioe-Fee), Boellaard, R. (Ronald), Oprea-Lager, D.E. (Daniela E.), Obuchowski, N. (Nancy), Caroli, A. (Anna), Kunz, W.G. (Wolfgang), Oei, E.H.G. (Edwin), O’Connor, J.P.B. (James P. B.), Mayerhoefer, M.E. (Marius E.), Franca, M. (Manuela), Alberich-Bayarri, A. (Angel), Deroose, C.M. (Christophe M.), Loewe, C. (Christian), Manniesing, R. (Rashindra), Caramella, C. (Caroline), Lopci, E. (Egesta), Lassau, N. (Nathalie), Persson, A. (Anders), Achten, R. (Rik), Rosendahl, K. (Karen), Clement, O. (Olivier), Kotter, E. (Elmar), Golay, A. (Alain), Smits, M. (Marion), Dewey, T.M. (Todd M.), Sullivan, D.C. (Daniel C.), Lugt, A. (Aad) van der, DeSouza, N.M. (Nandita M.), Fournier, L. (Laure), Costaridou, L. (Lena), Bidaut, L. (Luc), Michoux, N. (Nicolas), Lecouvet, F.E. (Frédéric), de Geus-Oei, L.-F. (Lioe-Fee), Boellaard, R. (Ronald), Oprea-Lager, D.E. (Daniela E.), Obuchowski, N. (Nancy), Caroli, A. (Anna), Kunz, W.G. (Wolfgang), Oei, E.H.G. (Edwin), O’Connor, J.P.B. (James P. B.), Mayerhoefer, M.E. (Marius E.), Franca, M. (Manuela), Alberich-Bayarri, A. (Angel), Deroose, C.M. (Christophe M.), Loewe, C. (Christian), Manniesing, R. (Rashindra), Caramella, C. (Caroline), Lopci, E. (Egesta), Lassau, N. (Nathalie), Persson, A. (Anders), Achten, R. (Rik), Rosendahl, K. (Karen), Clement, O. (Olivier), Kotter, E. (Elmar), Golay, A. (Alain), Smits, M. (Marion), Dewey, T.M. (Todd M.), Sullivan, D.C. (Daniel C.), Lugt, A. (Aad) van der, and DeSouza, N.M. (Nandita M.)

Abstract

Existing quantitative imaging biomarkers (QIBs) are associated with known biological tissue characteristics and follow a well-understood path of technical, biological and clinical validation before incorporation into clinical trials. In radiomics, novel data-driven processes extract numerous visually imperceptible statistical features from the imaging data with no a priori assumptions on their correlation with biological processes. The selection of relevant features (radiomic signature) and incorporation into clinical trials therefore requires additional considerations to ensure meaningful imaging endpoints. Also, the number of radiomic features tested means that power calculations would result in sample sizes impossible to achieve within clinical trials. This article examines how the process of standardising and validating data-driven imaging biomarkers differs from those based on biological associations. Radiomic signatures are best developed initially on datasets that represent diversity of acquisition protocols as well as diversity of disease and of normal findings, rather than within clinical trials with standardised and optimised protocols as this would risk the selection of radiomic features being linked to the imaging process rather than the pathology. Normalisation through discretisation and feature harmonisation are essential pre-processing steps. Biological correlation may be performed after the technical and clinical validity of a radiomic signature is established, but is not mandatory. Feature selection may be part of discovery within a radiomics-specific trial or represent exploratory endpoints within an established trial; a previously validated radiomic signature may even be used as a primary/secondary endpoint, particularly if associations are demonstrated with specific biological processes and pathways being targeted within clinical trials. Key Points: • Data-driven processes like radiomics risk false discoveries due to high-dimensionality

Published

2021

13. Quantified health and cost effects of faster endovascular treatment for large vessel ischemic stroke patients in the Netherlands

Author

Van Voorst, H. (Henk), Kunz, W.G. (Wolfgang), Van Den Berg, L.A. (Lucie A.), Kappelhof, M. (Manon), Pinckaers, F.M.E. (Floor M E), Goyal, M. (Mayank), Hunink, M.G.M. (Myriam), Emmer, B.J. (Bart J.), Mulder, M.J.H.L. (Maxim Johan Heymen Laurence), Dippel, D.W.J. (Diederik), Coutinho, J.M. (Jonathan), Marquering, H. (Henk), Boogaarts, H.D. (Hieronymus D), Lugt, A. (Aad) van der, Zwam, W.H. (Wim) van, Roos, Y.B.W.E.M. (Yvo), Buskens, E. (Erik), Dijkgraaf, M.G.W. (Marcel), Majoie, C.B. (Charles), Van Voorst, H. (Henk), Kunz, W.G. (Wolfgang), Van Den Berg, L.A. (Lucie A.), Kappelhof, M. (Manon), Pinckaers, F.M.E. (Floor M E), Goyal, M. (Mayank), Hunink, M.G.M. (Myriam), Emmer, B.J. (Bart J.), Mulder, M.J.H.L. (Maxim Johan Heymen Laurence), Dippel, D.W.J. (Diederik), Coutinho, J.M. (Jonathan), Marquering, H. (Henk), Boogaarts, H.D. (Hieronymus D), Lugt, A. (Aad) van der, Zwam, W.H. (Wim) van, Roos, Y.B.W.E.M. (Yvo), Buskens, E. (Erik), Dijkgraaf, M.G.W. (Marcel), and Majoie, C.B. (Charles)

Abstract

Background: The effectiveness of endovascular treatment (EVT) for large vessel occlusion (LVO) stroke severely depends on time to treatment. However, it remains unclear what the value of faster treatment is in the years after index stroke. The aim of this study was to quantify the value of faster EVT in terms of health and healthcare costs for the Dutch LVO stroke population. Methods: A Markov model was used to simulate 5-year follow-up functional outcome, measured with the modified Rankin Scale (mRS), of 69-year-old LVO patients. Post-treatment mRS was extracted from the MR CLEAN Registry (n=2892): costs per unit of time and Quality-Adjusted Life Years (QALYs) per mRS sub-score were retrieved from follow-up data of the MR CLEAN trial (n=500). Net Monetary Benefit (NMB) at a willingness to pay of €80 000 per QALY was reported as primary outcome, and secondary outcome measures were days of disability-free life gained and costs. Results: EVT administered 1 min faster resulted in a median NMB of €309 (IQR: 226;389), 1.3 days of additional disability-free life (IQR: 1.0;1.6), while cumulative costs remained largely unchanged (median: -€15, IQR: -65;33) over a 5-year follow-up period. As costs over the follow-up period remained stable while QALYs decreased with longer time to treatment, which this results in a near-linear decrease of NMB. Since patients with faster EVT lived longer, they incurred more healthcare costs. Conclusion: One-minute faster EVT increases QALYs while cumulative costs remain largely unaffected. Therefore, faster EVT provides better value of care at no extra healthcare costs.

Published

2020

14. Public Health and Cost Benefits of Successful Reperfusion After Thrombectomy for Stroke

Author

Kunz, W.G. (Wolfgang), Almekhlafi, M. (Mohammed), Menon, B.K. (Bijoy K.), Saver, J.L. (Jeffery L.), Hunink, M.G. (Myriam G.), Dippel, D.W.J. (Diederik), Majoie, C.B.L.M. (Charles B L M), Liebeskind, D.S. (David S.), Jovin, T.G. (Tudor G.), Davalos, A. (Antoni), Bracard, S. (Serge), Guillemin, F. (Francis), Campbell, B.C.V. (Bruce C. V.), Mitchell, P.J. (Peter J.), White, P. (Philip), Muir, K.W. (Keith), Brown, S. (Scott), Demchuk, A.M. (Andrew), Hill, M.D. (Michael D.), Goyal, M. (Mayank), Kunz, W.G. (Wolfgang), Almekhlafi, M. (Mohammed), Menon, B.K. (Bijoy K.), Saver, J.L. (Jeffery L.), Hunink, M.G. (Myriam G.), Dippel, D.W.J. (Diederik), Majoie, C.B.L.M. (Charles B L M), Liebeskind, D.S. (David S.), Jovin, T.G. (Tudor G.), Davalos, A. (Antoni), Bracard, S. (Serge), Guillemin, F. (Francis), Campbell, B.C.V. (Bruce C. V.), Mitchell, P.J. (Peter J.), White, P. (Philip), Muir, K.W. (Keith), Brown, S. (Scott), Demchuk, A.M. (Andrew), Hill, M.D. (Michael D.), and Goyal, M. (Mayank)

Abstract

Background and Purpose- The benefit that endovascular thrombectomy offers to patients with stroke with large vessel occlusions depends strongly on reperfusion grade as defined by the expanded Thrombolysis in Cerebral Infarction (eTICI) scale. Our aim was to determine the lifetime health and cost consequences of the quality of reperfusion for patients, healthcare systems, and society. Methods- A Markov model estimated lifetime quality-adjusted life years (QALY) and lifetime costs of endovascular thrombectomy-treated patients with stroke based on eTICI grades. The analysis was performed over a lifetime horizon in a United States setting, adopting healthcare and societal perspectives. The reference case analysis was conducted for stroke at 65 years of age. National health and cost consequences of improved eTICI 2c/3 reperfusion rates were estimated. Input parameters were based on best available evidence. Results- Lifetime QALYs increased for every grade of improved reperfusion (median QALYs for eTICI 0/1: 2.62; eTICI 2a: 3.46; eTICI 2b: 5.42; eTICI 2c: 5.99; eTICI 3: 6.73). Achieving eTICI 3 over eTICI 2b reperfusion resulted on average in 1.31 incremental QALYs as well as healthcare and societal cost savings of $10 327 and $20 224 per patient. A 10% increase in the eTICI 2c/3 reperfusion rate of all annually endovascular thrombectomy-treated patients with stroke in the United States is estimated to yield additional 3656 QALYs and save $21.0 million and $36.8 million for the healthcare system and society, respectively. Conclusions- Improved reperfusion grants patients with stroke additional QALYs and leads to long-term cost savings. Procedural strategies to achieve complete reperfusion should be assessed for safety and feasibility, even when initial reperfusion seems to be adequate.

Published

2020

15. Imaging Triage of Patients with Late-Window (6–24 Hours) Acute Ischemic Stroke: A Comparative Study Using Multiphase CT Angiography versus CT Perfusion

Author

Almekhlafi, M.A., primary, Kunz, W.G., additional, McTaggart, R.A., additional, Jayaraman, M.V., additional, Najm, M., additional, Ahn, S.H., additional, Fainardi, E., additional, Rubiera, M., additional, Khaw, A.V., additional, Zini, A., additional, Hill, M.D., additional, Demchuk, A.M., additional, Goyal, M., additional, and Menon, B.K., additional

Published

2019

16. Imaging of Patients with Suspected Large-Vessel Occlusion at Primary Stroke Centers: Available Modalities and a Suggested Approach

Author

Almekhlafi, M.A., primary, Kunz, W.G., additional, Menon, B.K., additional, McTaggart, R.A., additional, Jayaraman, M.V., additional, Baxter, B.W., additional, Heck, D., additional, Frei, D., additional, Derdeyn, C.P., additional, Takagi, T., additional, Aamodt, A.H., additional, Fragata, I.M.R., additional, Hill, M.D., additional, Demchuk, A.M., additional, and Goyal, M., additional

Published

2019

17. Imaging standardisation in metastatic colorectal cancer: a joint EORTC-ESOI-ESGAR expert consensus recommendation

Author

Unterrainer, Marcus, Deroose, Christophe M., Herrmann, Ken, Moehler, Markus, Blomqvist, Lennart, Cannella, Roberto, Caramella, Caroline, Caruso, Damiano, Chouhan, Manil D., Denecke, Timm, De la Pinta, Carolina, De Geus-Oei, Lioe-Fee, Dulskas, Audrius, Eisenblätter, Michel, Foley, Kieran G., Gourtsoyianni, Sofia, Lecouvet, Frederic E., Lopci, Egesta, Maas, Monique, Obmann, Markus M., Oprea-Lager, Daniela E., Verhoeff, Joost J. C., Santiago, Ines, Terraz, Sylvain, D'Anastasi, Melvin, Regge, Daniele, Laghi, Andrea, Beets-Tan, Regina G. H., Heinemann, Volker, Lordick, Florian, Smyth, Elizabeth C., Ricke, Jens, Kunz, Wolfgang G., European Organisation for Research and Treatment of Cancer (EORTC), Imaging Group, the European Organisation for Research and Treatment of Cancer (EORTC), Gastrointestinal Tract Cancer Group, the European Society of Oncologic Imaging (ESOI), European Society of Gastrointestinal and Abdominal Radiology (ESGAR)., Radiology and nuclear medicine, CCA - Imaging and biomarkers, Unterrainer M., Deroose C.M., Herrmann K., Moehler M., Blomqvist L., Cannella R., Caramella C., Caruso D., Chouhan M.D., Denecke T., De la Pinta C., De Geus-Oei L.F., Dulskas A., Eisenblätter M., Foley K.G., Gourtsoyianni S., Lecouvet F.E., Lopci E., Maas M., Obmann M.M., Oprea-Lager D.E., Verhoeff J.J.C., Santiago I., Terraz S., D'Anastasi M., Regge D., Laghi A., Beets-Tan R.G.H., Heinemann V., Lordick F., Smyth E.C., Ricke J., Kunz W.G., European Organisation for Research and Treatment of Cancer (EORTC), Imaging Group, the European Organisation for Research and Treatment of Cancer (EORTC), Gastrointestinal Tract Cancer Group, the European Society of Oncologic Imaging (ESOI), and European Society of Gastrointestinal and Abdominal Radiology (ESGAR).

Subjects

PROTOCOL, Cancer Research, Positron emission tomography, Artificial intelligence, Consensus, BEVACIZUMAB, Medizin, Imaging, Cancer -- Imaging, Humans, CRITERIA, Colon (Anatomy) -- Cancer -- Tomography, Computed tomography, Science & Technology, Radiomics, Rectal Neoplasms, Abdomen -- Radiography -- Case studies, Colon (Anatomy) -- Cancer -- Treatment, Reproducibility of Results, Abdomen -- Radiography -- Standards, OPEN-LABEL, Colorectal cancer, Artificial intelligence, Standardisation, Colorectal cancer, Computed tomography, Imaging, Positron emission tomography, Radiomics, Oncology, Colonic Neoplasms, SURVIVAL, Standardisation, Life Sciences & Biomedicine

Abstract

Background: Treatment monitoring in metastatic colorectal cancer (mCRC) relies on imaging to evaluate the tumor burden. Response Evaluation Criteria in Solid Tumors (RECIST) provide a framework on reporting and interpretation of imaging findings yet offer no guidance on a standardized imaging protocol tailored to mCRC patients. Imaging protocol heterogeneity remains a challenge for the reproducibility of conventional imaging endpoints and is an obstacle for research on novel imaging endpoints. Patients and methods: Acknowledging the recently highlighted potential of radiomics and artificial intelligence (AI) tools as decision support for patient care in mCRC, a multidisciplinary, international, and expert panel of imaging specialists was formed to find consensus on mCRC imaging protocols using the Delphi method. Results: Under the guidance of the European Organisation for Research and Treatment of Cancer (EORTC) Imaging and Gastrointestinal Tract Cancer Groups, the European Society of Oncologic Imaging (ESOI) and the European Society of Gastrointestinal and Abdominal Radiology (ESGAR), the EORTC-ESOI-ESGAR core imaging protocol was identified. Conclusion: This consensus protocol attempts to promote standardization and to diminish variations in patient preparation, scan acquisition and scan reconstruction. We anticipate that this standardization will increase reproducibility of radiomics and AI studies and serve as a catalyst for future research on imaging endpoints. For ongoing and future mCRC trials, we encourage principal investigators to support the dissemination of these imaging standards across recruiting centers., peer-reviewed

Published

2022

18. Trainee research prizes from the 2019 RSNA scientific assembly and annual meeting

Author

Dooman Arefan, Mattie Salim, Marta Gonzalo Carballes, Shiman Wu, Marie Christin Metz, Konstantin Willer, Federica Vernuccio, Damir Ljuboja, Yuxing Tang, Akinyemi A. Akintayo, Yang Zhang, Xiangyu Wang, Victoria Podsiadlo, Lynn Jeanette Savic, Yijun Zhao, Mona Arbab, Chloe G Cross, Christopher J.R. Gallo, Pouya Nazari, Shobhit Mathur, Uday K. Marri, Simon S. Martin, Camilo A Campo, Shanshan Gao, Matthew T. MacLean, Kishore Rajendran, Sowmya L. Varada, Mary Ellen I. Koran, Shearwood McClelland, Yan Yi, Sebastian Roehrich, Liqiang Ren, Jeffrey E. Eben, Evan Calabrese, Ishan Garg, Evan M. Masutani, Paul H. Yi, Asser Abou Elkassem, Hetal Patel, Monika Arzanauskaite, Marie Luise Kromrey, Anna Trofimova, Jing Chen, Sarah C. Foreman, Daniel Fadaei Fouladi, Florian Siedek, Yixin Chen, Wolfgang G. Kunz, Arefan D., Arzanauskaite M., Elkassem A.A., Mathur S., Vernuccio F., Zhao Y., Tang Y., Foreman S.C., Nazari P., Garg I., Akintayo A.A., Fouladi D.F., Siedek F., Rajendran K., Ren L., Gao S., Eben J.E., Masutani E., Gallo C.J., Campo C., MacLean M.T., Chen J., Podsiadlo V., Chen Y., Wu S., Cross C.G., Zhang Y., Metz M.-C., Patel H., Ljuboja D., Salim M., Yi Y., Roehrich S., Yi P.H., Marri U.K., Wang X., Trofimova A., Kunz W.G., Kromrey M.-L., Martin S.S., Varada S.L., Calabrese E.D., Koran M.E.I., Carballes M.G., Willer K., Arbab M., McClelland S., and Savic L.J.

Subjects

Medical education, Students, Medical, Prize, business.industry, Research, Awards and Prizes, Internship and Residency, Training Support, North America, Medicine, Humans, Radiology, Nuclear Medicine and imaging, business, Radiology, Societies, Medical

Abstract

Trainee Research Prizes from the 2019 RSNA Scientific Assembly and Annual Meeting

Published

2020