Your search keyword '"Harry Groen"' showing total 8 results

1. Reliability of panel-based mutational signatures for immune-checkpoint-inhibition efficacy prediction in non-small cell lung cancer

Author

Hylke Cornelis Donker, Kristof Cuppens, Guy Froyen, Harry Groen, Jeroen Hiltermann, Brigitte Maes, Ed Schuuring, Pieter-Jan Volders, Gerton Lunter, and Bram van Es

Abstract

Objectives: Mutational signatures (MS) are gaining traction for deriving therapeutic insights for immune checkpoint inhibition (ICI). We asked if MS attributions from comprehensive targeted sequencing assays are reliable enough for predicting ICI efficacy in non-small cell lung cancer (NSCLC).Methods: Somatic mutations of m=126 patients were assayed using panel-based sequencing of 523 cancer-related genes. In silico simulations of MS attributions for various panels were performed on a separate dataset of m=101 whole genome sequenced patients. Non-synonymous mutations were deconvoluted using COSMIC v3.3 signatures and used to test a previously published machine learning classifier. Results: The ICI efficacy predictor performed poorly with an accuracy of {0.51}_{-0.09}^{+0.09}, average precision of {0.52}_{-0.11}^{+0.11}, and an area under the receiver operating characteristic curve of {0.50}_{-0.09}^{+0.10}. Theoretical arguments, experimental data, and in silico simulations pointed to false negative rates (FNR) related to panel size. A secondary effect was observed, where deconvolution of small ensembles of point mutations lead to reconstruction errors and misattributions.Conclusion: MS attributions from current targeted panel sequencing are not reliable enough to predict ICI efficacy. We suggest that, for downstream classification tasks in NSCLC, signature attributions be based on whole exome or genome sequencing instead.

Published

2023

2. Interview with Dr. Meyerson from Mutations in the DDR2 Kinase Gene Identify a Novel Therapeutic Target in Squamous Cell Lung Cancer

Author

Matthew Meyerson, Roman K. Thomas, Eric B. Haura, Kwok-Kin Wong, Nathanael S. Gray, Daniel Rauh, Jeonghee Cho, Adam J. Bass, Heidi Greulich, Wendy Winckler, Bruce E. Johnson, Pasi A. Janne, Michael J. Eck, Charles Hatton, Megan Hanna, Ming Sound Tsao, David G. Beer, Jürgen Wolf, Erich Stoelben, Hannie Sietsma, Wim Timens, Harry Groen, Joachim H. Clement, Iver Petersen, Åslaug Helland, Odd Terje Brustugun, Philippe Lorimier, Christian Brambilla, Elisabeth Brambilla, Sascha Ansén, Silvia Querings, Franziska Gabler, Frauke Leenders, Mirjam Koker, Holger Moch, Alex Soltermann, Johannes M. Heuckmann, Thomas Zander, Danila Seidel, Helga B. Salvesen, Robert C. Onofrio, Michael S. Lawrence, Jeffrey R. Simard, Martin Peifer, Stefanie Heynck, Sang Min Lim, Xianming Deng, Jianming Zhang, Wenchu Lin, Brittany A. Woods, Lear E. Brace, Wenjun Zhou, Amit Dutt, Chunxiao Xu, Alex H. Ramos, Martin L. Sos, and Peter S. Hammerman

Abstract

mp3 file (6.8 MB). In the inaugural edition of the Cancer Discovery podcast, Executive Editor Mark Landis talks with Matthew Meyerson about his paper, which describes the identification of the DDR2 kinase as a therapeutic target in squamous cell lung cancer.

Published

2023

3. Supplementary Table 1 from Mutations in the DDR2 Kinase Gene Identify a Novel Therapeutic Target in Squamous Cell Lung Cancer

Author

Matthew Meyerson, Roman K. Thomas, Eric B. Haura, Kwok-Kin Wong, Nathanael S. Gray, Daniel Rauh, Jeonghee Cho, Adam J. Bass, Heidi Greulich, Wendy Winckler, Bruce E. Johnson, Pasi A. Janne, Michael J. Eck, Charles Hatton, Megan Hanna, Ming Sound Tsao, David G. Beer, Jürgen Wolf, Erich Stoelben, Hannie Sietsma, Wim Timens, Harry Groen, Joachim H. Clement, Iver Petersen, Åslaug Helland, Odd Terje Brustugun, Philippe Lorimier, Christian Brambilla, Elisabeth Brambilla, Sascha Ansén, Silvia Querings, Franziska Gabler, Frauke Leenders, Mirjam Koker, Holger Moch, Alex Soltermann, Johannes M. Heuckmann, Thomas Zander, Danila Seidel, Helga B. Salvesen, Robert C. Onofrio, Michael S. Lawrence, Jeffrey R. Simard, Martin Peifer, Stefanie Heynck, Sang Min Lim, Xianming Deng, Jianming Zhang, Wenchu Lin, Brittany A. Woods, Lear E. Brace, Wenjun Zhou, Amit Dutt, Chunxiao Xu, Alex H. Ramos, Martin L. Sos, and Peter S. Hammerman

Abstract

Supplementary Table 1 from Mutations in the DDR2 Kinase Gene Identify a Novel Therapeutic Target in Squamous Cell Lung Cancer

Published

2023

4. Supplementary Figures 1-7 from Mutations in the DDR2 Kinase Gene Identify a Novel Therapeutic Target in Squamous Cell Lung Cancer

Author

Matthew Meyerson, Roman K. Thomas, Eric B. Haura, Kwok-Kin Wong, Nathanael S. Gray, Daniel Rauh, Jeonghee Cho, Adam J. Bass, Heidi Greulich, Wendy Winckler, Bruce E. Johnson, Pasi A. Janne, Michael J. Eck, Charles Hatton, Megan Hanna, Ming Sound Tsao, David G. Beer, Jürgen Wolf, Erich Stoelben, Hannie Sietsma, Wim Timens, Harry Groen, Joachim H. Clement, Iver Petersen, Åslaug Helland, Odd Terje Brustugun, Philippe Lorimier, Christian Brambilla, Elisabeth Brambilla, Sascha Ansén, Silvia Querings, Franziska Gabler, Frauke Leenders, Mirjam Koker, Holger Moch, Alex Soltermann, Johannes M. Heuckmann, Thomas Zander, Danila Seidel, Helga B. Salvesen, Robert C. Onofrio, Michael S. Lawrence, Jeffrey R. Simard, Martin Peifer, Stefanie Heynck, Sang Min Lim, Xianming Deng, Jianming Zhang, Wenchu Lin, Brittany A. Woods, Lear E. Brace, Wenjun Zhou, Amit Dutt, Chunxiao Xu, Alex H. Ramos, Martin L. Sos, and Peter S. Hammerman

Abstract

Supplementary Figures 1-7 from Mutations in the DDR2 Kinase Gene Identify a Novel Therapeutic Target in Squamous Cell Lung Cancer

Published

2023

5. Supplementary Figure Legends 1-7 from Mutations in the DDR2 Kinase Gene Identify a Novel Therapeutic Target in Squamous Cell Lung Cancer

Author

Matthew Meyerson, Roman K. Thomas, Eric B. Haura, Kwok-Kin Wong, Nathanael S. Gray, Daniel Rauh, Jeonghee Cho, Adam J. Bass, Heidi Greulich, Wendy Winckler, Bruce E. Johnson, Pasi A. Janne, Michael J. Eck, Charles Hatton, Megan Hanna, Ming Sound Tsao, David G. Beer, Jürgen Wolf, Erich Stoelben, Hannie Sietsma, Wim Timens, Harry Groen, Joachim H. Clement, Iver Petersen, Åslaug Helland, Odd Terje Brustugun, Philippe Lorimier, Christian Brambilla, Elisabeth Brambilla, Sascha Ansén, Silvia Querings, Franziska Gabler, Frauke Leenders, Mirjam Koker, Holger Moch, Alex Soltermann, Johannes M. Heuckmann, Thomas Zander, Danila Seidel, Helga B. Salvesen, Robert C. Onofrio, Michael S. Lawrence, Jeffrey R. Simard, Martin Peifer, Stefanie Heynck, Sang Min Lim, Xianming Deng, Jianming Zhang, Wenchu Lin, Brittany A. Woods, Lear E. Brace, Wenjun Zhou, Amit Dutt, Chunxiao Xu, Alex H. Ramos, Martin L. Sos, and Peter S. Hammerman

Abstract

Supplementary Figure Legends 1-7 from Mutations in the DDR2 Kinase Gene Identify a Novel Therapeutic Target in Squamous Cell Lung Cancer

Published

2023

6. a genomic-based classification of lung tumors

Author

Clinical Lung Cancer Genome Project, Network Genomic Medicine, Biospecimens, data source sites: Alex Soltermann, Holger Moch, Odd Terje Brustugun, Steinar Solberg, Marius Lund Iversen, Åslaug Helland, Thomas Muley, Hans Hoffmann, Philipp A. Schnabel, Yuan Chen, Harry Groen, Wim Timens, Hannie Sietsma, Joachim H. Clement, Walter Weder, Jörg Sänger, Erich Stoelben, Corinna Ludwig, Walburga Engel Riedel, Egbert Smit, Daniëlle A. M. Heideman, Peter J. F. Snijders, Lucia Nogova, Martin L. Sos, Christian Mattonet, Karin Töpelt, Matthias Scheffler, Eray Goekkurt, Rainer Kappes, Stefan Krüger, Kato Kambartel, Dirk Behringer, Wolfgang Schulte, Wolfgang Galetke, Winfried Randerath, Matthias Heldwein, Andreas Schlesinger, Monika Serke, Khosro Hekmat, Konrad F. Frank, Roland Schnell, Marcel Reiser, Ali Nuri Hünerlitürkoglu, Stephan Schmitz, Lisa Meffert, Yon Dschun Ko, Markus Litt Lampe, Ulrich Gerigk, Rainer Fricke, Benjamin Besse, Christian Brambilla, Sylvie Lantuejoul, Philippe Lorimier, Denis Moro Sibilot, Federico Cappuzzo, Claudia Ligorio, John K. Field, Russell Hyde, Pierre Validire, Philippe Girard, Lucia A. Muscarella, Vito M. Fazio, Michael Hallek, Jean Charles Soria, Scott L. Carter, Gad Getz, D. Neil Hayes, Matthew D. Wilkerson, Viktor Achter, Ulrich Lang, DAMIANI, STEFANIA, Clinical Lung Cancer Genome Project (CLCGP), Network Genomic Medicine (NGM), Biospecimens and data source sites: Alex Soltermann, Holger Moch, Odd Terje Brustugun, Steinar Solberg, Marius Lund-Iversen, Åslaug Helland, Thomas Muley, Hans Hoffmann, Philipp A. Schnabel, Yuan Chen, Harry Groen, Wim Timen, Hannie Sietsma, Joachim H. Clement, Walter Weder, Jörg Sänger, Erich Stoelben, Corinna Ludwig, Walburga Engel-Riedel, Egbert Smit, Daniëlle A. M. Heideman, Peter J. F. Snijder, Lucia Nogova, Martin L. So, Christian Mattonet, Karin Töpelt, Matthias Scheffler, Eray Goekkurt, Rainer Kappe, Stefan Krüger, Kato Kambartel, Dirk Behringer, Wolfgang Schulte, Wolfgang Galetke, Winfried Randerath, Matthias Heldwein, Andreas Schlesinger, Monika Serke, Khosro Hekmat, Konrad F. Frank, Roland Schnell, Marcel Reiser, Ali-Nuri Hünerlitürkoglu, Stephan Schmitz, Lisa Meffert, Yon-Dschun Ko, Markus Litt-Lampe, Ulrich Gerigk, Rainer Fricke, Benjamin Besse, Christian Brambilla, Sylvie Lantuejoul, Philippe Lorimier, Denis Moro-Sibilot, Federico Cappuzzo, Claudia Ligorio, Stefania Damiani, John K. Field, Russell Hyde, Pierre Validire, Philippe Girard, Lucia A. Muscarella, Vito M. Fazio, Michael Hallek, Jean-Charles Soria, Scott L. Carter, Gad Getz, D. Neil Haye, Matthew D. Wilkerson, Viktor Achter, and Ulrich Lang

Subjects

genomics, Lung cancer

Abstract

We characterized genome alterations in 1255 clinically annotated lung tumors of all histological subgroups to identify genetically defined and clinically relevant subtypes. More than 55% of all cases had at least one oncogenic genome alteration potentially amenable to specific therapeutic intervention, including several personalized treatment approaches that are already in clinical evaluation. Marked differences in the pattern of genomic alterations existed between and within histological subtypes, thus challenging the original histomorphological diagnosis. Immunohistochemical studies confirmed many of these reassigned subtypes. The reassignment eliminated almost all cases of large cell carcinomas, some of which had therapeutically relevant alterations. Prospective testing of our genomics-based diagnostic algorithm in 5145 lung cancer patients enabled a genome-based diagnosis in 3863 (75%) patients, confirmed the feasibility of rational reassignments of large cell lung cancer, and led to improvement in overall survival in patients with EGFR-mutant or ALK-rearranged cancers. Thus, our findings provide support for broad implementation of genome-based diagnosis of lung cancer.

Published

2013

7. Problems eliciting cues in SEIQoL-DW

Author

Marjan Westerman, Tony Hak, Anne-Mei The, Harry Groen, Gerrit van der Wal, and Methodology and Applied Biostatistics

Subjects

Adult, Male, Interview, Applied psychology, Exploratory research, Research Support, Developmental psychology, Quality of life (healthcare), SDG 3 - Good Health and Well-being, Bias, RESPONSE SHIFT, Surveys and Questionnaires, 80 and over, Journal Article, small-cell lung cancer, LYMPHOMA, Medicine, Humans, Meaning (existential), Carcinoma, Small Cell, Non-U.S. Gov't, HEALTHY, Aged, Netherlands, Aged, 80 and over, business.industry, Research Support, Non-U.S. Gov't, Carcinoma, Public Health, Environmental and Occupational Health, Small Cell, Middle Aged, Weighting, Clinical trial, quality of life, SEIQoL-DW, Bias (Epidemiology), Quality of Life, Female, Cues, business, Seiqol dw, CLINICAL-TRIALS, Qualitative research, qualitative methods

Abstract

The Schedule of Individual Quality of Life - Direct Weighting (SEIQoL-DW) is an individualized approach in the measurement of quality of life in which patients can choose, value and weight five areas that they consider important for their quality of life. Although a number of studies have reported on the feasibility of the administration of the instrument, little is known about how patients choose and define these five areas, the so-called 'cues'. This article describes problems in the elicitation of cues experienced in a qualitative, exploratory study among small-cell lung cancer patients (n = 31) in the Netherlands. Cues originate from patient-interviewer interaction which is best described as an area of tension between the patient's answers and the instrument instructions. As a result, the interviewer may inadvertently introduce bias while attempting to elicit cues, ultimately affecting patients' SEIQoL-DW measures. In order to prevent possible unnoticed interviewer bias special attention should be paid to the interviewer behaviour. Methods to record the meaning of cues should be considered. More research is needed in order to investigate differences in nominating cues with and without the use of the prompt list.

Published

2006

8. Crizotinib PLOS One File final.sav

Author

Gerald Kerner, Michel Koole, Fons Bongaerts, Jan Pruim, Harry Groen, Gerald Kerner, Michel Koole, Fons Bongaerts, Jan Pruim, and Harry Groen

Abstract

Total body metabolic tumor response in ALK positive non-small-cell lung cancer patients treated with crizotinib

Published

2016