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1. Challenging local realism with human choices

Author

The BIG Bell Test Collaboration, Abellán, C., Acín, A., Alarcón, A., Alibart, O., Andersen, C. K., Andreoli, F., Beckert, A., Beduini, F. A., Bendersky, A., Bentivegna, M., Bierhorst, P., Burchardt, D., Cabello, A., Cariñe, J., Carrasco, S., Carvacho, G., Cavalcanti, D., Chaves, R., Cortés-Vega, J., Cuevas, A., Delgado, A., de Riedmatten, H., Eichler, C., Farrera, P., Fuenzalida, J., García-Matos, M., Garthoff, R., Gasparinetti, S., Gerrits, T., Jouneghani, F. Ghafari, Glancy, S., Gómez, E. S., González, P., Guan, J. -Y., Handsteiner, J., Heinsoo, J., Heinze, G., Hirschmann, A., Jiménez, O., Kaiser, F., Knill, E., Knoll, L. T., Krinner, S., Kurpiers, P., Larotonda, M. A., Larsson, J. -Å., Lenhard, A., Li, H., Li, M. -H., Lima, G., Liu, B., Liu, Y., Grande, I. H. López, Lunghi, T., Ma, X., Magaña-Loaiza, O. S., Magnard, P., Magnoni, A., Martí-Prieto, M., Martínez, D., Mataloni, P., Mattar, A., Mazzera, M., Mirin, R. P., Mitchell, M. W., Nam, S., Oppliger, M., Pan, J. -W., Patel, R. B., Pryde, G. J., Rauch, D., Redeker, K., Rieländer, D., Ringbauer, M., Roberson, T., Rosenfeld, W., Salathé, Y., Santodonato, L., Sauder, G., Scheidl, T., Schmiegelow, C. T., Sciarrino, F., Seri, A., Shalm, L. K., Shi, S. -C., Slussarenko, S., Stevens, M. J., Tanzilli, S., Toledo, F., Tura, J., Ursin, R., Vergyris, P., Verma, V. B., Walter, T., Wallraff, A., Wang, Z., Weinfurter, H., Weston, M. M., White, A. G., Wu, C., Xavier, G. B., You, L., Yuan, X., Zeilinger, A., Zhang, Q., Zhang, W., and Zhong, J.

Subjects
Quantum Physics
Abstract

A Bell test is a randomized trial that compares experimental observations against the philosophical worldview of local realism. A Bell test requires spatially distributed entanglement, fast and high-efficiency detection and unpredictable measurement settings. Although technology can satisfy the first two of these requirements, the use of physical devices to choose settings in a Bell test involves making assumptions about the physics that one aims to test. Bell himself noted this weakness in using physical setting choices and argued that human `free will' could be used rigorously to ensure unpredictability in Bell tests. Here we report a set of local-realism tests using human choices, which avoids assumptions about predictability in physics. We recruited about 100,000 human participants to play an online video game that incentivizes fast, sustained input of unpredictable selections and illustrates Bell-test methodology. The participants generated 97,347,490 binary choices, which were directed via a scalable web platform to 12 laboratories on five continents, where 13 experiments tested local realism using photons, single atoms, atomic ensembles, and superconducting devices. Over a 12-hour period on 30 November 2016, participants worldwide provided a sustained data flow of over 1,000 bits per second to the experiments, which used different human-generated data to choose each measurement setting. The observed correlations strongly contradict local realism and other realistic positions in bipartite and tripartite scenarios. Project outcomes include closing the `freedom-of-choice loophole' (the possibility that the setting choices are influenced by `hidden variables' to correlate with the particle properties), the utilization of video-game methods for rapid collection of human generated randomness, and the use of networking techniques for global participation in experimental science., Comment: This version includes minor changes resulting from reviewer and editorial input. Abstract shortened to fit within arXiv limits

Published
2018
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6. Review of guidance papers on regression modeling in statistical series of medical journals.

Author

Mathes, T, Wallisch, C, Bach, P, Hafermann, L, Klein, N, Sauerbrei, W, Steyerberg, EW, Heinze, G, Rauch, G, topic group 2 of the STRATOS initiative, Mathes, T, Wallisch, C, Bach, P, Hafermann, L, Klein, N, Sauerbrei, W, Steyerberg, EW, Heinze, G, Rauch, G, and topic group 2 of the STRATOS initiative

Abstract

Although regression models play a central role in the analysis of medical research projects, there still exist many misconceptions on various aspects of modeling leading to faulty analyses. Indeed, the rapidly developing statistical methodology and its recent advances in regression modeling do not seem to be adequately reflected in many medical publications. This problem of knowledge transfer from statistical research to application was identified by some medical journals, which have published series of statistical tutorials and (shorter) papers mainly addressing medical researchers. The aim of this review was to assess the current level of knowledge with regard to regression modeling contained in such statistical papers. We searched for target series by a request to international statistical experts. We identified 23 series including 57 topic-relevant articles. Within each article, two independent raters analyzed the content by investigating 44 predefined aspects on regression modeling. We assessed to what extent the aspects were explained and if examples, software advices, and recommendations for or against specific methods were given. Most series (21/23) included at least one article on multivariable regression. Logistic regression was the most frequently described regression type (19/23), followed by linear regression (18/23), Cox regression and survival models (12/23) and Poisson regression (3/23). Most general aspects on regression modeling, e.g. model assumptions, reporting and interpretation of regression results, were covered. We did not find many misconceptions or misleading recommendations, but we identified relevant gaps, in particular with respect to addressing nonlinear effects of continuous predictors, model specification and variable selection. Specific recommendations on software were rarely given. Statistical guidance should be developed for nonlinear effects, model specification and variable selection to better support medical researchers who perf

Published
2022

7. Using Background Knowledge from Preceding Studies for Building a Random Forest Prediction Model: A Plasmode Simulation Study

Author

Hafermann, L, Klein, N, Rauch, G, Kammer, M, Heinze, G, Hafermann, L, Klein, N, Rauch, G, Kammer, M, and Heinze, G

Abstract

There is an increasing interest in machine learning (ML) algorithms for predicting patient outcomes, as these methods are designed to automatically discover complex data patterns. For example, the random forest (RF) algorithm is designed to identify relevant predictor variables out of a large set of candidates. In addition, researchers may also use external information for variable selection to improve model interpretability and variable selection accuracy, thereby prediction quality. However, it is unclear to which extent, if at all, RF and ML methods may benefit from external information. In this paper, we examine the usefulness of external information from prior variable selection studies that used traditional statistical modeling approaches such as the Lasso, or suboptimal methods such as univariate selection. We conducted a plasmode simulation study based on subsampling a data set from a pharmacoepidemiologic study with nearly 200,000 individuals, two binary outcomes and 1152 candidate predictor (mainly sparse binary) variables. When the scope of candidate predictors was reduced based on external knowledge RF models achieved better calibration, that is, better agreement of predictions and observed outcome rates. However, prediction quality measured by cross-entropy, AUROC or the Brier score did not improve. We recommend appraising the methodological quality of studies that serve as an external information source for future prediction model development.

Published
2022

8. Critical appraisal of artificial intelligence-based prediction models for cardiovascular disease

Author

Van Smeden, M., Heinze, G., Van Calster, B., Asselbergs, F. W., Vardas, P. E., Bruining, N., De Jaegere, P., Moore, J. H., Denaxas, S., Boulesteix, A. L., Moons, K. G. M., Van Smeden, M., Heinze, G., Van Calster, B., Asselbergs, F. W., Vardas, P. E., Bruining, N., De Jaegere, P., Moore, J. H., Denaxas, S., Boulesteix, A. L., and Moons, K. G. M.

Abstract

The medical field has seen a rapid increase in the development of artificial intelligence (AI)-based prediction models. With the introduction of such AI-based prediction model tools and software in cardiovascular patient care, the cardiovascular researcher and healthcare professional are challenged to understand the opportunities as well as the limitations of the AI-based predictions. In this article, we present 12 critical questions for cardiovascular health professionals to ask when confronted with an AI-based prediction model. We aim to support medical professionals to distinguish the AI-based prediction models that can add value to patient care from the AI that does not.

Published
2022

11. Review of guidance papers on regression modeling in statistical series of medical journals

Author

Wallisch, C., Bach, P., Hafermann, L., Klein, N., Sauerbrei, W., Steyerberg, E.W., Heinze, G., Rauch, G., and Topic Grp 2 STRATOS Initiative

Subjects
Computer and Information Sciences, Medical Journals, Epidemiology, Science, Research and Analysis Methods, Computer Software, Mathematical and Statistical Techniques, Epidemiological Statistics, Medicine and Health Sciences, Humans, Statistical Methods, Multidisciplinary, Models, Statistical, Statistics, Software Engineering, Research Assessment, Medical Writing, Medical Risk Factors, Physical Sciences, Research Reporting Guidelines, Regression Analysis, Engineering and Technology, Epidemiological Methods and Statistics, Medicine, Periodicals as Topic, Medical Humanities, Mathematics, Research Article, Forecasting
Abstract

Although regression models play a central role in the analysis of medical research projects, there still exist many misconceptions on various aspects of modeling leading to faulty analyses. Indeed, the rapidly developing statistical methodology and its recent advances in regression modeling do not seem to be adequately reflected in many medical publications. This problem of knowledge transfer from statistical research to application was identified by some medical journals, which have published series of statistical tutorials and (shorter) papers mainly addressing medical researchers. The aim of this review was to assess the current level of knowledge with regard to regression modeling contained in such statistical papers. We searched for target series by a request to international statistical experts. We identified 23 series including 57 topic-relevant articles. Within each article, two independent raters analyzed the content by investigating 44 predefined aspects on regression modeling. We assessed to what extent the aspects were explained and if examples, software advices, and recommendations for or against specific methods were given. Most series (21/23) included at least one article on multivariable regression. Logistic regression was the most frequently described regression type (19/23), followed by linear regression (18/23), Cox regression and survival models (12/23) and Poisson regression (3/23). Most general aspects on regression modeling, e.g. model assumptions, reporting and interpretation of regression results, were covered. We did not find many misconceptions or misleading recommendations, but we identified relevant gaps, in particular with respect to addressing nonlinear effects of continuous predictors, model specification and variable selection. Specific recommendations on software were rarely given. Statistical guidance should be developed for nonlinear effects, model specification and variable selection to better support medical researchers who perform or interpret regression analyses.

Published
2022

16. The INTERPRET–DD study of diabetes and depression: a protocol

Author

Lloyd, C. E., Sartorius, N., Cimino, L. C., Alvarez, A., de Braude, Guinzbourg M., Rabbani, G., Ahmed, Uddin H., Papelbaum, M., de Freitas, Regina S., Ji, L., Yu, X., Gaebel, W., Müssig, K., Chaturvedi, S. K., Srikanta, S. S., Burti, L., Bulgari, V., Musau, A., Ndetei, D., Heinze, G., Nava, Romo F., Taj, R., Khan, A., Kokoszka, A., Papasz-Siemieniuk, A., Starostina, E. G., Bobrov, A. E., Lecic-Tosevski, D., Lalic, N. M., Udomratn, P., Tangwongchai, S., Bahendeka, S., Basangwa, D., and Mankovsky, B.

Published
2015
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17. Development of cross-sector quality indicators based on claims data

Author

Gall, W, Heinze, G, Niessner, A, Duftschmid, G, Sinkovec, H, and Sulzgruber, P

Subjects
myocardial infarction, ddc: 610, quality assessment, claims data, adherence, 610 Medical sciences, Medicine, health care quality indicators
Abstract

Background: As quality in healthcare is not directly measurable, quality indicators serve as a tool for operationalizing quality of care [ref:1]. They are used as quantitative measures of the complex process of health care, mainly to measure the process and outcome quality of patient treatment[for full text, please go to the a.m. URL], 65th Annual Meeting of the German Association for Medical Informatics, Biometry and Epidemiology (GMDS), Meeting of the Central European Network (CEN: German Region, Austro-Swiss Region and Polish Region) of the International Biometric Society (IBS)

Published
2021
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18. Perturbation of proteomic biomarker data for sharing: gaining privacy whilst preserving utility?

Author

Christensen, J, Mischak, H, and Heinze, G

Subjects
anonymity, ddc: 610, 610 Medical sciences, Medicine, privacy
Abstract

Background: Release of medical data is important in the scientific world, but it compromises patient privacy, which is a major concern. A possible approach for handling this is to release privacy preserving data sets, in which the original values are changed in a way that it gets harder to identify [for full text, please go to the a.m. URL], 65th Annual Meeting of the German Association for Medical Informatics, Biometry and Epidemiology (GMDS), Meeting of the Central European Network (CEN: German Region, Austro-Swiss Region and Polish Region) of the International Biometric Society (IBS)

Published
2021
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19. Statistical model building: Background 'knowledge' based on inappropriate preselection causes misspecification

Author

Hafermann, L, Becher, H, Herrmann, C, Klein, N, Heinze, G, Rauch, G, Hafermann, L, Becher, H, Herrmann, C, Klein, N, Heinze, G, and Rauch, G

Abstract

BACKGROUND: Statistical model building requires selection of variables for a model depending on the model's aim. In descriptive and explanatory models, a common recommendation often met in the literature is to include all variables in the model which are assumed or known to be associated with the outcome independent of their identification with data driven selection procedures. An open question is, how reliable this assumed "background knowledge" truly is. In fact, "known" predictors might be findings from preceding studies which may also have employed inappropriate model building strategies. METHODS: We conducted a simulation study assessing the influence of treating variables as "known predictors" in model building when in fact this knowledge resulting from preceding studies might be insufficient. Within randomly generated preceding study data sets, model building with variable selection was conducted. A variable was subsequently considered as a "known" predictor if a predefined number of preceding studies identified it as relevant. RESULTS: Even if several preceding studies identified a variable as a "true" predictor, this classification is often false positive. Moreover, variables not identified might still be truly predictive. This especially holds true if the preceding studies employed inappropriate selection methods such as univariable selection. CONCLUSIONS: The source of "background knowledge" should be evaluated with care. Knowledge generated on preceding studies can cause misspecification.

Published
2021

23. Systematic review of education and practical guidance on regression modeling for medical researchers who lack a strong statistical background: study protocol

Author

Bach, P., Wallisch, C., Klein, N., Hafermann, L., Sauerbrei, W., Steyerberg, E.W., Heinze, G., Rauch, G., and Grp 2 STRATOS Initiative

Subjects
Computer and Information Sciences, Biomedical Research, Medical Journals, Systematic Reviews, Epidemiology, Science, Biostatistics, Research and Analysis Methods, Computer Software, Database and Informatics Methods, Mathematical and Statistical Techniques, Bias, Registered Report Protocol, Medicine and Health Sciences, Humans, Statistical Methods, Database Searching, Data Management, Models, Statistical, Data Collection, Data Science, Statistics, Software Engineering, Research Assessment, Observational Studies as Topic, Research Design, Physical Sciences, Observational Studies, Medicine, Engineering and Technology, Regression Analysis, Periodicals as Topic, Medical Humanities, Mathematics, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit::610 Medizin und Gesundheit
Abstract

In the last decades, statistical methodology has developed rapidly, in particular in the field of regression modeling. Multivariable regression models are applied in almost all medical research projects. Therefore, the potential impact of statistical misconceptions within this field can be enormous Indeed, the current theoretical statistical knowledge is not always adequately transferred to the current practice in medical statistics. Some medical journals have identified this problem and published isolated statistical articles and even whole series thereof. In this systematic review, we aim to assess the current level of education on regression modeling that is provided to medical researchers via series of statistical articles published in medical journals. The present manuscript is a protocol for a systematic review that aims to assess which aspects of regression modeling are covered by statistical series published in medical journals that intend to train and guide applied medical researchers with limited statistical knowledge. Statistical paper series cannot easily be summarized and identified by common keywords in an electronic search engine like Scopus. We therefore identified series by a systematic request to statistical experts who are part or related to the STRATOS Initiative (STRengthening Analytical Thinking for Observational Studies). Within each identified article, two raters will independently check the content of the articles with respect to a predefined list of key aspects related to regression modeling. The content analysis of the topic-relevant articles will be performed using a predefined report form to assess the content as objectively as possible. Any disputes will be resolved by a third reviewer. Summary analyses will identify potential methodological gaps and misconceptions that may have an important impact on the quality of analyses in medical research. This review will thus provide a basis for future guidance papers and tutorials in the field of regression modeling which will enable medical researchers 1) to interpret publications in a correct way, 2) to perform basic statistical analyses in a correct way and 3) to identify situations when the help of a statistical expert is required.

Published
2020

25. Systematic review of education and practical guidance on regression modeling for medical researchers who lack a strong statistical background: Study protocol

Author

Bender, R, Bach, P, Wallisch, C, Klein, N, Hafermann, L, Sauerbrei, W, Steyerberg, EW, Heinze, G, Rauch, G, Bender, R, Bach, P, Wallisch, C, Klein, N, Hafermann, L, Sauerbrei, W, Steyerberg, EW, Heinze, G, and Rauch, G

Abstract

In the last decades, statistical methodology has developed rapidly, in particular in the field of regression modeling. Multivariable regression models are applied in almost all medical research projects. Therefore, the potential impact of statistical misconceptions within this field can be enormous Indeed, the current theoretical statistical knowledge is not always adequately transferred to the current practice in medical statistics. Some medical journals have identified this problem and published isolated statistical articles and even whole series thereof. In this systematic review, we aim to assess the current level of education on regression modeling that is provided to medical researchers via series of statistical articles published in medical journals. The present manuscript is a protocol for a systematic review that aims to assess which aspects of regression modeling are covered by statistical series published in medical journals that intend to train and guide applied medical researchers with limited statistical knowledge. Statistical paper series cannot easily be summarized and identified by common keywords in an electronic search engine like Scopus. We therefore identified series by a systematic request to statistical experts who are part or related to the STRATOS Initiative (STRengthening Analytical Thinking for Observational Studies). Within each identified article, two raters will independently check the content of the articles with respect to a predefined list of key aspects related to regression modeling. The content analysis of the topic-relevant articles will be performed using a predefined report form to assess the content as objectively as possible. Any disputes will be resolved by a third reviewer. Summary analyses will identify potential methodological gaps and misconceptions that may have an important impact on the quality of analyses in medical research. This review will thus provide a basis for future guidance papers and tutorials in the field

Published
2020

41. Contribution of non-HLA incompatibility between donor and recipient to kidney allograft survival: genome-wide analysis in a prospective cohort

Author

Reindl-Schwaighofer, R., Heinzel, A., Kainz, A., Setten, J. van, Jelencsics, K., Hu, K., Loza, B.L., Kammer, M., Heinze, G., Hruba, P., Konarikova, A., Viklicky, O., Boehmig, G.A., Eskandary, F., Fischer, G., Claas, F., Tan, J.C., Albert, T.J., Patel, J., Keating, B., Oberbauer, R., and IGeneTRAIN Consortium

Subjects
Adult, Graft Rejection, Male, Single-nucleotide polymorphism, Kaplan-Meier Estimate, Human leukocyte antigen, 030204 cardiovascular system & hematology, Polymorphism, Single Nucleotide, Antibodies, 03 medical and health sciences, 0302 clinical medicine, HLA Antigens, Outcome Assessment, Health Care, Humans, Medicine, Prospective Studies, 030212 general & internal medicine, Kidney transplantation, Proportional Hazards Models, business.industry, Proportional hazards model, Histocompatibility Testing, Graft Survival, Alloimmunity, General Medicine, Middle Aged, Allografts, medicine.disease, Kidney Transplantation, HLA Mismatch, Tissue Donors, Transplantation, Quartile, Case-Control Studies, Immunology, Female, business, Genome-Wide Association Study
Abstract

Background The introduction of HLA matching of donors and recipients was a breakthrough in kidney transplantation. However, half of all transplanted kidneys still fail within 15 years after transplantation. Epidemiological data suggest a fundamental role of non-HLA alloimmunity.Methods We genotyped 477 pairs of deceased donors and first kidney transplant recipients with stable graft function at three months that were transplanted between Dec 1, 2005, and April 30, 2015. Genome-wide genetic mismatches in non-synonymous single nucleotide polymorphisms (nsSNPs) were calculated to identify incompatibilities in transmembrane and secreted proteins. We estimated the association between nsSNP mismatch and graft loss in a Cox proportional hazard model, adjusting for HLA mismatch and clinical covariates. Customised peptide arrays were generated to screen for antibodies against genotype-derived mismatched epitopes in 25 patients with biopsy-confirmed chronic antibody-mediated rejection.Findings 59 268 nsSNPs affecting a transmembrane or secreted protein were analysed. The median number of nsSNP mismatches in immune-accessible transmembrane and secreted proteins between donors and recipients was 1892 (IQR 1850-1936). The degree of nsSNP mismatch was independently associated with graft loss in a multivariable model adjusted for HLA eplet mismatch (HLA-A, HLA-B, HLA-C, HLA-DP, HLA-DQ, and HLA-DR). Each increase by a unit of one IQR had an HR of 1.68 (95% CI 1.17-2.41, p=0.005). 5-year death censored graft survival was 98% in the quartile with the lowest mismatch, 91% in the second quartile, 89% in the third quartile, and 82% in the highest quartile (p=0.003, log-rank test). Customised peptide arrays verified a donor-specific alloimmune response to genetically predicted mismatched epitopes.Interpretation Genetic mismatch of non-HLA haplotypes coding for transmembrane or secreted proteins is associated with an increased risk of functional graft loss independently of HLA incompatibility. As in HLA alloimmunity, donor-specific alloantibodies can be identified against genotype derived non-HLA epitopes.Funding Austrian Science Fund, WWTF (Vienna Science and Technology Fund), and Ministry of Health of the Czech Republic. Copyright (c) 2019 Elsevier Ltd. All rights reserved.

Published
2019

45. Proximale Femurfrakturen

Author

Bonnaire, F., primary, Hohaus, Th., additional, Cyffka, R., additional, Schreiber, T., additional, Zeichen, J., additional, Krettek, C., additional, Bosch, U., additional, Dresing, K., additional, Orthey, C., additional, Stürmer, K. M., additional, Kukla, C., additional, Pichl, W., additional, Jacyniak, W., additional, Heinze, G., additional, Heinz, T., additional, Rieger, H., additional, Wetterkamp, D., additional, Schiedel, F., additional, Joosten, U., additional, Lenich, A., additional, Deml, T., additional, Mayr, E., additional, Rüter, A., additional, Ketterl, R., additional, El Nasr, M. Seif, additional, Wittwer, W., additional, Gottwald, D., additional, Babisch, J., additional, Vernbrocks, R.-A., additional, Ragg, Th., additional, Abrahamik, A., additional, Gruner, A., additional, Reilmann, H., additional, Klestil, T., additional, Krüger, A., additional, Biedermann, R., additional, Gföller, P., additional, Sailer, R., additional, Rangger, C., additional, Krismer, M., additional, and Blauth, M., additional

Published
2001
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