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1. Piecewise Constant Hazard Estimation with the Fused Lasso

Author

Rosenbaum, Manuel, Beyersmann, Jan, and Vogt, Michael

Subjects
Statistics - Methodology
Abstract

In applied time-to-event analysis, a flexible parametric approach is to model the hazard rate as a piecewise constant function of time. However, the change points and values of the piecewise constant hazard are usually unknown and need to be estimated. In this paper, we develop a fully data-driven procedure for piecewise constant hazard estimation. We work in a general counting process framework which nests a wide range of popular models in time-to-event analysis including Cox's proportional hazards model with potentially high-dimensional covariates, competing risks models as well as more general multi-state models. To construct our estimator, we set up a regression model for the increments of the Breslow estimator and then use fused lasso techniques to approximate the piecewise constant signal in this regression model. In the theoretical part of the paper, we derive the convergence rate of our estimator as well as some results on how well the change points of the piecewise constant hazard are approximated by our method. We complement the theory by both simulations and a real data example, illustrating that our results apply in rather general event histories such as multi-state models.

Published
2024

2. Multiple imputation of missing covariates when using the Fine-Gray model

Author

Bonneville, Edouard F., Beyersmann, Jan, Keogh, Ruth H., Bartlett, Jonathan W., Morris, Tim P., Polverelli, Nicola, de Wreede, Liesbeth C., and Putter, Hein

Subjects
Statistics - Methodology
Abstract

The Fine-Gray model for the subdistribution hazard is commonly used for estimating associations between covariates and competing risks outcomes. When there are missing values in the covariates included in a given model, researchers may wish to multiply impute them. Assuming interest lies in estimating the risk of only one of the competing events, this paper develops a substantive-model-compatible multiple imputation approach that exploits the parallels between the Fine-Gray model and the standard (single-event) Cox model. In the presence of right-censoring, this involves first imputing the potential censoring times for those failing from competing events, and thereafter imputing the missing covariates by leveraging methodology previously developed for the Cox model in the setting without competing risks. In a simulation study, we compared the proposed approach to alternative methods, such as imputing compatibly with cause-specific Cox models. The proposed method performed well (in terms of estimation of both subdistribution log hazard ratios and cumulative incidences) when data were generated assuming proportional subdistribution hazards, and performed satisfactorily when this assumption was not satisfied. The gain in efficiency compared to a complete-case analysis was demonstrated in both the simulation study and in an applied data example on competing outcomes following an allogeneic stem cell transplantation. For individual-specific cumulative incidence estimation, assuming proportionality on the correct scale at the analysis phase appears to be more important than correctly specifying the imputation procedure used to impute the missing covariates.

Published
2024

3. Survival analysis for AdVerse events with VarYing follow-up times (SAVVY): summary of findings and a roadmap for the future of safety analyses in clinical trials

Author

Rufibach, Kaspar, Beyersmann, Jan, Friede, Tim, Schmoor, Claudia, and Stegherr, Regina

Subjects
Statistics - Applications
Abstract

The SAVVY project aims to improve the analyses of adverse events (AEs) in clinical trials through the use of survival techniques appropriately dealing with varying follow-up times and competing events (CEs). This paper summarizes key features and conclusions from the various SAVVY papers. Through theoretical investigations using simulations and in an empirical study including randomized clinical trials from several sponsor organisations, biases from ignoring varying follow-up times or CEs are investigated. The bias of commonly used estimators of the absolute and relative AE risk is quantified. Furthermore, we provide a cursory assessment of how pertinent guidelines for the analysis of safety data deal with the features of varying follow-up time and CEs. SAVVY finds that for both, avoiding bias and categorization of evidence with respect to treatment effect on AE risk into categories, the choice of the estimator is key and more important than features of the underlying data such as percentage of censoring, CEs, amount of follow-up, or value of the gold-standard. The choice of the estimator of the cumulative AE probability and the definition of CEs are crucial. SAVVY recommends using the Aalen-Johansen estimator (AJE) with an appropriate definition of CEs whenever the risk for AEs is to be quantified. There is an urgent need to improve the guidelines of reporting AEs so that incidence proportions or one minus Kaplan-Meier estimators are finally replaced by the AJE with appropriate definition of CEs., Comment: 17 pages, 1 Figure, 4 Tables. arXiv admin note: text overlap with arXiv:2008.07881

Published
2024

5. Oncology clinical trial design planning based on a multistate model that jointly models progression-free and overall survival endpoints

Author

Erdmann, Alexandra, Beyersmann, Jan, and Rufibach, Kaspar

Subjects
Statistics - Applications, Statistics - Methodology
Abstract

When planning an oncology clinical trial, the usual approach is to assume proportional hazards and even an exponential distribution for time-to-event endpoints. Often, besides the gold-standard endpoint overall survival (OS), progression-free survival (PFS) is considered as a second confirmatory endpoint. We use a survival multistate model to jointly model these two endpoints and find that neither exponential distribution nor proportional hazards will typically hold for both endpoints simultaneously. The multistate model provides a stochastic process approach to model the dependency of such endpoints neither requiring latent failure times nor explicit dependency modelling such as copulae. We use the multistate model framework to simulate clinical trials with endpoints OS and PFS and show how design planning questions can be answered using this approach. In particular, non-proportional hazards for at least one of the endpoints are naturally modelled as well as their dependency to improve planning. We consider an oncology trial on non-small-cell lung cancer as a motivating example from which we derive relevant trial design questions. We then illustrate how clinical trial design can be based on simulations from a multistate model. Key applications are co-primary endpoints and group-sequential designs. Simulations for these applications show that the standard simplifying approach may very well lead to underpowered or overpowered clinical trials. Our approach is quite general and can be extended to more complex trial designs, further endpoints, and other therapeutic areas. An R package is available on CRAN., Comment: 28 pages, 3 tables, 12 figures

Published
2023

6. Outcomes of haploidentical transplants with PT-CY vs 10/10 MUD transplants with ATG in Germany

Author

Kröger, Nicolaus, Schroeder, Thomas, Stelljes, Matthias, Dreger, Peter, Zeiser, Robert, Bethge, Wolfgang, Teschner, Daniel, Edinger, Matthias, Platzbecker, Uwe, Elmaagacli, Ahmet, Hilgendorf, Inken, Burchert, Andreas, Stölzel, Friedrich, Verbeek, Mareike, Sala, Elisa, Tischer, Johanna, Schetelig, Johannes, Brecht, Arne, Kaufmann, Martin, Kimmich, Christoph, Bittenbring, Jörg Thomas, Wulf, Gerald, Blau, Igor Wolfgang, Winkler, Julia, Bug, Gesine, Jost, Edgar, Holderried, Tobias, Dürholt, Mareike, Scheid, Christof, Wagner-Drouet, Eva, Wolleschak, Denise, Ringhoffer, Mark, Kiehl, Michael, Wortmann, Friederike, Kobbe, Guido, Schroers, Roland, Krackhardt, Angela, Klein, Stefan, Müller, Lutz P., Schmid, Christoph, Kaun, Stephan, Wieschermann, Ute, Bartscht, Tobias, Meyer, Ralf Georg, Wölfl, Matthias, Bader, Peter, Niederland, Judith, Maucher, Jakob, Mauz-Körholz, Christine, Burkhardt, Birgit, Kentouche, Karim, Passweg, Jakob, Ehlert, Karoline, Arslan, Aysenur, Labuhn, Svenja, Schröder, Thomas, Franke, Georg-Nikolaus, Eder, Matthias, Amann, Elisa Maria, Neuchel, Christine, Schmid-Möglich, Amelie, Schmeller, Sandra, Beyersmann, Jan, Schrezenmeier, Hubert, Mytilineos, Joannis, and Fürst, Daniel

Published
2024
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7. Design aspects of COVID-19 treatment trials: Improving probability and time of favourable events

Author

Beyersmann, Jan, Friede, Tim, and Schmoor, Claudia

Subjects
Statistics - Applications, Statistics - Methodology
Abstract

As a reaction to the pandemic of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), a multitude of clinical trials for the treatment of SARS-CoV-2 or the resulting corona disease (COVID-19) are globally at various stages from planning to completion. Although some attempts were made to standardize study designs, this was hindered by the ferocity of the pandemic and the need to set up trials quickly. We take the view that a successful treatment of COVID-19 patients (i) increases the probability of a recovery or improvement within a certain time interval, say 28 days; (ii) aims to expedite favourable events within this time frame; and (iii) does not increase mortality over this time period. On this background we discuss the choice of endpoint and its analysis. Furthermore, we consider consequences of this choice for other design aspects including sample size and power and provide some guidance on the application of adaptive designs in this particular context.

Published
2020

8. Survival analysis for AdVerse events with VarYing follow-up times (SAVVY) -- comparison of adverse event risks in randomized controlled trials

Author

Rufibach, Kaspar, Stegherr, Regina, Schmoor, Claudia, Jehl, Valentine, Allignol, Arthur, Boeckenhoff, Annette, Dunger-Baldauf, Cornelia, Eisele, Lewin, Künzel, Thomas, Kupas, Katrin, Leverkus, Friedhelm, Trampisch, Matthias, Zhao, Yumin, Friede, Tim, and Beyersmann, Jan

Subjects
Statistics - Applications
Abstract

Analyses of adverse events (AEs) are an important aspect of the evaluation of experimental therapies. The SAVVY (Survival analysis for AdVerse events with Varying follow-up times) project aims to improve the analyses of AE data in clinical trials through the use of survival techniques appropriately dealing with varying follow-up times, censoring, and competing events (CE). In an empirical study including seventeen randomized clinical trials the effect of varying follow-up times, censoring, and competing events on comparisons of two treatment arms with respect to AE risks is investigated. The comparisons of relative risks (RR) of standard probability-based estimators to the gold-standard Aalen-Johansen estimator or hazard-based estimators to an estimated hazard ratio (HR) from Cox regression are done descriptively, with graphical displays, and using a random effects meta-analysis on AE level. The influence of different factors on the size of the bias is investigated in a meta-regression. We find that for both, avoiding bias and categorization of evidence with respect to treatment effect on AE risk into categories, the choice of the estimator is key and more important than features of the underlying data such as percentage of censoring, CEs, amount of follow-up, or value of the gold-standard RR. There is an urgent need to improve the guidelines of reporting AEs so that incidence proportions are finally replaced by the Aalen-Johansen estimator - rather than by Kaplan-Meier - with appropriate definition of CEs. For RRs based on hazards, the HR based on Cox regression has better properties than the ratio of incidence densities.

Published
2020
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9. Survival analysis for AdVerse events with VarYing follow-up times (SAVVY) -- estimation of adverse event risks

Author

Stegherr, Regina, Schmoor, Claudia, Beyersmann, Jan, Rufibach, Kaspar, Jehl, Valentine, Brückner, Andreas, Eisele, Lewin, Künzel, Thomas, Kupas, Katrin, Langer, Frank, Leverkus, Friedhelm, Loos, Anja, Norenberg, Christiane, Voss, Florian, and Friede, Tim

Subjects
Statistics - Applications
Abstract

The SAVVY project aims to improve the analyses of adverse event (AE) data in clinical trials through the use of survival techniques appropriately dealing with varying follow-up times and competing events (CEs). Although statistical methodologies have advanced, in AE analyses often the incidence proportion, the incidence density, or a non-parametric Kaplan-Meier estimator (KME) are used, which either ignore censoring or CEs. In an empirical study including randomized clinical trials from several sponsor organisations, these potential sources of bias are investigated. The main aim is to compare the estimators that are typically used in AE analysis to the Aalen-Johansen estimator (AJE) as the gold-standard. Here, one-sample findings are reported, while a companion paper considers consequences when comparing treatment groups. Estimators are compared with descriptive statistics, graphical displays and with a random effects meta-analysis. The influence of different factors on the size of the bias is investigated in a meta-regression. Comparisons are conducted at the maximum follow-up time and at earlier evaluation time points. CEs definition does not only include death before AE but also end of follow-up for AEs due to events possibly related to the disease course or the treatment. Ten sponsor organisations provided 17 trials including 186 types of AEs. The one minus KME was on average about 1.2-fold larger than the AJE. Leading forces influencing bias were the amount of censoring and of CEs. As a consequence, the average bias using the incidence proportion was less than 5%. Assuming constant hazards using incidence densities was hardly an issue provided that CEs were accounted for. There is a need to improve the guidelines of reporting risks of AEs so that the KME and the incidence proportion are replaced by the AJE with an appropriate definition of CEs.

Published
2020
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10. Estimating state occupation and transition probabilities in non-Markov multi-state models subject to both random left-truncation and right-censoring

Author

Niessl, Alexandra, Allignol, Arthur, Mueller, Carina, and Beyersmann, Jan

Subjects
Statistics - Methodology
Abstract

The Aalen-Johansen estimator generalizes the Kaplan-Meier estimator for independently left-truncated and right-censored survival data to estimating the transition probability matrix of a time-inhomogeneous Markov model with finite state space. Such multi-state models have a wide range of applications for modelling complex courses of a disease over the course of time, but the Markov assumption may often be in doubt. If censoring is entirely unrelated to the multi-state data, it has been noted that the Aalen-Johansen estimator, standardized by the initial empirical distribution of the multi-state model, still consistently estimates the state occupation probabilities. Recently, this result has been extended to transition probabilities using landmarking, which is, inter alia, useful for dynamic prediction. We complement these results in three ways. Firstly, delayed study entry is a common phenomenon in observational studies, and we extend the earlier results to multi-state data also subject to left-truncation. Secondly, we present a rigorous proof of consistency of the Aalen-Johansen estimator for state occupation probabilities, on which also correctness of the landmarking approach hinges, correcting, simplifying and extending the earlier result. Thirdly, our rigorous proof motivates wild bootstrap resampling. Our developments for left-truncation are motivated by a prospective observational study on the occurrence and the impact of a multi-resistant infectious organism in patients undergoing surgery. Both the real data example and simulation studies are presented. Studying wild bootstrap is motivated by the fact that, unlike drawing with replacement from the data, it is desirable to have a technique that works both with non-Markov models subject to random left-truncation and right-censoring and with Markov models where left-truncation and right-censoring need not be entirely random., Comment: 21 pages with 3 figures

Published
2020

11. Estimating and comparing adverse event probabilities in the presence of varying follow-up times and competing events

Author

Stegherr, Regina, Schmoor, Claudia, Lübbert, Michael, Friede, Tim, and Beyersmann, Jan

Subjects
Statistics - Applications
Abstract

Safety analyses in terms of adverse events (AEs) are an important aspect of benefit-risk assessments of therapies. Compared to efficacy analyses AE analyses are often rather simplistic. The probability of an AE of a specific type is typically estimated by the incidence proportion, sometimes the incidence density or the Kaplan-Meier estimator are proposed. But these analyses either do not account for censoring, rely on a too restrictive parametric model, or ignore competing events. With the non-parametric Aalen-Johansen estimator as the gold-standard, these potential sources of bias are investigated in a data example from oncology and in simulations, both in the one-sample and in the two-sample case. As the estimators may have large variances at the end of follow-up, the estimators are not only compared at the maximal event time but also at two quantiles of the observed times. To date, consequences for safety comparisons have hardly been investigated in the literature. The impact of using different estimators for group comparisons is unclear, as, for example, the ratio of two both underestimating or overestimating estimators may or may not be comparable to the ratio of the gold-standard estimator. Therefore, the ratio of the AE probabilities is also calculated based on different approaches. By simulations investigating constant and non-constant hazards, different censoring mechanisms and event frequencies, we show that ignoring competing events is more of a problem than falsely assuming constant hazards by use of the incidence density and that the choice of the AE probability estimator is crucial for group comparisons., Comment: 27 pages, 5 figures

Published
2020
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12. Survival analysis for AdVerse events with VarYing follow-up times (SAVVY): Rationale and statistical concept of a meta-analytic study

Author

Stegherr, Regina, Beyersmann, Jan, Jehl, Valentine, Rufibach, Kaspar, Leverkus, Friedhelm, Schmoor, Claudia, and Friede, Tim

Subjects
Statistics - Applications
Abstract

The assessment of safety is an important aspect of the evaluation of new therapies in clinical trials, with analyses of adverse events being an essential part of this. Standard methods for the analysis of adverse events such as the incidence proportion, i.e. the number of patients with a specific adverse event out of all patients in the treatment groups, do not account for both varying follow-up times and competing risks. Alternative approaches such as the Aalen-Johansen estimator of the cumulative incidence function have been suggested. Theoretical arguments and numerical evaluations support the application of these more advanced methodology, but as yet there is to our knowledge only insufficient empirical evidence whether these methods would lead to different conclusions in safety evaluations. The Survival analysis for AdVerse events with VarYing follow-up times (SAVVY) project strives to close this gap in evidence by conducting a meta-analytical study to assess the impact of the methodology on the conclusion of the safety assessment empirically. Here we present the rationale and statistical concept of the empirical study conducted as part of the SAVVY project. The statistical methods are presented in unified notation and examples of their implementation in R and SAS are provided.

Published
2019
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14. Joint modelling of progression-free and overall survival and computation of correlation measures

Author

Meller, Matthias, Beyersmann, Jan, and Rufibach, Kaspar

Subjects
Statistics - Methodology
Abstract

In this paper, we derive the joint distribution of progression-free and overall survival as a function of transition probabilities in a multistate model. No assumptions on copulae or latent event times are needed and the model is allowed to be non-Markov. From the joint distribution, statistics of interest can then be computed. As an example, we provide closed formulas and statistical inference for Pearson's correlation coefficient between progression-free and overall survival in a parametric framework. The example is inspired by recent approaches to quantify the dependence between progression-free survival, a common primary outcome in phase III trials in oncology, and overall survival. We complement these approaches by providing methods of statistical inference while at the same time working within a much more parsimonious modelling framework. Our approach is completely general and can be applied to other measures of dependence. We also discuss extensions to nonparametric inference. Our analytical results are illustrated using a large randomized clinical trial in breast cancer.

Published
2018

15. On estimands and the analysis of adverse events in the presence of varying follow-up times within the benefit assessment of therapies

Author

Unkel, Steffen, Amiri, Marjan, Benda, Norbert, Beyersmann, Jan, Knoerzer, Dietrich, Kupas, Katrin, Langer, Frank, Leverkus, Friedhelm, Loos, Anja, Ose, Claudia, Proctor, Tanja, Schmoor, Claudia, Schwenke, Carsten, Skipka, Guido, Unnebrink, Kristina, Voss, Florian, and Friede, Tim

Subjects
Statistics - Other Statistics
Abstract

The analysis of adverse events (AEs) is a key component in the assessment of a drug's safety profile. Inappropriate analysis methods may result in misleading conclusions about a therapy's safety and consequently its benefit-risk ratio. The statistical analysis of AEs is complicated by the fact that the follow-up times can vary between the patients included in a clinical trial. This paper takes as its focus the analysis of AE data in the presence of varying follow-up times within the benefit assessment of therapeutic interventions. Instead of approaching this issue directly and solely from an analysis point of view, we first discuss what should be estimated in the context of safety data, leading to the concept of estimands. Although the current discussion on estimands is mainly related to efficacy evaluation, the concept is applicable to safety endpoints as well. Within the framework of estimands, we present statistical methods for analysing AEs with the focus being on the time to the occurrence of the first AE of a specific type. We give recommendations which estimators should be used for the estimands described. Furthermore, we state practical implications of the analysis of AEs in clinical trials and give an overview of examples across different indications. We also provide a review of current practices of health technology assessment (HTA) agencies with respect to the evaluation of safety data. Finally, we describe problems with meta-analyses of AE data and sketch possible solutions.

Published
2018

16. The Wild Bootstrap for Multivariate Nelson-Aalen Estimators

Author

Bluhmki, Tobias, Dobler, Dennis, Beyersmann, Jan, and Pauly, Markus

Subjects
Statistics - Methodology, 62G09, 62G20, 62G15, 62G10
Abstract

We rigorously extend the widely used wild bootstrap resampling technique to the multivariate Nelson-Aalen estimator under Aalen's multiplicative intensity model. Aalen's model covers general Markovian multistate models including competing risks subject to independent left-truncation and right-censoring. This leads to various statistical applications such as asymptotically valid confidence bands or tests for equivalence and proportional hazards. This is exemplified in a data analysis examining the impact of ventilation on the duration of intensive care unit stay. The finite sample properties of the new procedures are investigated in a simulation study., Comment: Tobias Bluhmki and Dennis Dobler are authors with equal contribution, 3 figures, 3 tables

Published
2016

17. Non-strange Weird Resampling for Complex Survival Data

Author

Dobler, Dennis, Beyersmann, Jan, and Pauly, Markus

Subjects
Mathematics - Statistics Theory, 62N03, 62N01
Abstract

This paper introduces the new data-dependent multiplier bootstrap for non-parametric analysis of survival data, possibly subject to competing risks. The new resampling procedure includes both the general wild bootstrap and the weird bootstrap as special cases. The data may be subject to independent right-censoring and left-truncation. We rigorously prove asymptotic correctness which has in particular been pending for the weird bootstrap. As a consequence, pointwise as well as time-simultaneous inference procedures for, amongst others, the classical survival setting are deduced. We report simulation results and a real data analysis of the cumulative cardiovascular event probability. The simulation results suggest that both the weird bootstrap and use of non-standard multipliers in the wild bootstrap may perform preferably., Comment: 16 pages, 2 figures

Published
2015

20. A competing risks approach for nonparametric estimation of transition probabilities in a non-Markov illness-death model

Author

Allignol, Arthur, Beyersmann, Jan, Gerds, Thomas, and Latouche, Aurélien

Subjects
Statistics - Methodology, Statistics - Applications
Abstract

Competing risks model time to first event and type of first event. An example from hospital epidemiology is the incidence of hospital-acquired infection, which has to account for hospital discharge of non-infected patients as a competing risk. An illness-death model would allow to further study hospital outcomes of infected patients. Such a model typically relies on a Markov assumption. However, it is conceivable that the future course of an infected patient does not only depend on the time since hospital admission and current infection status but also on the time since infection. We demonstrate how a modified competing risks model can be used for nonparametric estimation of transition probabilities when the Markov assumption is violated.

Published
2013

23. Evolution of disability in spinocerebellar ataxias type 1, 2, 3, and 6

Author

Jacobi, Heike, Schaprian, Tamara, Beyersmann, Jan, Tezenas du Montcel, Sophie, Schmid, Matthias, Klockgether, Thomas, EUROSCA, Groups, RISCA Study, Heidelberg University Hospital [Heidelberg], Dendrite Differenciation Group [DZNE - Bonn], German Research Center for Neurodegenerative Diseases - Deutsches Zentrum für Neurodegenerative Erkrankungen (DZNE), Institute of Communications Engineering [Ulm] (INT - University of Ulm.), Universität Ulm - Ulm University [Ulm, Allemagne], Sorbonne Université (SU), Algorithms, models and methods for images and signals of the human brain (ARAMIS), Sorbonne Université (SU)-Inria de Paris, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria)-Institut du Cerveau = Paris Brain Institute (ICM), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Sorbonne Université (SU)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), University of Bonn, Tezenas du Montcel, Sophie, and Universität Bonn = University of Bonn

Subjects
General Neuroscience, Disease Progression, Humans, Spinocerebellar Ataxias, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Female, [SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], ddc:610, genetics [Spinocerebellar Ataxias], Neurology (clinical)
Abstract

International audience; Objective: The aim was to study the evolution of disability in spinocerebellar ataxias (SCAs) type 1, 2, 3, and 6 (SCA1, 2, 3, 6). Methods: We analyzed data of two longitudinal cohorts (RISCA, EUROSCA) which recruited ataxic and non-ataxic SCA1, SCA2, SCA3, and SCA6 mutation carriers. To study disability, we used a five-stage system for ataxia defined by walking ability (stages 0-3) and death (stage 4). Transitions were analyzed using a multi-state model with proportional transition hazards. Based on the hazard estimates, transition probabilities and the expected lengths of stay in each stage were calculated. We further studied the effect of sex and CAG repeat length on progression. Results: Data of 3138 visits in 677 participants were analyzed. Median SARA scores for SCA1, SCA2, SCA3, and SCA6 ranged from 1.5 (interquartile range [IQR] = 0.0-3.5) to 3.5 (IQR = 1.4-6.1) in stage 0, 11.5 (IQR = 9.6-14.0) to 13.8 (IQR = 11.0-16.0) in stage 1, 19.0 (IQR = 17.0-21.0) to 23.8 (IQR = 19.5-27.0) in stage 2, and 28.5 (IQR = 26.0-32.5) to 34.0 (IQR = 32.6-37.1) in stage 3. Modeling allowed to calculate the subtype-specific probability to be in a certain stage at a given age and duration of each stage. CAG repeat length was associated with faster progression in SCA1 (HR, 95% CI: 1.1, 1.1-1.2), SCA2 (1.2, 1.1-1.3), and SCA3 (1.1, 1.0-1.2). In SCA6, female sex was associated with faster progression (1.7, 1.1-2.6). Interpretation: Our data are important for counselling of patients, assessment of the relevance of outcome markers, and design of clinical trials.

Published
2022

27. Long‐Term Mortality of Patients With Osteoarthritis After Joint Replacement: Prognostic Value of Preoperative and Postoperative Pain and Function.

Author

Klimek, Matthias, Büchele, Gisela, Rehm, Martin, Beyersmann, Jan, Günther, Klaus‐Peter, Brenner, Hermann, Stürmer, Til, Brenner, Rolf E., and Rothenbacher, Dietrich

Subjects
ARTHROPLASTY, PROGNOSIS, POSTOPERATIVE pain, TOTAL hip replacement, TOTAL knee replacement
Abstract

Objective: To investigate whether osteoarthritis (OA)‐specific assessment values (i.e., Western Ontario and McMaster Universities Osteoarthritis Index [WOMAC]) and generic pain and function (visual analog scale, Hanover Functionality Status Questionnaire) measured before and 12 months after arthroplasty are associated with the risk of long‐term mortality in a cohort of patients with advanced OA of the hip or knee. Methods: The Ulm Osteoarthritis Study was a prospective cohort study of OA patients with unilateral total hip or knee replacement between January 1995 and December 1996. Correlation coefficients were calculated to describe the agreement between the different assessments. Mortality was assessed during the follow‐up period (last update July 2019). Cox proportional regression models were used to estimate hazard ratios (HRs) for mortality after adjusting for covariates. Results: Arthroplasty was accompanied by a clear reduction in pain and improved function throughout all assessments in the 706 included patients. The results of the adjusted Cox models showed no relationship between baseline and follow‐up joint‐specific WOMAC assessments and long‐term mortality. However, an independent increased risk of mortality was found with generic function assessments. In the final adjusted model, the HR for the 12‐month follow‐up value was 1.79 (95% confidence interval 1.24–2.60) in the group with clinically relevant impairment versus the reference group. Conclusion: Poor function based on the generic assessment was associated with increased long‐term mortality, suggesting that functional impairments in daily life activities may be more important for long‐term survival than OA‐specific impairments in this patient group. [ABSTRACT FROM AUTHOR]

Published
2023
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38. Operating Characteristics of Surrogate Endpoint Methods for Normally Distributed Data

Author

Beyersmann, Jan, Ittrich, Carina, and Kunz, Cornelia Ursula

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

The choice of endpoints is important for clinical trials. Due to the development of more and more effective drugs patients live longer, which often results in longer follow-up times until the clinical endpoint can be measured. In order to shorten studies as well as reduce costs and sample sizes we often[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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39. Connecting mono and combination dose finding via joint modelling - Theoretical aspects, simulation results and real life

Author

Fleischer, Frank, Fischer, Daniela, Beyersmann, Jan, and Schroeter, Lukas

Subjects
ddc: 610, Bayesian borrowing, dose finding, oncology, 610 Medical sciences, Medicine, simulation, BLRM
Abstract

Within the area of oncology dose-finding several model-based methods for the determination of the maximum tolerated dose (MTD) have been developed. A prominent and widely used approach implements a Bayesian logistic regression model based on the patient-level information of dose-limiting toxicities.[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

40. Sampling designs for rare time-dependent exposures: a comparison of the nested exposure case-control design and exposure density sampling

Author

Feifel, Jan, Cube, Maja von, Ohneberg, Kristin, Ershova, ‪Ksenia‬, Wolkewitz, Martin, Beyersmann, Jan, and Schumacher, Markus

Subjects
Competitive analysis, Stichprobe, Case-control method, Sampling (Statistics)
Abstract

In extensive cohort studies, the ascertainment of covariate information on all individuals can be challenging. In hospital epidemiology, an additional issue is often the time-dependency of the exposure of interest. We revisit and compare two sampling designs constructed for rare time-dependent exposures and possibly common outcomes ��� the nested exposure casecontrol design and exposure density sampling. Both designs enable efficient hazard ratio estimation by sampling all exposed individuals but only a small fraction of the unexposed ones. Moreover, they account for time-dependent exposure to avoid immortal time bias. We evaluate and compare their performance using data of patients hospitalised in the neuro-intensive care unit at the Burdenko Neurosurgery Institute in Moscow, Russia. Three different types of hospital-acquired infections with different prevalence are considered. Additionally, inflation factors, a primary performance measure, are discussed. We enhance both designs to allow for a competitive analysis of combined and competing endpoints compared to the full cohort approach while substantially reducing the amount of necessary information. Nonetheless, exposure density sampling outperforms the nested exposure case-control design concerning efficiency and accuracy in most considered settings., publishedVersion

Published
2021
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41. Assessment of assumptions of statistical analysis methods in randomised clinical trials:The what and how

Author

Nørskov, Anders Kehlet, Lange, Theis, Nielsen, Emil Eik, Gluud, Christian, Winkel, Per, Beyersmann, Jan, De Uña-Álvarez, Jacobo, Torri, Valter, Billot, Laurent, Putter, Hein, Wetterslev, Jørn, Thabane, Lehana, Jakobsen, Janus Christian, Nørskov, Anders Kehlet, Lange, Theis, Nielsen, Emil Eik, Gluud, Christian, Winkel, Per, Beyersmann, Jan, De Uña-Álvarez, Jacobo, Torri, Valter, Billot, Laurent, Putter, Hein, Wetterslev, Jørn, Thabane, Lehana, and Jakobsen, Janus Christian

Abstract

When analysing and presenting results ofrandomised clinical trials, trialists rarely report if or how underlying statisticalassumptions were validated. To avoid data-driven biased trial results, it should be common practice to prospectively describe the assessments of underlying assumptions. In existing literature, there is no consensus onhow trialists should assess and report underlying assumptions for the analysesof randomised clinical trials. With this study, we developed suggestions on howto test and validate underlying assumptions behind logistic regression, linearregression, and Cox regression when analysing results of randomised clinicaltrials. Two investigators compiled an initial draft based on a review of the literature. Experienced statisticians and trialists from eight different research centres and trial units then participated in a anonymised consensus process, where we reached agreement on the suggestions presented in this paper. This paper provides detailed suggestions on 1) whichunderlying statistical assumptions behind logistic regression, multiple linear regression and Cox regressioneach should be assessed; 2) how these underlying assumptions may be assessed;and 3) what to do if these assumptions are violated. We believe that the validity of randomised clinical trial results will increase if our recommendations for assessing and dealing with violations of the underlying statistical assumptions are followed.

Published
2021

49. Assessing assumptions for statistical analyses in randomised clinical trials

Author

Nielsen, Emil Eik, Nørskov, Anders Kehlet, Lange, Theis, Thabane, Lehana, Wetterslev, Jørn, Beyersmann, Jan, De Unã-Álvarez, Jacobo, Torri, Valter, Billot, Laurent, Putter, Hein, Winkel, Per, Gluud, Christian, Jakobsen, Janus Christian, Nielsen, Emil Eik, Nørskov, Anders Kehlet, Lange, Theis, Thabane, Lehana, Wetterslev, Jørn, Beyersmann, Jan, De Unã-Álvarez, Jacobo, Torri, Valter, Billot, Laurent, Putter, Hein, Winkel, Per, Gluud, Christian, and Jakobsen, Janus Christian

Abstract

In order to ensure the validity of results of randomised clinical trials and under some circumstances to optimise statistical power, most statistical methods require validation of underlying statistical assumptions. The present paper describes how trialists in major medical journals report tests of underlying statistical assumptions when analysing results of randomised clinical trials. We also consider possible solutions how to improve current practice by adequate reporting of tests of underlying statistical assumptions. We conclude that there is a need to reach consensus on which underlying assumptions should be assessed, how these underlying assumptions should be assessed and what should be done if the underlying assumptions are violated.

Published
2019

50. Estimands to quantify prolonged hospital stay associated with nosocomial infections

Author

Wolkewitz, Martin, Schumacher, Martin, Rücker, Gerta, Harbarth, Stéphan Juergen, and Beyersmann, Jan

Subjects
lcsh:R5-920, Cross Infection, Intensive Care Units, Hospital-acquired infections, Sojourn time, Germany, Humans, Multi-state model, Length of Stay, lcsh:Medicine (General), Length of hospital stay, Research Article
Abstract

Background Length of stay evaluations are very common to determine the burden of nosocomial infections. However, there exist fundamentally different methods to quantify the prolonged length of stay associated with nosocomial infections. Previous methodological studies emphasized the need to account for the timing of infection in order to differentiate the length of stay before and after the infection. Methods We derive four different approaches in a simple multi-state framework, display their mathematical relationships in a multiplicative as well as additive way and apply them to a real cohort study (n=756 German intensive-care unit patients of whom 124 patients acquired a nosocomial infection). Results The first approach ignores the timing of infection and quantifies the difference of eventually infected and eventually uninfected; it is 12.31 days in the real data. The second approach compares the average sojourn time with infection with the average sojourn time of being hypothetically uninfected; it is 2.12 days. The third one compares the average length of stay of a population in a world with nosocomial infections with a population in a hypothetical world without nosocomial infections; it is 0.35 days. Finally, approach four compares the mean residual length of stay between currently infected and uninfected patients on a daily basis; the difference is 1.77 days per infected patient. Conclusions The first approach should be avoided because it compares the eventually infected with the eventually uninfected, but has no prospective interpretation. The other approaches differ in their interpretation but are suitable because they explicitly distinguish between the pre- and post-time of the nosocomial infection.

Published
2018

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