Competing Risks – A Practical Perspective

Pintilie Melania
Annet format / 2007 / Engelsk

Produktdetaljer

ISBN
9780470870709
Publisert
2007-05-11
Utgiver
Vendor
Wiley-Blackwell
Vekt
468 gr
Høyde
238 mm
Bredde
186 mm
Dybde
18 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Annet format
Antall sider
240

Forfatter
Pintilie Melania

Biographical note

The term 'competing risks' refers to the situation when more than one type of failure can occur, and the observation of one type of failure hinders the observation of another. The need to understand, interpret and analyse competing risk data is key to the development of numerous areas of science. There are many research examples in which a specific type of failure is of interest, but practical issues make it extremely difficult to observe the time to the event of interest. Analyzing time to failure data in the presence of competing risks requires special statistical tools. Competing Risks adopts a practical approach, with exercises and detailed examples throughout, using real data from cancer research. * Provides a comprehensive overview of the interpretation and analysis of competing risks.* Covers the main stages of a statistical analysis: planning and sample size calculation, analysis and interpretation.* Compares and contrasts both methods for analysing competing risks: cause specific hazard and hazard of subdistribution.* Presents the software available to perform the analysis in R, and includes macros for analysis in SAS.* Supplemented by a website featuring data sets, software and further material. Competing Risks provides a practical guide to the area. The book is ideal for statisticians working in medical research, the pharmaceutical industry or public health. It will also prove invaluable for graduate students in applied statistics and biostatistics, as well as researchers in the medical field. The examples are chosen from the medical field, however the methodology can be extended to any other research area where competing risks appear, such as sociology, economics and engineering.

Competing Risks – A Practical Perspective

Pintilie Melania
Annet format / 2007 / Engelsk
Pintilie Melania
Annet format / 2007 / Engelsk
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The need to understand, interpret and analyse competing risk data is key to many areas of science, particularly medical research. There is a real need for a book that presents an overview of methodology used in the interpretation and analysis of competing risks, with a focus on practical applications to medical problems, and incorporating modern techniques. This book fills that need by presenting the most up-to-date methodology, in a way that can be readily understood, and applied, by the practitioner.
Les mer
The need to understand, interpret and analyse competing risk data is key to many areas of science, particularly medical research.
Preface. Acknowledgements. 1. Introduction. 1.1 Historical notes. 1.2 Defining competing risks. 1.3 Use of the Kaplan-Meier method in the presence of competing risks. 1.4 Testing in the competing risk framework. 1.5 Sample size calculation. 1.6 Examples. 1.6.1 Tamoxifen trial. 1.6.2 Hypoxia study. 1.6.3 Follicular cell lymphoma study. 1.6.4 Bone marrow transplant study. 1.6.5 Hodgkin's disease study. 2. Survival - basic concepts. 2.1 Introduction. 2.2 Definitions and background formulae. 2.2.1 Introduction. 2.2.2 Basic mathematical formulae. 2.2.3 Common parametric distributions. 2.2.4 Censoring and assumptions. 2.3 Estimation and hypothesis testing. 2.3.1 Estimating the hazard and survivor functions. 2.3.2 Nonparametric testing: log-rank and Wilcoxon tests. 2.3.3 Proportional hazards model. 2.4 Software for survival analysis. 2.5 Closing remarks. 3. Competing risks - definitions. 3.1 Recognizing competing risks. 3.1.1 Practical approaches. 3.1.2 Common endpoints in medical research. 3.2 Two mathematical definitions. 3.2.1 Competing risks as bivariate random variable. 3.2.2 Competing risks as latent failure times. 3.3 Fundamental concepts. 3.3.1 Competing risks as bivariate random variable. 3.3.2 Competing risks as latent failure times. 3.3.3 Discussion of the two approaches. 3.4 Closing remarks. 4. Descriptive methods for competing risks data. 4.1 Product-limit estimator and competing risks. 4.2 Cumulative incidence function. 4.2.1 Heuristic estimation of the CIF. 4.2.2 Nonparametric maximum likelihood estimation of the CIF. 4.2.3 Calculating the CIF estimator. 4.2.4 Variance and confidence interval for the CIF estimator. 4.3 Software and examples. 4.3.1 Using R. 4.3.2 Using SAS. 4.4 Closing remarks. 5. Testing a covariate. 5.1 Introduction. 5.2 Testing a covariate. 5.2.1 Gray's method. 5.2.2 Pepe and Mori's method. 5.3 Software and examples. 5.3.1 Using R. 5.3.2 Using SAS. 5.4 Closing remarks. 6. Modelling in the presence of competing risks. 6.1 Introduction. 6.2 Modelling the hazard of the cumulative incidence function. 6.2.1 Theoretical details. 6.2.2 Model-based estimation of the CIF. 6.2.3 Using R. 6.3 Cox model and competing risks. 6.4 Checking the model assumptions. 6.4.1 Proportionality of the cause-specific hazards. 6.4.2 Proportionality of the hazards of the CIF. 6.4.3 Linearity assumption. 6.5 Closing remarks. 7. Calculating the power in the presence of competing risks. 7.1 Introduction. 7.2 Sample size calculation when competing risks are not present. 7.3 Calculating power in the presence of competing risks. 7.3.1 General formulae. 7.3.2 Comparing cause-specific hazards. 7.3.3 Comparing hazards of the subdistributions. 7.3.4 Probability of event when the exponential distribution is not a valid assumption. 7.4 Examples. 7.4.1 Introduction. 7.4.2 Comparing the cause-specific hazard. 7.4.3 Comparing the hazard of the subdistribution. 7.5 Closing remarks. 8. Other issues in competing risks. 8.1 Conditional probability function. 8.1.1 Introduction. 8.1.2 Nonparametric estimation of the CP function. 8.1.3 Variance of the CP function estimator. 8.1.4 Testing a covariate. 8.1.5 Using R. 8.1.6 Using SAS. 8.2 Comparing two types of risk in the same population. 8.2.1 Theoretical background. 8.2.2 Using R. 8.2.3 Discussion. 8.3 Identifiability and testing independence. 8.4 Parametric modelling. 8.4.1 Introduction. 8.4.2 Modelling the marginal distribution. 8.4.3 Modelling the Weibull distribution. 9. Food for thought. Problem 1: Estimation of the probability of the event of interest. Problem 2: Testing a covariate. Problem 3: Comparing the event of interest between two groups when the competing risks are different for each group. Problem 4: Information needed for sample size calculations. Problem 5: The effect of the size of the incidence of competing risks on the coefficient obtained in the model. Problem 6: The KLY test and the non-proportionality of hazards. Problem 7: The KLY and Wilcoxon tests. A: Theoretical background. B: Analysing competing risks data using R and SAS. References. Index.
Les mer
"Will help statisticians and researchers understand the complexity of the competing-risks problem and to complete the analysis. I am glad to have it on my shelf." (Technometrics, August 2008) "...a concise introduction to the field of competing risks in survival analysis, especially useful for practitioners and researchers in the biostatistics field." (Zentralblatt MATH, 2007)
Les mer

Relaterte produkter

The need to understand, interpret and analyse competing risk data is key to many areas of science, particularly medical research. There is a real need for a book that presents an overview of methodology used in the interpretation and analysis of competing risks, with a focus on practical applications to medical problems, and incorporating modern techniques. This book fills that need by presenting the most up-to-date methodology, in a way that can be readily understood, and applied, by the practitioner.
Les mer
The need to understand, interpret and analyse competing risk data is key to many areas of science, particularly medical research.
Preface. Acknowledgements. 1. Introduction. 1.1 Historical notes. 1.2 Defining competing risks. 1.3 Use of the Kaplan-Meier method in the presence of competing risks. 1.4 Testing in the competing risk framework. 1.5 Sample size calculation. 1.6 Examples. 1.6.1 Tamoxifen trial. 1.6.2 Hypoxia study. 1.6.3 Follicular cell lymphoma study. 1.6.4 Bone marrow transplant study. 1.6.5 Hodgkin's disease study. 2. Survival - basic concepts. 2.1 Introduction. 2.2 Definitions and background formulae. 2.2.1 Introduction. 2.2.2 Basic mathematical formulae. 2.2.3 Common parametric distributions. 2.2.4 Censoring and assumptions. 2.3 Estimation and hypothesis testing. 2.3.1 Estimating the hazard and survivor functions. 2.3.2 Nonparametric testing: log-rank and Wilcoxon tests. 2.3.3 Proportional hazards model. 2.4 Software for survival analysis. 2.5 Closing remarks. 3. Competing risks - definitions. 3.1 Recognizing competing risks. 3.1.1 Practical approaches. 3.1.2 Common endpoints in medical research. 3.2 Two mathematical definitions. 3.2.1 Competing risks as bivariate random variable. 3.2.2 Competing risks as latent failure times. 3.3 Fundamental concepts. 3.3.1 Competing risks as bivariate random variable. 3.3.2 Competing risks as latent failure times. 3.3.3 Discussion of the two approaches. 3.4 Closing remarks. 4. Descriptive methods for competing risks data. 4.1 Product-limit estimator and competing risks. 4.2 Cumulative incidence function. 4.2.1 Heuristic estimation of the CIF. 4.2.2 Nonparametric maximum likelihood estimation of the CIF. 4.2.3 Calculating the CIF estimator. 4.2.4 Variance and confidence interval for the CIF estimator. 4.3 Software and examples. 4.3.1 Using R. 4.3.2 Using SAS. 4.4 Closing remarks. 5. Testing a covariate. 5.1 Introduction. 5.2 Testing a covariate. 5.2.1 Gray's method. 5.2.2 Pepe and Mori's method. 5.3 Software and examples. 5.3.1 Using R. 5.3.2 Using SAS. 5.4 Closing remarks. 6. Modelling in the presence of competing risks. 6.1 Introduction. 6.2 Modelling the hazard of the cumulative incidence function. 6.2.1 Theoretical details. 6.2.2 Model-based estimation of the CIF. 6.2.3 Using R. 6.3 Cox model and competing risks. 6.4 Checking the model assumptions. 6.4.1 Proportionality of the cause-specific hazards. 6.4.2 Proportionality of the hazards of the CIF. 6.4.3 Linearity assumption. 6.5 Closing remarks. 7. Calculating the power in the presence of competing risks. 7.1 Introduction. 7.2 Sample size calculation when competing risks are not present. 7.3 Calculating power in the presence of competing risks. 7.3.1 General formulae. 7.3.2 Comparing cause-specific hazards. 7.3.3 Comparing hazards of the subdistributions. 7.3.4 Probability of event when the exponential distribution is not a valid assumption. 7.4 Examples. 7.4.1 Introduction. 7.4.2 Comparing the cause-specific hazard. 7.4.3 Comparing the hazard of the subdistribution. 7.5 Closing remarks. 8. Other issues in competing risks. 8.1 Conditional probability function. 8.1.1 Introduction. 8.1.2 Nonparametric estimation of the CP function. 8.1.3 Variance of the CP function estimator. 8.1.4 Testing a covariate. 8.1.5 Using R. 8.1.6 Using SAS. 8.2 Comparing two types of risk in the same population. 8.2.1 Theoretical background. 8.2.2 Using R. 8.2.3 Discussion. 8.3 Identifiability and testing independence. 8.4 Parametric modelling. 8.4.1 Introduction. 8.4.2 Modelling the marginal distribution. 8.4.3 Modelling the Weibull distribution. 9. Food for thought. Problem 1: Estimation of the probability of the event of interest. Problem 2: Testing a covariate. Problem 3: Comparing the event of interest between two groups when the competing risks are different for each group. Problem 4: Information needed for sample size calculations. Problem 5: The effect of the size of the incidence of competing risks on the coefficient obtained in the model. Problem 6: The KLY test and the non-proportionality of hazards. Problem 7: The KLY and Wilcoxon tests. A: Theoretical background. B: Analysing competing risks data using R and SAS. References. Index.
Les mer
"Will help statisticians and researchers understand the complexity of the competing-risks problem and to complete the analysis. I am glad to have it on my shelf." (Technometrics, August 2008) "...a concise introduction to the field of competing risks in survival analysis, especially useful for practitioners and researchers in the biostatistics field." (Zentralblatt MATH, 2007)
Les mer

Produktdetaljer

ISBN
9780470870709
Publisert
2007-05-11
Utgiver
Vendor
Wiley-Blackwell
Vekt
468 gr
Høyde
238 mm
Bredde
186 mm
Dybde
18 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Annet format
Antall sider
240

Forfatter
Pintilie Melania

Biographical note

The term 'competing risks' refers to the situation when more than one type of failure can occur, and the observation of one type of failure hinders the observation of another. The need to understand, interpret and analyse competing risk data is key to the development of numerous areas of science. There are many research examples in which a specific type of failure is of interest, but practical issues make it extremely difficult to observe the time to the event of interest. Analyzing time to failure data in the presence of competing risks requires special statistical tools. Competing Risks adopts a practical approach, with exercises and detailed examples throughout, using real data from cancer research. * Provides a comprehensive overview of the interpretation and analysis of competing risks.* Covers the main stages of a statistical analysis: planning and sample size calculation, analysis and interpretation.* Compares and contrasts both methods for analysing competing risks: cause specific hazard and hazard of subdistribution.* Presents the software available to perform the analysis in R, and includes macros for analysis in SAS.* Supplemented by a website featuring data sets, software and further material. Competing Risks provides a practical guide to the area. The book is ideal for statisticians working in medical research, the pharmaceutical industry or public health. It will also prove invaluable for graduate students in applied statistics and biostatistics, as well as researchers in the medical field. The examples are chosen from the medical field, however the methodology can be extended to any other research area where competing risks appear, such as sociology, economics and engineering.

Relaterte produkter