Multi-State Survival Models for Interval-Censored Data

Name: Multi-State Survival Models for Interval-Censored Data
Brand: Taylor & Francis Inc
SKU: 9781466568402
Price: 109.99 EUR
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Ardo van den Hout

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A01=Ardo van den Hout

Ab Ilit

approximation

Author_Ardo van den Hout

baseline

Baseline Hazard

Category=JHBC

Category=PBT

constant

dead

Dead State

dementia progression research

den

Eigenvalue Decomposition

epidemiological modeling

eq_bestseller

eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_society-politics

Fixed Effects Model

Frailty Model

Frailty Term

Gauss Hermite Quadrature

Gompertz Model

hazards

hout

Interval Censoring

interval-censored survival modeling applications

Kernel Density Estimation

Left Truncation

Living States

longitudinal data analysis

Markov chain analysis

medical statistics

Model Ii

Multi-state Model

Multi-state Process

piecewise

Piecewise Constant Approximation

Piecewise Constant Hazard

Posterior Probabilities

process

Scoring Algorithm

Silverman's Rule

Silverman’s Rule

stochastic processes

Survival Model

Transition Probabilities

Transition Probability Matrix

van

Weibull Model

Product details

ISBN 9781466568402
Weight: 476g
Dimensions: 156 x 234mm
Publication Date: 02 Dec 2016
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback

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Multi-State Survival Models for Interval-Censored Data introduces methods to describe stochastic processes that consist of transitions between states over time. It is targeted at researchers in medical statistics, epidemiology, demography, and social statistics. One of the applications in the book is a three-state process for dementia and survival in the older population. This process is described by an illness-death model with a dementia-free state, a dementia state, and a dead state. Statistical modelling of a multi-state process can investigate potential associations between the risk of moving to the next state and variables such as age, gender, or education. A model can also be used to predict the multi-state process.

The methods are for longitudinal data subject to interval censoring. Depending on the definition of a state, it is possible that the time of the transition into a state is not observed exactly. However, when longitudinal data are available the transition time may be known to lie in the time interval defined by two successive observations. Such an interval-censored observation scheme can be taken into account in the statistical inference.

Multi-state modelling is an elegant combination of statistical inference and the theory of stochastic processes. Multi-State Survival Models for Interval-Censored Data shows that the statistical modelling is versatile and allows for a wide range of applications.

Ardo van den Hout

Multi-State Survival Models for Interval-Censored Data

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