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The Statistical Analysis of Doubly Truncated Data. Prof Carla Moreira
Читать онлайн.Название The Statistical Analysis of Doubly Truncated Data
Год выпуска 0
isbn 9781119500476
Автор произведения Prof Carla Moreira
Жанр Медицина
Издательство John Wiley & Sons Limited
Time‐to‐event data are relevant in fields like Survival Analysis and Reliability Engineering, in which random truncation often occurs. Random truncation is found in Astronomy too, where
represents the luminosity of an stellar object that is subject to observation limits. Examples from these areas will be introduced and analysed throughout this book.
1.2 One‐sided Truncation
1.2.1 Left‐truncation
Left‐truncation is a common feature when sampling time‐to‐event data. A left‐truncation time for the target
is defined as a random variable such that is observed only when , determining the random set in the previous section.Left‐truncation occurs, for example, with cross‐sectional sampling, where the sampled individuals are those being between the origin and the end point at a certain calendar time, which is the cross‐section date (Wang, 1991). That is, the observer arrives at the process at a given date, being allowed to observe the time‐to‐event
and the left‐truncation time for the individuals 'in progress' by that date. With cross‐sectional sampling, the variable is simply defined as the time from onset to the cross‐section date. This sampling procedure is often applied because it entails relatively little effort to reach a pre‐specified sampling size. In medical research, such a design leads to the sampling of the so‐called prevalent cases: patients already diagnosed from a certain disease of interest who survived beyond the cross‐section date. Clearly, such a sampling design implies an observational bias, in the sense that individuals with longer survival (the value) will be observed with a relatively large probability. There exist well investigated proposals to overcome such a bias, based on the simple idea of taking the observed left‐truncation times into account to define suitable risk sets. For this purpose, independence between and has been traditionally assumed. This independence assumption states that the time‐to‐event distribution remains unchanged along time, being unrelated to the date of onset. A classical example of left‐truncation are the Channing House data, where the age at death is measured for people living in that retirement centre; in this case, the target variable is left‐truncated by the age when entering the residence (Klein and Moeschberger, 2003).Another feature leading to left‐truncation is the delayed entry into study. This happens when the individuals enter the study only at some random time
after onset. For example, diagnosis of a certain disease may not be ascertained until the first visit to the hospital. If the 'end‐of‐disease' event occurs before the potential date of visit, the time‐to‐event of such a patient will be never known, with the resulting difficulty in observing relatively small event times. Beyersmann et al. (2012) provide an illustrative example of this issue in the investigation of abortion times.1.2.2 Right‐truncation
In some particular settings, the target variable of ultimate interest
is observed only for the individuals who experience the event before a certain calendar time . A typical example of such a situation is the investigation of the incubation (or induction) times for AIDS; see for example Klein and Moeschberger (2003). The incubation time is defined as the time elapsed between the date of HIV infection, say, and the development of AIDS. If stands for the incubation time and , then the incubation times of individuals developing AIDS prior follow the distribution of conditionally on . Here, is called the right‐truncation time. An immediate effect of right‐truncation is that large values of are sampled with a relatively small probability.1.2.3 Truncation vs. Censoring
At this point, the reader may be curious about the difference between truncation and censoring. Right‐censoring is a very well known phenomenon in Survival Analysis and reliability studies, among other fields. It happens when the follow‐up of a given individual stops before the event of interest has taken place. In such a case, the observer only knows that the target variable is larger than the registered value, which is referred to as censoring time. A sample made up of real and censored values is typically analysed by the