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Dynamic prediction: A challenge for biostatisticians, but greatly needed by patients, physicians and the public
Author(s) -
Schumacher Martin,
Hieke Stefanie,
Ihorst Gabriele,
Engelhardt Monika
Publication year - 2020
Publication title -
biometrical journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.108
H-Index - 63
eISSN - 1521-4036
pISSN - 0323-3847
DOI - 10.1002/bimj.201800248
Subject(s) - event (particle physics) , relevance (law) , hazard , conditional probability , disease , econometrics , function (biology) , cohort , statistics , medicine , computer science , actuarial science , mathematics , economics , chemistry , physics , organic chemistry , quantum mechanics , political science , law , evolutionary biology , biology
Abstract Prognosis is usually expressed in terms of the probability that a patient will or will not have experienced an event of interest t years after diagnosis of a disease. This quantity, however, is of little informative value for a patient who is still event‐free after a number of years. Such a patient would be much more interested in the conditional probability of being event‐free in the upcoming t years, given that he/she did not experience the event in the s years after diagnosis, called “conditional survival.” It is the simplest form of a dynamic prediction and can be dealt with using straightforward extensions of standard time‐to‐event analyses in clinical cohort studies. For a healthy individual, a related problem with further complications is the so‐called “age‐conditional probability of developing cancer” in the next t years. Here, the competing risk of dying from other diseases has to be taken into account. For both situations, the hazard function provides the central dynamic concept, which can be further extended in a natural way to build dynamic prediction models that incorporate both baseline and time‐dependent characteristics. Such models are able to exploit the most current information accumulating over time in order to accurately predict the further course or development of a disease. In this article, the biostatistical challenges as well as the relevance and importance of dynamic prediction are illustrated using studies of multiple myeloma, a hematologic malignancy with a formerly rather poor prognosis which has improved over the last few years.

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