کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
4499106 | 1319014 | 2007 | 11 صفحه PDF | دانلود رایگان |
![عکس صفحه اول مقاله: Modeling human mortality using mixtures of bathtub shaped failure distributions Modeling human mortality using mixtures of bathtub shaped failure distributions](/preview/png/4499106.png)
Aging and mortality is usually modeled by the Gompertz–Makeham distribution, where the mortality rate accelerates with age in adult humans. The resulting parameters are interpreted as the frailty and decrease in vitality with age. This fits well to life data from ‘westernized’ societies, where the data are accurate, of high resolution, and show the effects of high quality post-natal care. We show, however, that when the data are of lower resolution, and contain considerable structure in the infant mortality, the fit can be poor. Moreover, the Gompertz–Makeham distribution is consistent with neither the force of natural selection, nor the recently identified ‘late life mortality deceleration’. Although actuarial models such as the Heligman–Pollard distribution can, in theory, achieve an improved fit, the lack of a closed form for the survival function makes fitting extremely arduous, and the biological interpretation can be lacking. We show, that a mixture, assigning mortality to exogenous or endogenous causes, using the reduced additive and flexible Weibull distributions, models well human mortality over the entire life span. The components of the mixture are asymptotically consistent with the reliability and biological theories of aging. The relative simplicity of the mixture distribution makes feasible a technique where the curvature functions of the corresponding survival and hazard rate functions are used to identify the beginning and the end of various life phases, such as infant mortality, the end of the force of natural selection, and late life mortality deceleration. We illustrate our results with a comparative analysis of Canadian and Indonesian mortality data.
Journal: Journal of Theoretical Biology - Volume 245, Issue 3, 7 April 2007, Pages 528–538