Trajectories of physiological dysregulation predicts mortality and health outcomes in a consistent manner across three populations

Publication date: Available online 20 October 2014 Source:Mechanisms of Ageing and Development Author(s): Emmanuel Milot , V. Morissette-Thomas , Qing Li , Linda P. Fried , Luigi Ferrucci , Alan A. Cohen Mechanistic and evolutionary perspectives both agree that aging involves multiple integrated biochemical networks in the organism. In particular, the homeostatic physiological dysregulation (PD) hypothesis contends that aging is caused by the progressive breakdown of key regulatory processes. However, nothing is yet known about the specifics of how PD changes with age and affects health. Using a recently validated measure of PD involving the calculation of a multivariate distance (D M ) from biomarker data, we show that PD trajectories predict mortality, frailty, and chronic diseases (cancer, cardiovascular diseases, and diabetes). Specifically, relative risks of outcomes associated with individual slopes in (i.e. rate of) dysregulation range 1.20–1.40 per unit slope. We confirm the results by replicating the analysis using two suites of biomarkers selected with markedly different criteria and, for mortality, in three longitudinal cohort-based studies. Overall, the consistence of effect sizes (direction and magnitude) across data sets, biomarker suites and outcomes suggests that the positive relationship between D M and health outcomes is a general phenomenon found across human populations. Therefore, the study of dysregulation trajectories should allow importa...
Source: Mechanisms of Ageing and Development - Category: Geriatrics Source Type: research