Browsing by Author "Arbeev, KG"
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Item Open Access CARDIOVASCULAR COMORBIDITIES IN LUNG CANCER PATIENTS: TREATMENT-SPECIFIC EFFECTS ON SURVIVAL(GERONTOLOGIST, 2014-11) Kravchenko, J; Berry, MF; Arbeev, KG; Akushevich, IItem Open Access IMPACTS OF CEREBROVASCULAR AND NEURODEGENERATIVE DISEASES ON SURVIVAL OF LUNG CANCER PATIENTS(GERONTOLOGIST, 2015-11) Kravchenko, J; Berry, MF; Arbeev, KG; Lyerly, H; Yashin, AI; Akushevich, IItem Open Access Joint analysis of health histories, physiological state, and survival(Mathematical Population Studies, 2011-12-01) Yashin, AI; Akushevich, I; Arbeev, KG; Kulminski, A; Ukraintseva, SData on individual health histories, age trajectories of physiological or biological variables, and mortality allow for the study of the joint evolution of health and physiological states and their effects on mortality. Individual health and physiological trajectories are described using a stochastic process with two mutuallydependent continuous and jumping components. The parameters of this process and mortality rate are identified from the data in which the continuous component is measured in discrete times, and transitions of jumping process are observed. © Taylor & Francis Group, LLC.Item Open Access MEDICARE-BASED MULTIMORBIDITY INDEX FOR PROJECTING MORBIDITY AND MORTALITY AMONG OLDER ADULTS IN THE U.S(GERONTOLOGIST, 2012-11) Akushevich, I; Kravchenko, J; Whitson, H; Cohen, HJ; Ukraintseva, SV; Arbeev, KG; Yashin, AIItem Open Access Modeling longitudinal data on health aging and life span(Physics of Life Reviews, 2012-06-01) Yashin, AI; Arbeev, KG; Akushevich, I; Kulminski, A; Ukraintseva, SV; Stallard, E; Land, KCWe address comments from the three discussants of our paper, paying particular attention to the properties of our model likely to be of interest in new applications to complex dynamic systems. © 2012 Elsevier B.V.Item Open Access Patterns of Aging-Related changes on the way to 100: An Approach to studying aging, mortality, and longevity from longitudinal data(North American Actuarial Journal, 2012-12-01) Yashin, AI; Arbeev, KG; Ukraintseva, SV; Akushevich, I; Kulminski, AThe objective of this paper is to investigate dynamic properties of age trajectories of physiological indices and their effects on mortality risk and longevity using longitudinal data on more than 5,000 individuals collected in biennial examinations of the Framingham Heart Study (FHS) original cohort during about 50 subsequent years of follow-up. We first performed empirical analyses of the FHS longitudinal data. We evaluated average age trajectories of indices describing physiological states for different groups of individuals and established their connections with mortality risk. These indices include body mass index, diastolic blood pressure, pulse pressure, pulse rate, level of blood glucose, hematocrit, and serum cholesterol. To be able to investigate dynamic mechanisms responsible for changes in the aging human organisms using available longitudinal data, we further developed a stochastic process model of human mortality and aging, by including in it the notions of "physiological norms," "allostatic adaptation and allostatic load," "stress resistance," and other characteristics associated with the internal process of aging and the effects of external disturbances. In this model, the persistent deviation of physiological indices from their normal values contributes to an increase in morbidity and mortality risks. We used the stochastic process model in the statistical analyses of longitudinal FHS data. We found that different indices have different average age patterns and different dynamic properties. We also found that age trajectories of long-lived individuals differ from those of the shorter-lived members of the FHS original cohort for both sexes. Using methods of statistical modeling, we evaluated "normal" age trajectories of physiological indices and the dynamic effects of allostatic adaptation. The model allows for evaluating average patterns of aging-related decline in stress resistance. This effect is captured by the narrowing of the U-shaped mortality risk (considered a function of physiological state) with age. We showed that individual indices and their rates of change with age, as well as other measures of individual variability, manifested during the life course are important contributors to mortality risks. The advantages and limitations of the approach are discussed.Item Open Access PATTERNS OF AGING-RELATED DISEASES INCIDENCE AND RECOVERY IN US ELDERLY(GERONTOLOGIST, 2011-11) Akushevich, I; Kravchenko, J; Ukraintseva, SV; Arbeev, KG; Yashin, AIItem Open Access Resistance to stresses and reliability of biological systems: Insights for genetic studies of human aging, health, and longevity(Proceedings - 2nd International Symposium on Stochastic Models in Reliability Engineering, Life Science, and Operations Management, SMRLO 2016, 2016-03-11) Yashin, AI; Arbeev, KG; Arbeeva, LS; Wu, D; Akushevich, I; Kulminski, A; Kovtun, M; Zhbannikov, I; Ukraintseva, SV© 2016 IEEE.Connection between stress resistance and longevity in biological organisms is widely discussed and confirmed experimentally. Much less is known about the roles of genetic and non-genetic factors in regulation of such connection. Earlier studies emphasized that mechanism that realizes such connection involves interplay between processes of individual aging and external challenges. As a result of such interplay the parameters of the Gompertz mortality curve are negatively correlated. Such correlation has been also observed in the process of survival improvement in developed part of the world during the first part of the last century. The mortality decline was mainly due to favorable changes in external and living conditions as well as progress in health care. Surprisingly, similar pattern of survival changes is observed in the groups of individuals ranked with respect to the number of «longevity» alleles carried by individuals. We showed that this phenomenon can be interpreted as an increase in resistance to stresses and showed that similar effect is observed in reliability of technical systems when redundancy of their components increases. The availability of longitudinal data for genotyped individuals opens unique opportunity to address more sophisticated questions about roles of genetic and non-genetic factors in connection between aging, stress resistance and longevity in humans. For this purpose the dynamic model of human mortality and aging is used. We show how such model can be used in genetic analyses of fundamental processes of interaction between genetic and non-genetic factors to influence human longevity.Item Open Access The quadratic hazard model for analyzing longitudinal data on aging, health, and the life span.(Phys Life Rev, 2012-06) Yashin, AI; Arbeev, KG; Akushevich, I; Kulminski, A; Ukraintseva, SV; Stallard, E; Land, KCA better understanding of processes and mechanisms linking human aging with changes in health status and survival requires methods capable of analyzing new data that take into account knowledge about these processes accumulated in the field. In this paper, we describe an approach to analyses of longitudinal data based on the use of stochastic process models of human aging, health, and longevity which allows for incorporating state of the art advances in aging research into the model structure. In particular, the model incorporates the notions of resistance to stresses, adaptive capacity, and "optimal" (normal) physiological states. To capture the effects of exposure to persistent external disturbances, the notions of allostatic adaptation and allostatic load are introduced. These notions facilitate the description and explanation of deviations of individuals' physiological indices from their normal states, which increase the chances of disease development and death. The model provides a convenient conceptual framework for comprehensive systemic analyses of aging-related changes in humans using longitudinal data and linking these changes with genotyping profiles, morbidity, and mortality risks. The model is used for developing new statistical methods for analyzing longitudinal data on aging, health, and longevity.Item Open Access THE ROLE OF THE APOLIPOPROTEIN E4 ALLELE, CANCER, CVD AND NEURODEGENERATIVE DISORDERS IN HUMAN LIFESPAN(GERONTOLOGIST, 2013-11) Kulminski, A; Culminskaya, I; Arbeev, KG; Arbeeva, L; Ukraintseva, SV; Yashin, AIItem Open Access TRADE-OFF IN THE EFFECT OF THE APOLIPOPROTEIN E POLYMORPHISM ON THE AGES AT ONSET OF CVD AND CANCER: THE ROLE OF AGE AND GENDER ACROSS GENERATIONS(GERONTOLOGIST, 2012-11) Kulminski, A; Culminskaya, I; Arbeev, KG; Ukraintseva, SV; Arbeeva, L; Yashin, AI