Modelling the nonlinear time dynamics of multidimensional hormonal systems

Modelling the nonlinear time dynamics of multidimensional hormonal systems

In most hormonal systems (as well as many physiological systems more generally), the chemical signals from the brain, which drive much of the dynamics, cannot be observed in humans. By the time the molecules reach peripheral blood, they have been so diluted so as to not be assayable. It is not possi...

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Bibliographic Details
Published in:Journal of time series analysis Vol. 33; no. 5; pp. 779 - 796
Main Authors: Keenan, Daniel M., Wang, Xin, Pincus, Steven M., Veldhuis, Johannes D.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-09-2012
Subjects:
60H10
62M09
92C30
92C50
93E03
Ageing
biomathematical
Blood
Brain
Diseases
endocrinology
feedback
Hormones
Human biology
Multidimensional scales
nonlinear dynamics
Nonlinear systems
Prototypes
reconstruction
Stress response
Studies
Time series
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Summary:In most hormonal systems (as well as many physiological systems more generally), the chemical signals from the brain, which drive much of the dynamics, cannot be observed in humans. By the time the molecules reach peripheral blood, they have been so diluted so as to not be assayable. It is not possible to invasively (surgically) measure these agents in the brain. This creates a difficult situation in terms of assessing whether or not the dynamics may have changed due to disease or ageing. Moreover, most biological feedforward and feedback interactions occur after time delays, and the time delays need to be properly estimated. We address the following two questions: (i) Is it possible to devise a combination of clinical experiments by which, via exogenous inputs, the hormonal system can be perturbed to new steady‐states in such a way that information about the unobserved components can be ascertained; and (ii) Can one devise methods to estimate (possibly, time‐varying) time delays between components of a multidimensional nonlinear time series, which are more robust than traditional methods? We present methods for both questions, using the Stress (ACTH–cortisol) hormonal system as a prototype, but the approach is more broadly applicable.
Bibliography:istex:D86376E1055F1607481311979DC332ED3F3B74EB
ark:/67375/WNG-J8C44ZM5-2
ArticleID:JTSA795
E‐mail
dmk7b@virginia.edu
Present address: Lilly Suzhon Pharmaceutical Co., Ltd., Shanghai, China.
The first two authors are joint first authors.
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The first two authors are joint first-authors.
current address: Lilly Suzhon Pharmaceutical Co., Ltd., Shanghai, China
ISSN:0143-9782
1467-9892
DOI:10.1111/j.1467-9892.2012.00795.x