Cargando…

Modeling to incorporate defense mechanisms into the estimation of dose responses.

Several adverse health effects (including cancer and noncancer effects) may be the result of an imbalance between exogenous and endogenous invading substances and defense mechanisms. In these cases the probability of an adverse effect depends on how much the exposure to a substance increases or decr...

Descripción completa

Detalles Bibliográficos
Autores principales: Sielken, R L, Stevenson, D E
Formato: Texto
Lenguaje:English
Publicado: 1998
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1533283/
https://www.ncbi.nlm.nih.gov/pubmed/9539028
_version_ 1782129019040301056
author Sielken, R L
Stevenson, D E
author_facet Sielken, R L
Stevenson, D E
author_sort Sielken, R L
collection PubMed
description Several adverse health effects (including cancer and noncancer effects) may be the result of an imbalance between exogenous and endogenous invading substances and defense mechanisms. In these cases the probability of an adverse effect depends on how much the exposure to a substance increases or decreases the number of defenders or their efficiency as well as increasing or decreasing the number of invaders. Rather than using a dose scale such as parts per million or milligram/kilogram/day in these cases, dose-response models can directly incorporate the impact of defense mechanisms by using a dose scale that corresponds to the number of invaders that break through the defenders and become free to do their damage. The number of breakthroughs at a specific age, the cumulative number of breakthroughs by a specific age, or the cumulative number of breakthroughs in a window of time would usually be the appropriate age-dependent dose. Although a lifetime average daily dose level can be used as a surrogate for an age-dependent dose in simplistic dose-response models, the age-dependent dose itself can be used in more biologically based models that include time, reflect the key role of feedback mechanisms, and treat the human body as an age-dependent dynamic system responding to internal and external stimuli and not as a system at equilibrium. Some illustrative biologic examples of defense mechanisms and invader-defender interactions are presented. Several numerical examples are given in which the dose incorporates the age-dependent effects of a substance on the number of invaders, the number of defenders, and/or the defenders' efficiencies.
format Text
id pubmed-1533283
institution National Center for Biotechnology Information
language English
publishDate 1998
record_format MEDLINE/PubMed
spelling pubmed-15332832006-08-08 Modeling to incorporate defense mechanisms into the estimation of dose responses. Sielken, R L Stevenson, D E Environ Health Perspect Research Article Several adverse health effects (including cancer and noncancer effects) may be the result of an imbalance between exogenous and endogenous invading substances and defense mechanisms. In these cases the probability of an adverse effect depends on how much the exposure to a substance increases or decreases the number of defenders or their efficiency as well as increasing or decreasing the number of invaders. Rather than using a dose scale such as parts per million or milligram/kilogram/day in these cases, dose-response models can directly incorporate the impact of defense mechanisms by using a dose scale that corresponds to the number of invaders that break through the defenders and become free to do their damage. The number of breakthroughs at a specific age, the cumulative number of breakthroughs by a specific age, or the cumulative number of breakthroughs in a window of time would usually be the appropriate age-dependent dose. Although a lifetime average daily dose level can be used as a surrogate for an age-dependent dose in simplistic dose-response models, the age-dependent dose itself can be used in more biologically based models that include time, reflect the key role of feedback mechanisms, and treat the human body as an age-dependent dynamic system responding to internal and external stimuli and not as a system at equilibrium. Some illustrative biologic examples of defense mechanisms and invader-defender interactions are presented. Several numerical examples are given in which the dose incorporates the age-dependent effects of a substance on the number of invaders, the number of defenders, and/or the defenders' efficiencies. 1998-02 /pmc/articles/PMC1533283/ /pubmed/9539028 Text en
spellingShingle Research Article
Sielken, R L
Stevenson, D E
Modeling to incorporate defense mechanisms into the estimation of dose responses.
title Modeling to incorporate defense mechanisms into the estimation of dose responses.
title_full Modeling to incorporate defense mechanisms into the estimation of dose responses.
title_fullStr Modeling to incorporate defense mechanisms into the estimation of dose responses.
title_full_unstemmed Modeling to incorporate defense mechanisms into the estimation of dose responses.
title_short Modeling to incorporate defense mechanisms into the estimation of dose responses.
title_sort modeling to incorporate defense mechanisms into the estimation of dose responses.
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1533283/
https://www.ncbi.nlm.nih.gov/pubmed/9539028
work_keys_str_mv AT sielkenrl modelingtoincorporatedefensemechanismsintotheestimationofdoseresponses
AT stevensonde modelingtoincorporatedefensemechanismsintotheestimationofdoseresponses