Early-life risk factors for chronic nonrespiratory diseases

Chacko, Archana; Carpenter, David O.; Callaway, Leonie K.; Sly, Peter D.

doi:10.1183/09031936.00070214

Cited by 17 publications

(11 citation statements)

References 188 publications

(191 reference statements)

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“…On face value, it is easy to understand why exposure to particulate matter in ambient air would increase the risk for respiratory disease, but why would the same exposure induce insulin resistance, obesity, and type 2 diabetes? 28 Among the mechanisms postulated to link respiratory and metabolic diseases are common exposures during fetal development (maternal smoking, maternal stress) and in early life (diet low in antioxidants and fresh fruit and vegetables, ambient air pollution) (reviewed in Chacko et al 29 ). In addition, both respiratory and metabolic diseases are "inflammatory" conditions and oxidative stress plays a role in both.…”

Section: B a R R I E R S T O E X P A N D E D C A U S A L T H I N K I mentioning

confidence: 99%

“…In addition, both respiratory and metabolic diseases are "inflammatory" conditions and oxidative stress plays a role in both. 28 Low lung function has been associated with obesity and type 2 diabetes and asthma symptoms are seen in those with the metabolic syndrome (reviewed in Chacko et al 29 ). Although extreme obesity may impose mechanical limitations on the chest wall, reducing lung function, this is an uncommon situation and not likely to explain the links between metabolic and respiratory diseases.…”

Section: B a R R I E R S T O E X P A N D E D C A U S A L T H I N K I mentioning

confidence: 99%

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Health Consequences of Environmental Exposures: Causal Thinking in Global Environmental Epidemiology

Sly

Carpenter

Berg

et al. 2016

Annals of Global Health

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The 2010 Global Burden of Disease estimates indicate a trend toward increasing years lived with disability from chronic noncommunicable diseases (NCDs). Risk factors examined included smoking, diet, alcohol, drug abuse, and physical inactivity. By contrast, little consideration was given to accumulating evidence that exposures to environmental chemicals, psychosocial stress, and malnutrition during fetal development and across the life span also increase risk of NCDs. To address this gap, we undertook a narrative review of early-life environmental contributions to disease. We documented numerous etiologic associations. We propose that future GBD estimates use an expanded approach for assessing etiologic contributions of environmental exposures to recognized disease risk factors. We argue that broadening the definition of environmental disease, together with improved methods of assessing early life exposures and their health outcomes across the life span, will allow better understanding of causal associations and provide the incentives required to support strategies to control avoidable exposures and reduce disease risk.

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Section: B a R R I E R S T O E X P A N D E D C A U S A L T H I N K I mentioning

confidence: 99%

Section: B a R R I E R S T O E X P A N D E D C A U S A L T H I N K I mentioning

confidence: 99%

Health Consequences of Environmental Exposures: Causal Thinking in Global Environmental Epidemiology

Sly

Carpenter

Berg

et al. 2016

Annals of Global Health

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“…27 Although cesarean deliveries and antibiotic use are not considered environmental exposures, both can result in changes in the gastrointestinal microbiota, known as dysbiosis, which increases the risk for chronic disease. 28 The infant bowel is sterile at birth and acquires its microbiota by passage through the birth canal, from early feeding patterns, and from the environment. Establishment of the normal gut microbiota can be disrupted by cesarean delivery, premature birth, or increasing use of antibiotics during pregnancy.…”

Section: H a N G E S I N P A T T E R N S O F E N V I R O N M E N T mentioning

confidence: 99%

“…Establishment of the normal gut microbiota can be disrupted by cesarean delivery, premature birth, or increasing use of antibiotics during pregnancy. [28][29][30] Infants born by cesarean delivery have lower diversity in gut microbiota and a reduction in normal immune responses. 29 Evidence is increasing that the population of gut microbes in each individual are an integral part of the individual's genetic profile and influence risk for disease by playing a key role in stimulation and maturation of the immune system, as well in the biotransformation of environmental xenobiotics.…”

Section: H a N G E S I N P A T T E R N S O F E N V I R O N M E N T mentioning

confidence: 99%

Health Consequences of Environmental Exposures in Early Life: Coping with a Changing World in the Post-MDG Era

Suk

Ruchirawat

Stein

et al. 2016

Annals of Global Health

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Despite overall progress toward achieving the Millennium Development Goals, large health discrepancies persist between developed and developing countries. The world is rapidly changing and the influences of societal change and climate change will disproportionately affect the world's most vulnerable populations, thus exacerbating current inequities. Current development strategies do not adequately address these disproportionate impacts of environmental exposures. The aim of this study was to propose a new framework to address the health consequences of environmental exposures beyond 2015. This framework is transdisciplinary and precautionary. It is based on identifying social and economic determinants of health, strengthening primary health systems, and improving the health of vulnerable populations. It incorporates deliberate plans for assessment and control of avoidable environmental exposures. It sets specific, measurable targets for health and environmental improvement.

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“…Die Entwicklungen in der biologischen Grundlagenforschung [64,65] machen es zunehmend möglich, diese Ergebnisse in einen klinischen Bezug [66][67][68][69][70] und einen kontextualen, den Lebenslauf integrierenden Rahmen [71,72] zu setzen und mit Fokus auf das Individuum einerseits und die Gesellschaft andererseits geeignete Interventionen zu entwickeln.…”

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Stress und optimales Altern

Gogol

2015

Z Gerontol Geriat

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Stress is a stimulus or incident which has an exogenic or endogenic influence on an organism and leads to a biological and/or psychological adaptation from the organism by adaptation. Stressors can be differentiated by the temporal impact (e.g. acute, chronic or acute on chronic), strength and quality. The consequences of stress exposure and adaptation can be measured at the cellular level and as (sub) clinical manifestations, where this process can be biologically seen as a continuum. Over the course of life there is an accumulation of stress incidents resulting in a diminution of the capability for adaptation and repair mechanisms. By means of various interventions it is possible to improve the individual capability for adaptation but it is not currently definitively possible to disentangle alterations due to ageing and the development of diseases. As a consequence the term "healthy ageing" should be replaced by the concept of "optimal ageing".

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Early-life risk factors for chronic nonrespiratory diseases

Cited by 17 publications

References 188 publications

Health Consequences of Environmental Exposures: Causal Thinking in Global Environmental Epidemiology

Health Consequences of Environmental Exposures: Causal Thinking in Global Environmental Epidemiology

Health Consequences of Environmental Exposures in Early Life: Coping with a Changing World in the Post-MDG Era

Stress und optimales Altern

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