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Genetic and Physiological Aspects of Oxidative Profile in Sleep and Well-succeed Aging

Completed
Conditions
Aging; Without Mention of Psychosis
Registration Number
NCT01480037
Lead Sponsor
Associação Fundo de Incentivo à Pesquisa
Brief Summary

The present study proposes the characterization of sleep patterns of healthy young adults, elderly individuals and individuals above 85 years old, using polysomnographic recordings, in order to clarify the importance of sleep in longevity. Furthermore, this study intends to analyze the oxidative stress-related gene expression in peripheral blood of the three studied groups, using the Superarray - RT2 Profiler" PCR Array System. After the identification of genes whose expression pattern among groups suggest a more specific role in longevity, the mechanisms of gene expression regulation, including DNA methylation patterns and microRNA expression, as well as the possible genomic sources of variation in these genes will be investigated. In addition, the oldest individual (105 years-old) will have his whole genome sequenced using next-generation sequencing technology, in order to identify rare variants associated with longevity. Subsequently, the effect of the polymorphisms and rare variants identified will be confirmed in an expanded sample constituted of individuals with various age-ranges. The study will provide a better characterization of molecular and physiological mechanisms involved in longevity, hoping to contribute to the development of more advanced clinical tools, capable to offer a better quality of life for the elderly.

Detailed Description

In the last decades, the increase in life expectancy highlights the world population aging as an irreversible process. The oxidative stress hypothesis of aging suggests that accumulation of oxidative damage during lifespan may be related to loss of cellular functions, a process normally associated with senescence. However, it has been proposed that individuals who live longer in a successful manner tend to be more adapted against aging physiological changes. Sleep is essential in maintaining health and well-being. Growing evidence suggests interrelationships between oxidative stress and sleep, while the latter is an important mechanism involved in redox balance maintenance. Therefore, the present study proposes the characterization of sleep patterns of healthy young adults, elderly individuals and individuals above 85 years old, using polysomnographic recordings, in order to clarify the importance of sleep in longevity. Furthermore, this study intends to analyze the oxidative stress-related gene expression in peripheral blood of the three studied groups, using the Superarray - RT2 Profiler" PCR Array System. After the identification of genes whose expression pattern among groups suggest a more specific role in longevity, the mechanisms of gene expression regulation, including DNA methylation patterns and microRNA expression, as well as the possible genomic sources of variation in these genes will be investigated. In addition, the oldest individual (105 years-old) will have his whole genome sequenced using next-generation sequencing technology, in order to identify rare variants associated with longevity. Subsequently, the effect of the polymorphisms and rare variants identified will be confirmed in an expanded sample constituted of individuals with various age-ranges. The study will provide a better characterization of molecular and physiological mechanisms involved in longevity, hoping to contribute to the development of more advanced clinical tools, capable to offer a better quality of life for the elderly.

Recruitment & Eligibility

Status
COMPLETED
Sex
Male
Target Recruitment
38
Inclusion Criteria
  • men aged between 20-30 years-old,
  • 60-70 years-old and above 90 years-old
Exclusion Criteria
  • Uncontrolled chronic disease (cancer, cardiopathy, type 2 diabetes)
  • neurological and/or psychiatric antecedents

Study & Design

Study Type
OBSERVATIONAL
Study Design
Not specified
Primary Outcome Measures
NameTimeMethod
Polysomnography parameters1 night
Gene expression data1 day
Secondary Outcome Measures
NameTimeMethod

Trial Locations

Locations (1)

Associação Fundo de Incentivo à Pesquisa

🇧🇷

São Paulo, Brazil

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