Study Results
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Basic Information
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COMPLETED
24 participants
OBSERVATIONAL
2009-12-31
2011-06-30
Brief Summary
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The interplay between fat and bone deposition represents a physiologic trait enabling the body to choose between shuttling 'energy' towards accrual of a particular tissue. Plausibly the phenotype underlying obesity and diabetes risk may be determined by the differentiation of cell type (adipocyte, osteocyte, etc.) during this early stage of growth and development. In vitro studies demonstrate transdifferentiation under the influence of specific external stimuli, which can switch phenotypes toward other cell lineages. Further, rodent models have demonstrated that exposure to stimuli (exercise) early in life may prevent excess fat mass accrual in adulthood, even when the stimulus is later removed (animals are no longer exercising). Children's early experiences (engagement in physical activity) may 'environmentally induce' alterations in body composition and predispose individuals to diabetes throughout life (Figure 1).
Hypotheses and Specific Aims: Early growth patterns and cell differentiation may induce long term effects on body composition by impacting biological and hormonal axes that regulate childhood body composition. Body composition comprises not only absolute mass, but also aspects of size, shape and location. To that end, the following specific aims will be evaluated:
1. Quantify body composition, adipose tissue distribution, and relative tissue ratios using magnetic resonance imaging (MRI) and dual-energy x-ray absorptiometry (DXA).
1. Hypothesis: Early partitioning of 'resources' toward fat mass accrual will lead to decreased gains in bone mass that may persist long-term.
2. Hypothesis: Partitioning of tissue toward fat at the expense of bone mass (and indirectly, lean mass) will result in adverse effects on glucose/insulin metabolism, total energy expenditure, resting metabolic rate and hormone signaling.
3. Hypothesis: Children with greater levels of physical activity (energy expenditure) will have greater partitioning towards bone (and lean) mass.
2. Quantify adipose tissue distribution and adipocyte cell size and number using MRI and histological techniques.
1. Hypothesis: A relatively greater amount of bone marrow adipose tissue will be apparent in those children with low levels of physical activity, resulting in the preferential differentiation of pluripotent stem cells towards adipocytes vs osteocytes in the bone marrow cavity.
2. A relatively greater adipocyte cell number will be apparent in those children with low levels of physical activity indicating greater differentiation of MSC towards adipocytes vs osteocytes.
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Detailed Description
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Conditions
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Study Design
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COHORT
OTHER
Study Groups
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1
No interventions assigned to this group
Eligibility Criteria
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Inclusion Criteria
* Aged 3-7 years
* Not taking medications known to affect body composition or metabolism
3 Years
7 Years
ALL
Yes
Sponsors
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University of Alabama at Birmingham
OTHER
Responsible Party
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Krista Casazza
Krista R. Casazza PhD, RD/Assistant Professor, UAB
Locations
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UAB
Birmingham, Alabama, United States
Countries
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Other Identifiers
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F091006004
Identifier Type: -
Identifier Source: org_study_id
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