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Vanessa Ward

Maternal levels of dichlorodiphenyl-dichloroethylene (DDE) may increase weight and body... - 0 views

oem.bmj.com/143.full

obesity epidemiological study exposure DDE BMI fish consupmption Great Lakes

shared by Vanessa Ward on 04 Jun 10 - Cached
  • Objectives: To investigate the effect of prenatal exposure to polychlorinated biphenyls (PCBs) and dichlorodiphenyl-dichloroethylene (DDE) on weight, height and body mass index (BMI) in adult female offspring of the Michigan fisheater cohort examined between 1973 and 1991
  • Maternal height and BMI were significant predictors of the daughters’ height, weight and BMI.
  • The weight and BMI of adult offspring were statistically significantly associated with the extrapolated prenatal DDE levels of their mothers.
  • ...4 more annotations...
  • ncreasingly, however, prenatal exposure to toxicants is suspected of contributing to obesity.
  • Previous studies have shown that Michigan anglers and fisheaters have higher serum levels of PCBs and DDE than population controls.
  • A total of 176 (82.6%) daughters participated in at least one of two repeated investigations
  • Our results suggest that higher prenatal exposure to DDE, but not to PCBs, is statistically significantly associated with increased weight and BMI in adult female offspring.
  • Vanessa Ward on 04 Jun 10
     
    Liz, this article was already in my library and you might want to look at it. I feel as though the study isn't completely controlled since it deals with people who chose to participate in the study over the course of many years but there are some concepts that can be gathered that may be beneficial to you.
  • Vanessa Ward on 11 Jun 10
     
    This is another epidemiological study similar to the study present by Suphada on sport fish consumption. There were many outside variables, leading to only a small sample size that could be used.
Vanessa Ward

Endocrine Disruptors and the Obesity Epidemic -- Heindel 76 (2): 247 -- Toxicological S... - 1 views

toxsci.oxfordjournals.org/...247

obesity endocrine disruption

shared by Vanessa Ward on 25 May 10 - Cached
  • "We are faced with the seeming paradox of increased adiposity at both ends of the birth weight spectrum—higher BMI with higher birth weight and increased central obesity with lower birth weight" (Oken and Gillman, 2003). Thus prevention of childhood and adult obesity must start in utero.
  • Indeed, many synthetic chemicals are actually used to increase weight in animals.
  • This article provides fascinating examples of chemicals that have been tested for toxicity by standard tests that resulted in weight gain in the animals at lower doses than those that caused any obvious toxicity.
  • ...7 more annotations...
  • Chemicals having endocrine-disrupting activity rise to the top of the list as most act via receptors linked to activation of transcriptional activity.
  • In the adult, loss of circulating estrogen due to ovariectomy leads to increased body and adipose tissue weights. Estrogen receptor alpha knockout mice have a significantly increased body fat content, and estrogen decreases the activity of lipoprotein lipase
  • estrogenic endocrine-disrupting chemical bisphenol A at concentrations as low as 2 µg/ml, in the presence of insulin, stimulated differentiation of the 3T3L1 cells into adipocytes
  • he fact that an environmental chemical has the potential to stimulate growth of "preadipocytes" has enormous implications for the area of obesity and its control.
  • Differentiation could be inhibited and more potential fat cells could be formed, as seems to be the case with NP, or differentiation could be stimulated, as appears to be the case with BPA
  • Will these results extrapolate to the in vivo situation in rodents and other animal models?
  • Only time and more research will tell, but the door has been opened by the novel work being highlighted.
  • Vanessa Ward on 25 May 10
     
    An article discussing how the area of research of obesity as a result of endocrine disrupting chemical exposure could be a beneficial area for intervention and prevention studies of obesity. This was one of the first articles I found directly addressing how endocrine disrupting chemical exposure can lead to a predisposition to obesity
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