D. L. Walden scite author profile

We report population-based urinary concentrations of phytoestrogens stratified by age, sex, and composite racial/ethnic variables. We measured the isoflavones F genistein, daidzein, equol, and O-desmethylangolensin (O-DMA) F and the lignans F enterolactone and enterodiol F in approximately 2500 urine samples from individuals aged 6 years and older who participated in the National Health and Nutrition Examination Survey (NHANES) in 1999 and 2000. We detected all phytoestrogens in over 70% of the samples analyzed; enterolactone was detected in the highest concentrations, and daidzein was detected with the highest frequency. The geometric means for each phytoestrogen were as follows: genistein, 22.3 mg/g; daidzein, 68.6 mg/g; equol, 7.65 mg/g; O-DMA, 3.95 mg/g; enterolactone, 217 mg/g; and enterodiol, 24.3 mg/g creatinine. The 95th percentiles for each phytoestrogen were as follows: genistein, 380 mg/g; daidzein, 944 mg/g; equol, 50.3 mg/g; O-DMA, 217 mg/g; enterolactone, 2240 mg/g; and enterodiol, 240 mg/g creatinine. Multivariate analyses showed statistically significant differences among many of the demographic subgroups. Adolescents had higher concentrations of genistein and equol than adults. Non-Hispanic whites had higher concentrations of enterodiol and equol than Mexican Americans or non-Hispanic blacks. Non-Hispanic whites also had higher concentrations of enterolactone and O-DMA than Mexican Americans. Mexican Americans had higher concentrations of genistein than non-Hispanic blacks; however, the opposite was found for O-DMA. Determination of phytoestrogen exposure in the US population will help us to better understand phytoestrogen consumption in the US and will assist us in elucidating the potential role of phytoestrogens in protecting against cancer and heart disease.

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Xanthine oxidase-derived H2O2 contributes to reperfusion injury of ischemic skeletal muscle

McCutchan

Schwappach

Enquist

et al. 1990

American Journal of Physiology-Heart and Circulatory Physiology

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We hypothesized that xanthine oxidase (XO)-derived hydrogen peroxide (H2O2) contributes to ischemic skeletal muscle injury during reperfusion. We found that after ischemia (3 h) and then reperfusion (4 h) rat gastrocnemius muscles had decreased contractile function following direct stimulation. Three lines of investigation suggested that XO-derived H2O2 contributes to reperfusion injury of ischemic skeletal muscle. First, treatment with dimethylthiurea (DMTU), a highly permeant O2 metabolite scavenger, but not urea, just before reperfusion improved muscle function in legs subjected to ischemia and then reperfusion. Second, gastrocnemius muscles from rats fed tungsten or allopurinol had negligible XO activities and increased muscle function after ischemia and reperfusion. Third, as assessed by measurement of skeletal muscle catalase activity in the presence of aminotriazole, H2O2 was measured during reperfusion of ischemic muscles from untreated or urea-treated rats but not during reperfusion of muscles from rats treated with DMTU, tungsten, or allopurinol.

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Neutrophils accumulate and contribute to skeletal muscle dysfunction after ischemia-reperfusion

Walden

McCutchan

Enquist

et al. 1990

American Journal of Physiology-Heart and Circulatory Physiology

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Skeletal muscles subjected to ischemia and then reperfusion develop contractile dysfunction for reasons that are unclear. We found that rats pretreated with vinblastine 4 days before study had decreased numbers of blood neutrophils and increased gastrocnemius muscle function after ischemia (3h) and reperfusion (4 h) compared with untreated rats or rats treated 4 days before study with saline. By comparison, rats pretreated with vinblastine or saline 1 day before study had increased blood neutrophils and decreased gastrocnemius muscle contractile function after ischemia-reperfusion compared with untreated rats. In addition, numbers of neutrophils in gastrocnemius muscles paralleled numbers of blood neutrophils and correlated with gastrocnemius muscle edema and contractile function after ischemia and reperfusion. The results indicate that neutrophils accumulate and may play an important role in the genesis of skeletal muscle contractile dysfunction after ischemia-reperfusion.

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D. L. Walden

Concentrations of selective metabolites of organophosphorus pesticides in the United States population

Urinary phytoestrogen concentrations in the U.S. population (1999–2000)

Xanthine oxidase-derived H2O2 contributes to reperfusion injury of ischemic skeletal muscle

Neutrophils accumulate and contribute to skeletal muscle dysfunction after ischemia-reperfusion

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