T
Thomas M. Badger
Researcher at University of Arkansas for Medical Sciences
Publications - 305
Citations - 13313
Thomas M. Badger is an academic researcher from University of Arkansas for Medical Sciences. The author has contributed to research in topics: Soy protein & Offspring. The author has an hindex of 63, co-authored 299 publications receiving 12304 citations. Previous affiliations of Thomas M. Badger include University of Arkansas & United States Department of Agriculture.
Papers
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White Matter Microstructure Correlates with Memory Performance in Healthy Children: A Diffusion Tensor Imaging Study.
TL;DR: This work investigated whether variation in WM microstructure in healthy children also correlates with memory performance, and found that it does.
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Rice protein isolate improves lipid and glucose homeostasis in rats fed high fat/high cholesterol diets.
TL;DR: In this article, weanling rats were fed AIN-93G diets made with casein or rice protein isolate (RPI) for 14 d, and the effects of RPI feeding on hepatic PPARgamma signaling were significant but less robust.
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Infant diet, gender and the development of vagal tone stability during the first two years of life.
TL;DR: Findings indicate that infant diet and gender are important modulators of the early development of autonomic state control.
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Early infant feeding effect on growth and body composition during the first 6 years and neurodevelopment at age 72 months
Sarah R. Sobik,Clark R. Sims,Ginger McCorkle,Jayne Bellando,Seth T. Sorensen,Thomas M. Badger,Patrick H. Casey,D. Keith Williams,Aline Andres +8 more
TL;DR: A significant difference in body composition is suggested after 24 months between infant feeding methods during the first year of life and in early childhood; however, all diets provide adequate nutrients to maintain normal development up to 72 months.
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Profiling of urinary bile acids in piglets by a combination of enzymatic deconjugation and targeted LC-MRM-MS
TL;DR: Results support that CDCA is a precursor of γ-muricholic acid in BA biosynthesis in piglets, and a method using a combination of enzymatic deconjugation and targeted LC-multiple reaction monitoring (MRM)-MS analysis for analyzing all common bile acids in piglet urine.