@article{stephens_sanders_2015, title={Blood lipid distribution, aortic cholesterol concentrations, and selected inflammatory and bile metabolism markers in Syrian hamsters fed a standard breeding diet}, volume={54}, number={4}, journal={Journal of the American Association for Laboratory Animal Science}, author={Stephens, A. M. and Sanders, T. H.}, year={2015}, pages={353–358} }
 @article{stephens_dean_davis_osborne_sanders_2010, title={Peanuts, Peanut Oil, and Fat Free Peanut Flour Reduced Cardiovascular Disease Risk Factors and the Development of Atherosclerosis in Syrian Golden Hamsters}, volume={75}, ISSN={["1750-3841"]}, DOI={10.1111/j.1750-3841.2010.01569.x}, abstractNote={ABSTRACT:  Human clinical trials have demonstrated the cardiovascular protective properties of peanuts and peanut oil in decreasing total and low density lipoprotein cholesterol (LDL‐C) without reducing high density lipoprotein cholesterol (HDL‐C). The cardiovascular effects of the nonlipid portion of peanuts has not been evaluated even though that fraction contains arginine, flavonoids, folates, and other compounds that have been linked to cardiovascular health. The objective of this study was to evaluate the effects of fat free peanut flour (FFPF), peanuts, and peanut oil on cardiovascular disease (CVD) risk factors and the development of atherosclerosis in male Syrian golden hamsters. Each experimental diet group was fed a high fat, high cholesterol diet with various peanut components (FFPF, peanut oil, or peanuts) substituted for similar metabolic components in the control diet. Tissues were collected at week 0, 12, 18, and 24. Total plasma cholesterol (TPC), LDL‐C, and HDL‐C distributions were determined by high‐performance gel filtration chromatography, while aortic total cholesterol (TC) and cholesteryl ester (CE) were determined by gas liquid chromatography. Peanuts, peanut oil, and FFPF diet groups had significantly (P < 0.05) lower TPC, non‐HDL‐C than the control group beginning at about 12 wk and continuing through the 24‐wk study. HDL‐C was not significantly different among the diet groups. Peanut and peanut component diets retarded an increase in TC and CE. Because CE is an indicator of the development of atherosclerosis this study demonstrated that peanuts, peanut oil, and FFPF retarded the development of atherosclerosis in animals consuming an atherosclerosis inducing diet.}, number={4}, journal={JOURNAL OF FOOD SCIENCE}, author={Stephens, Amanda M. and Dean, Lisa L. and Davis, Jack P. and Osborne, Jason A. and Sanders, Timothy H.}, year={2010}, month={May}, pages={H116–H122} }