Data related to obese and lean strains of rat commonly used in the laboratory that are calorically restricted and its effects on physiologic parameters (Body Composition and metabolism). This dataset is associated with the following publication: Aydin, C., K. Jarema , P. Phillips , and C. Gordon. Caloric Restriction in Lean and Obese Strains of Laboratory Rat: Effects on Body Composition, Metabolism, Growth, and Overall Health. Experimental Physiology Journal. Wiley-Blackwell, Hoboken, NJ, USA, 100(1): 1280-97, (2015).

음식군에 대한 상위 분류를 기준으로 칼로리가 낮게 설정된 레시피 기반의 음식 데이터로 저칼로리 음식을 섭취할 필요가 있는 체중 조절을 요하는 환자에게 적용할 수 있다.

Physiologic data associated with different strains of common laboratory rat strains. This dataset is associated with the following publication: Gordon , C., P. Phillips , and A. Johnstone. Impact of Genetic Strain on Body Fat Loss, Food Consumption, Metabolism, Ventilation, and Motor Activity in Free Running Female Rats. PHYSIOLOGY AND BEHAVIOR. Elsevier Science Ltd, New York, NY, USA, 153: 56-63, (2016).

Human and animal studies indicate that maternal obesity can negatively impact aspects of metabolism and neurodevelopment in the offspring. Not known, however, is whether maternal exercise can alter these adverse outcomes. In this study, Long-Evans female rats were provided a high fat (60%; HFD) or control diet (CD) 44 days before mating and throughout gestation and lactation. Running wheels were available to half of each diet group during the gestational period only: CD diet with (CDRW) or without (sedentary; CDSED) exercise, and HFD with (HFRW) or without (HFSED) exercise. The offspring in this study were put on control diet after weaning and examined using a number of behavioral evaluations up to 4 months of age. Offspring of CDRW dams weighed less than offspring from CDSED dams, as well as from HFD dams. After weaning, the lower weight in CDRW offspring persisted in male, but not female, rats. Male (females not tested) offspring from HFSED dams performed worse than other groups in a Morris water maze during initial spatial training as well as reversal learning; memory was not impacted. Female, but not male, offspring from the HFSED dams showed less preference for chocolate milk during a 2-bottle choice test. No differences were seen in tests of novel object recognition, social approach, or locomotor activity. Thus, maternal diet and exercise produced differential effects on growth and selective behaviors in the offspring, and the data demonstrate a positive impact of maternal exercise on the offspring in that it ameliorated some deleterious behavioral effects of a maternal high fat diet. This dataset is associated with the following publication: Moser, V., K. Mcdaniel, E. Wooland, P. Phillips, J. Franklin, and C. Gordon. IMPACTS OF MATERNAL DIET AND EXERCISE ON OFFSPRING BEHAVIOR AND GROWTH. NEUROTOXICOLOGY AND TERATOLOGY. Elsevier Science Ltd, New York, NY, USA, 46-50, (2017).

Human and animal studies indicate that maternal obesity can negatively impact aspects of metabolism and neurodevelopment in the offspring. Not known, however, is whether maternal exercise can alter these adverse outcomes. In this study, Long-Evans female rats were provided a high fat (60%; HFD) or control diet (CD) 44 days before mating and throughout gestation and lactation. Running wheels were available to half of each diet group during the gestational period only: CD diet with (CDRW) or without (sedentary; CDSED) exercise, and HFD with (HFRW) or without (HFSED) exercise. The offspring in this study were put on control diet after weaning and examined using a number of behavioral evaluations up to 4 months of age. Offspring of CDRW dams weighed less than offspring from CDSED dams, as well as from HFD dams. After weaning, the lower weight in CDRW offspring persisted in male, but not female, rats. Male (females not tested) offspring from HFSED dams performed worse than other groups in a Morris water maze during initial spatial training as well as reversal learning; memory was not impacted. Female, but not male, offspring from the HFSED dams showed less preference for chocolate milk during a 2-bottle choice test. No differences were seen in tests of novel object recognition, social approach, or locomotor activity. Thus, maternal diet and exercise produced differential effects on growth and selective behaviors in the offspring, and the data demonstrate a positive impact of maternal exercise on the offspring in that it ameliorated some deleterious behavioral effects of a maternal high fat diet. This dataset is associated with the following publication: Moser, V., K. Mcdaniel, E. Wooland, P. Phillips, J. Franklin, and C. Gordon. IMPACTS OF MATERNAL DIET AND EXERCISE ON OFFSPRING BEHAVIOR AND GROWTH. NEUROTOXICOLOGY AND TERATOLOGY. Elsevier Science Ltd, New York, NY, USA, 46-50, (2017).

,Body weight response to periods of feed restriction and realimentation is critical and relevant to the agricultural industry. The purpose of this study was to evaluate differentially expressed genes identified in subcutaneous adipose tissue collected from cows divergent in body weight (BW) gain after feed restriction and realimentation. We compared adipose samples from cows with greater gain based on average daily gain (ADG) during realimentation with samples from cows with lesser gain. Specifically, there were four comparisons including two comparing the high and low gain animals across each feeding period (feed restriction and realimentation) and two that compared differences in feed restriction and realimentation across high or low gain classifications. Using microarray analysis, we provide a set of differentially expressed genes identified between the high and low gain at both periods of nutrient restriction and realimentation. These data identify multiple differentially expressed genes between these two phenotypes across both nutritional environments.,,

NHANES data from the 2011-2014 survey years. Specific to adolescents. Ancillary data related to metabolic syndrome and other covariates. This dataset is associated with the following publication: Gaston, S., N. Tulve, and T. Ferguson. Abdominal obesity, metabolic dysfunction, and metabolic syndrome in U.S. adolescents: National Health and Nutrition Examination Survey 2011–2016. ANNALS OF EPIDEMIOLOGY. Elsevier Science Ltd, New York, NY, USA, 30: 30-36, (2019).