Effects of an Aversive Masking on the Intake of a Sugar Solution by Rats on a Low Carbohydrate Diet

Kemmler, Charles P.

January 1964

No description available.

Biology

Rats' Feeding and feeds

Feeding behavior and serotonin metabolism in diet-induced obese rats

梁詠蓮, Leung, Wing-lin, Winny.

January 2000

published_or_final_version / Zoology / Doctoral / Doctor of Philosophy

Serotoninergic mechanisms

Rats - Feeding and feeds.

DIETARY EFFECT ON LACTASE CONTENT IN THE ADULT RAT SMALL INTESTINE.

Thompson, Merilyn Anne.

January 1983

No description available.

Beta-galactosidase.

Intestine, Small.

Rats -- Feeding and feeds.

Alleviation of methionine toxicity by vitamin A in the rat

Evenson, Jacqueline Kay

January 1978

No description available.

Methionine in animal nutrition.

Vitamin A in animal nutrition.

Rats -- Feeding and feeds.

EFFECT OF COPPER DEFICIENCY ON LIPID AND CARBOHYDRATE METABOLISM IN RATS.

Hassel, Craig Alan.

January 1982

No description available.

Copper in animal nutrition.

Rats -- Feeding and feeds.

Glucose -- Metabolism.

Lipids -- Metabolism.

Triglycerides -- Metabolism.

Investigating the effects of feeding soy protein and soy isoflavones on bone metabolism in female rats fed low dietary calcium

Farnworth, Sara

January 2005

No description available.

Rats -- Feeding and feeds.

Bones -- Metabolism.

Soy proteins.

Isoflavones.

Food -- Calcium content.

Effects of zinc and ethanol on rats fed a cirrhogenic diet

McDougal, James Nelson

January 1980

No description available.

Rats -- Feeding and feeds.

Zinc in animal nutrition.

Alcohol in animal nutrition.

Alcohol -- Physiological effect.

Alcoholism in rodents.

Investigating the effects of feeding soy protein and soy isoflavones on bone metabolism in female rats fed low dietary calcium

Farnworth, Sara

January 2005

The effects of feeding soy protein (SP) or SP plus isoflavones (IF) (150 and 400 mg IF/kg diet) on bone metabolism were assessed in female weanling and retired breeder (RB) rats fed low calcium (Ca) for five weeks. Young rats fed SP-based diets had significantly smaller reductions in bone mineral density (BMD) and bone mineral content (BMC) as a result of the low Ca diet compared to those fed casein-based diets. Added IFs had no further benefits. Soy protein also affected bone metabolism in both the young and RB rats as indicated by markers of bone resorption. Neither the SP nor the added IFs had any effects on BMD or BMC in the RB rats. Feeding SP to young rats resulted in beneficial changes in BMD, BMC, and biochemical markers of bone metabolism. This study indicates that SP positively affects bone metabolism and minimizes the negative effects associated with low Ca intakes in young rats.

Soy proteins.

Isoflavones.

Rats -- Feeding and feeds.

Food -- Calcium content.

Bones -- Metabolism.

Learning processes in food intake

Jarvandi, Soghra.

January 2008

Learning processes play a major role in controlling intake of food. Through repeated experiences an animal acquires the ability to predict the postingestive effects of a particular food (i.e., of its nutrients and energy) from its sensory characteristics. What is unclear from the literature, however, is whether an animal can anticipate the duration of subsequent food deprivation from predictive sensory qualities of a food, and hence increase the amount eaten of that cueing food. Therefore, the aim of this work was to investigate the characteristics of this under-researched type of learning, i.e., anticipatory eating, using laboratory rats trained on two lengths of fasting (short: 2-3 h, long: 8-10 h). The main findings were as follows. 1) Anticipatory eating is learnt when a choice is given between protein- and carbohydrate-rich foods as well as on a single balanced test food. 2) The learnt extra intake of food is instrumental to preventing the return of hunger, removal of which negative reinforcement extinguishes the response. 3) The resulting return of hunger induces re-learning of anticipatory eating. 4) During the training sessions, learning of anticipatory eating competes with classical conditioning of sensory preference. Conditioning of preference is likely to be stronger with the shorter than with the longer length of fasting. Therefore, the difference between intakes before the long and the short fast at each trial is the summed result of these two mechanisms of acquired increase in intake. While preference conditioning usually reaches a maximum rapidly, depletion-avoidance increases for as long as has been tested, with interruptions of rapid self-extinction and re-learning, This self-extinction contributes to the homeostatic character of this learning. 5) High-fat maintenance diet attenuates the learning of anticipatory eating. Overall, the findings provided robust evidence that eating in rats can be controlled by instrumental learning reinforced by hunger. Accordingly, the design of an experiment on such instrumental control of eating in human subjects is proposed to conclude this thesis.

Ingestion -- Regulation.

Appetite -- Physiological aspects.

Food habits -- Psychological aspects.

Rats -- Feeding and feeds.

Learning processes in food intake

Jarvandi, Soghra

January 2009

No description available.

Rats -- Feeding and feeds.

Appetite -- Physiological aspects.

Food habits -- Psychological aspects.

Ingestion -- Regulation.