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The use of ultrasound to investigate Asian noodles: a comparison of methodsDiep, Sally 16 April 2014 (has links)
This research investigates the properties of flours of different wheat varieties, belonging to the Canadian Western Red Spring (CWRS) and Canadian Prairie Spring Red (CPSR) wheat classes, for their suitability in making yellow alkaline noodles (YAN), a staple of Asian diets. Maximum cutting stress (MCS), Stress-Relaxation and Kieffer rig tests are traditional methods that were used to evaluate cooked YAN firmness. Ultrasound at 50 kHz was used to measure the rheological properties of raw YAN made from the various wheat classes/varieties. In general, higher protein CWRS wheat class flours produced firmer YAN, but some CPSR wheat varieties produced comparable if not firmer YAN despite being significantly lower in flour protein content. These differences were also evident from ultrasonic tests. My research demonstrates the suitability of Canadian wheat for YAN production as well as ultrasound’s ability to discriminate raw YAN rheological properties.
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Ultrasonic vocalization reveals individual differences in the rewarding and motivational effects of amphetamine in ratsAhrens, Allison Melinda 23 October 2012 (has links)
The pleasurable and euphoric effects of drugs play an important role in drug abuse; however, there are no established preclinical models for directly assessing the hedonic effects of drugs in rodents. The purpose of this dissertation was to investigate rat ultrasonic vocalizations (USVs) as a potential method for measuring positive affective states associated with amphetamine reinforcement. USVs are high-frequency social signals that rats use to communicate with one another. Calls in the 50-kHz range are thought to be a sign of positive affect, since they are elicited by naturally rewarding stimuli, and are modulated by mesolimbic dopamine activity. At the time this dissertation was begun, the majority of USV research focused on natural rewards, such as sex and social interactions, and the USVs associated with repeated exposure to a drug or appetitive desire for a drug had not been studied. Therefore, the objective of this dissertation was to characterize the production of 50-kHz USVs during repeated administration of amphetamine within different paradigms commonly used to study the behavioral and motivational effects of stimulants in rats. First, I found that the 50-kHz USVs elicited by amphetamine were sensitized by repeated exposure, showing that USV expression parallels the sensitization of mesolimbic circuitry that is involved in the development of addiction. Second, I found that rats produce conditioned anticipatory 50-kHz USVs during exposure to cues that predicted amphetamine, with the magnitude of anticipatory calling increasing as drug-cue associations were learned and strengthened. Third, I found that the number of unconditioned 50-kHz USVs produced during the initial amphetamine exposure predicted the subsequent expression of anticipatory 50-kHz USVs, the development of conditioned place preference for an amphetamine-paired environment, and corticosterone responses to the drug. Overall, these findings suggest that 50-kHz USVs are an expression of behavioral arousal associated with both the positive effects of amphetamine itself, and the incentive-motivational states elicited by drug-paired cues. In addition, they show that the intensity of the initial 50-kHz USV response to amphetamine reflects individual differences in sensitivity to drug reinforcement. / text
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