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Balancing Energy Demands with the Potential for Threat in the EnvironmentMcdonald, CHLOE 19 September 2008 (has links)
In their natural environment animals must balance their safety requirements (i.e., avoiding predation) with their need to satisfy their energy demands (i.e., securing food). How the brain integrates these competing demands to promote adaptive responding is not well understood. The current study examined the effects of chronic food restriction on rats' behavioural defense profiles in two animal models of anxiety; the shock-probe burying and elevated plus-maze tests. In agreement with previous research, food restriction dramatically increased rats' open-arm exploration in the plus-maze. By contrast, food restriction did not alter the duration of time rats spent burying an electrified probe in the shock-probe burying test. Furthermore, food restricted rats displayed increases in risk assessment behaviour in both tests. Animals’ behaviour in both animal models of anxiety does not suggest a food-restriction induced reduction in anxiety. Alternatively, the results suggest that rats' willingness to explore normally avoided open arenas is sensitive to their current energy demands. In particular, it appears that under conditions of food scarcity rodents adapt their defensive profiles in order to meet both safety needs and satisfy energy demands. Further, the dramatic shift in open-arm exploration displayed by food-restricted animals seems to involve activation (as indexed by cFos) of brain regions previously implicated in feeding behaviour and normal open arm avoidance. Notably, an interaction effect of feeding and testing was observed in the anterior basolateral amygdala. This nucleus may be involved in integrating the competing demands of safety and energy requirements. / Thesis (Master, Neuroscience Studies) -- Queen's University, 2008-09-18 16:58:44.385
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Metabolic and Endocrine Adaptations to Chronically Low Body Mass in Female Wistar RatsGairdner, Sarah 07 December 2011 (has links)
Animal models have yet to characterize alterations in body composition, wheel running activity, food intake, and neuroendocrine parameters, in chronic food restriction. This study investigated changes in these measures in food restricted rats, with and without access to running wheels, over four weeks. The data demonstrated that upon initiation of food restriction IGF-1 reductions paralleled loss of lean tissue while leptin levels were rapidly reduced which paralleled losses in body fat. Further, a lower limit threshold of body fat was identified, below which the correlation between leptin and fat mass was disrupted. Lastly, a decrease and plateau in body mass was mirrored by an increase and plateau in voluntary wheel activity in the food restricted population. The data suggest that there is a tight biological link between hyperactivity and body mass and that adequate nutritional support might attenuate the drive for obligate exercise even before weight is fully restored.
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Metabolic and Endocrine Adaptations to Chronically Low Body Mass in Female Wistar RatsGairdner, Sarah 07 December 2011 (has links)
Animal models have yet to characterize alterations in body composition, wheel running activity, food intake, and neuroendocrine parameters, in chronic food restriction. This study investigated changes in these measures in food restricted rats, with and without access to running wheels, over four weeks. The data demonstrated that upon initiation of food restriction IGF-1 reductions paralleled loss of lean tissue while leptin levels were rapidly reduced which paralleled losses in body fat. Further, a lower limit threshold of body fat was identified, below which the correlation between leptin and fat mass was disrupted. Lastly, a decrease and plateau in body mass was mirrored by an increase and plateau in voluntary wheel activity in the food restricted population. The data suggest that there is a tight biological link between hyperactivity and body mass and that adequate nutritional support might attenuate the drive for obligate exercise even before weight is fully restored.
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Effect of post-ischemic caloric restriction on cell death and functional recoveryMcEwen, Barbara Rae 21 September 2009
Since caloric restriction (CR) can modify multiple pathways central to the ischemic cascade and enhance neuroplasticity mechanisms, we hypothesized that CR should exert protective effects following brain ischemia. Previous studies have suggested benefit when CR was administered prior to ischemia. This study investigated whether prolonged CR beginning after global ischemia would result in lasting protection as assessed by performance in the open field, as a measure of functional outcome, and hippocampal CA1 neuronal counts. Adult male Mongolian gerbils were subjected to five minute bilateral carotid artery occlusion (I) or sham surgery (S) with tympanic temperature maintained at 36.5 ± 0.2ºC during the intra-ischemic period. After screening out gerbils with incomplete ischemia, each of the two surgical groups were randomly assigned to control diet (CON) or 30% CR for the duration of the study (60d). Gerbils were tested in the open field on d3, 7, 10, 30 and 60. Ischemic animals on control diet showed a significantly higher level of activity in the open field (impaired habituation) compared to SCON gerbils on all test days (p<0.001). Open field activity was decreased 9% in the ICR group versus ICON gerbils on d7 (p=0.024), suggesting a transient neuroprotective effect. Open field activity of the SCR gerbils began increasing relative to that of SCON gerbils during the last 30 days of the study (p=0.055 on d60), raising the question of suitability of the open field test for long-term studies of CR and ischemia. Brain sections obtained at d60 were stained with hematoxylin & eosin. Hippocampal CA1 neuron counts were reduced 88% by ischemia (p<0.001), and there was no sparing effect of CR. These findings suggest that prolonged CR administered beginning after global ischemia cannot diminish brain injury or enhance long-term recovery.
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Effect of post-ischemic caloric restriction on cell death and functional recoveryMcEwen, Barbara Rae 21 September 2009 (has links)
Since caloric restriction (CR) can modify multiple pathways central to the ischemic cascade and enhance neuroplasticity mechanisms, we hypothesized that CR should exert protective effects following brain ischemia. Previous studies have suggested benefit when CR was administered prior to ischemia. This study investigated whether prolonged CR beginning after global ischemia would result in lasting protection as assessed by performance in the open field, as a measure of functional outcome, and hippocampal CA1 neuronal counts. Adult male Mongolian gerbils were subjected to five minute bilateral carotid artery occlusion (I) or sham surgery (S) with tympanic temperature maintained at 36.5 ± 0.2ºC during the intra-ischemic period. After screening out gerbils with incomplete ischemia, each of the two surgical groups were randomly assigned to control diet (CON) or 30% CR for the duration of the study (60d). Gerbils were tested in the open field on d3, 7, 10, 30 and 60. Ischemic animals on control diet showed a significantly higher level of activity in the open field (impaired habituation) compared to SCON gerbils on all test days (p<0.001). Open field activity was decreased 9% in the ICR group versus ICON gerbils on d7 (p=0.024), suggesting a transient neuroprotective effect. Open field activity of the SCR gerbils began increasing relative to that of SCON gerbils during the last 30 days of the study (p=0.055 on d60), raising the question of suitability of the open field test for long-term studies of CR and ischemia. Brain sections obtained at d60 were stained with hematoxylin & eosin. Hippocampal CA1 neuron counts were reduced 88% by ischemia (p<0.001), and there was no sparing effect of CR. These findings suggest that prolonged CR administered beginning after global ischemia cannot diminish brain injury or enhance long-term recovery.
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Catabolic and Metabolic Compensatory Events in Mice during Conditions of Cachexia and Food RestrictionKliewer, Kara L. 02 September 2014 (has links)
No description available.
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Reward devaluation in a two-link chain schedule: effects of reward density in the proximal link and food restriction protocol in ratsBaker, Tyson William 13 September 2007 (has links)
Food restriction has been shown to affect responding for reward and has been manipulated to devalue reward. Reward density has been shown to alter responding in both first-order schedules and chain schedules. Devaluation has differential effects in first-order schedules and the links of chain schedules. The objective of the current study was to analyze the reward devaluation effect in a two-link chain schedule by manipulating food restriction and reward density in the proximal link; these variables had previously not been studied systematically. The chain schedule required rats to lever press according to a random interval 120-s schedule to turn on a light conditioned stimulus (CS). In the presence of the CS rats were rewarded for pulling a chain; the chain was active on a variable ratio (VR) 5 schedule of reinforcement for some rats, while the chain was on continuous reinforcement (CRF) for the other rats. Food restriction protocols were either 1-hr daily free feeding (1-hr feeding) or a daily ration to maintain weight at 80% of free feed controls (ration). Devaluing the CS while in the isolated proximal link was done by exposing trained rats to sessions of chain pulling in the presence of the CS but withholding reward. In subsequent lever press sessions without the CS, decreased responding was seen in rats that had undergone the devaluation procedure, but only in rats on the 1-hr feeding protocol. This devaluation effect was found in both the CRF and VR 5 schedules. Subsequent tests of lever pressing for the CS also revealed decreased responding. Post-test CS discrimination sessions demonstrated CS devaluation that has not been demonstrated previously. These results demonstrate that the isolated devaluation of the proximal link in a heterogeneous two-link chain schedule can result in decreased responding in the isolated first link. This effect is dependent on sufficient food restriction and demonstrates a measurable devaluation effect which is independent of the reward being present. This study also demonstrated that isolated devaluation of the second link can be subsequently measured in a post-test CS discrimination re-acquisition session regardless of food restriction, which had no significant effect in the session. The devaluation effect has not been demonstrated in a re-acquisition session before, rather responding in previous re-acquisition sessions were only affected by food restriction. / Thesis (Master, Psychology) -- Queen's University, 2007-09-11 11:49:20.814
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Consequences of Negative Energy Balance on Avian Reproductive Physiology: Endocrine and Metabolic MediatorsJanuary 2018 (has links)
abstract: Reproduction is energetically costly and seasonal breeding has evolved to capitalize on predictable increases in food availability. The synchronization of breeding with periods of peak food availability is especially important for small birds, most of which do not store an extensive amount of energy. The annual change in photoperiod is the primary environmental cue regulating reproductive development, but must be integrated with supplementary cues relating to local energetic conditions. Photoperiodic regulation of the reproductive neuroendocrine system is well described in seasonally breeding birds, but the mechanisms that these animals use to integrate supplementary cues remain unclear. I hypothesized that (a) environmental cues that negatively affect energy balance inhibit reproductive development by acting at multiple levels along the reproductive endocrine axis including the hypothalamus (b) that the availability of metabolic fuels conveys alterations in energy balance to the reproductive system. I investigated these hypotheses in male house finches, Haemorhous mexicanus, caught in the wild and brought into captivity. I first experimentally reduced body condition through food restriction and found that gonadal development and function are inhibited and these changes are associated with changes in hypothalamic gonadotropin-releasing hormone (GnRH). I then investigated this neuroendocrine integration and found that finches maintain reproductive flexibility through modifying the release of accumulated GnRH stores in response to energetic conditions. Lastly, I investigated the role of metabolic fuels in coordinating reproductive responses under two different models of negative energy balance, decreased energy intake (food restriction) and increased energy expenditure (high temperatures). Exposure to high temperatures lowered body condition and reduced food intake. Reproductive development was inhibited under both energy challenges, and occurred with decreased gonadal gene expression of enzymes involved in steroid synthesis. Minor changes in fuel utilization occurred under food restriction but not high temperatures. My results support the hypothesis that negative energy balance inhibits reproductive development through multilevel effects on the hypothalamus and gonads. These studies are among the first to demonstrate a negative effect of high temperatures on reproductive development in a wild bird. Overall, the above findings provide important foundations for investigations into adaptive responses of breeding in energetically variable environments. / Dissertation/Thesis / Doctoral Dissertation Biology 2018
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The pattern of ovulation in females and effect of food restriction on male testicular development in the South African spiny mouse (Acomys spinosissimus)De Bruin, Phillippus Rudolf January 2013 (has links)
Reproduction is the process whereby an animal ensures the continuous existence of their genes in
the population by procreation. Reproduction presents a series of obstacles for both males and
females. Males have to ensure they are in peak physical condition in order to establish
dominance and compete for the attention of the opposite sex. Females need enough energy to
support their bodily needs whilst supplying energy to the growing foetuses and suckling young.
The current thesis investigated the pattern of ovulation in female as well as the effect of
photoperiod and food restriction on male gonadal development in wild caught South African
spiny mice (Acomys spinosissimus) from the Limpopo province in South Africa by using faecal
samples to measure hormone concentrations. A novel method, using faecal samples to monitor
reproductive function in Acomys spinosissimus was validated during this study. It was shown that
reproductive function can reliably be monitored in both sexes using enzyme immunoassays for
17-oxo-androgens in males and 20-oxopregnanes in females, respectively. Females were
randomly assigned to one of three treatments. Seven females were housed completely separated
from any male stimuli and represented the control group. The two experimental groups were
each made up of seven females. The separated treatment was housed in visual and olfactory
contact with intact males, separated by wire mesh. The paired treatment was housed with
vasectomized males, allowing full contact between the two sexes. Females from all three
treatment groups underwent normal follicular development with corpora lutea of ovulation
recorded for one female from the control and one female from the paired treatment. Progesterone
concentrations were compared between the different treatments using faecal hormone metabolite
levels. The progesterone concentrations were not affected by the different treatments; however,
the day of faecal sample collection influenced progesterone levels. The findings from the ovarian
histology and faecal progestagens strongly suggest a spontaneous pattern of ovulation. To
investigate the effects of photoperiod and food restriction, males were randomly assigned to one
of four treatment groups. The first two groups, consisting of six males each, were subjected to a
14L: 10D (LD) photoperiod. Within the LD treatment, one group was fed ad libitum (NR) whilst
the other group was subjected to a 10% food restriction (R). The remaining two cohorts were
subjected to the same feeding regime as mentioned above, but they were kept on a 10L: 14D (SD) photoperiod. Male spiny mice exposed to a long photoperiod had significantly greater testes
volume and seminiferous tubule diameters when compared to the males exposed to a short
photoperiod. Total body fat did not differ significantly when compared between the different
treatments. Males exposed to the long photoperiod also had significantly higher testosterone
concentrations when compared to the males exposed to the short photoperiod. Feeding regime
did not have any significant effect on any of the reproductive parameters investigated in this
study. During this study it was concluded that Acomys spinosissimus is a spontaneous ovulator
that is strongly photoperiodic with the availability of food resources enhancing the photoperiodic
effect. / Dissertation (MSc)--University of Pretoria, 2013. / gm2014 / Zoology and Entomology / Unrestricted
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INVOLVEMENT OF TISSUE-TYPE PLASMINOGEN ACTIVATOR IN THE REGULATION OF CIRCADIAN RHYTHMSLinley, Moreland 20 July 2010 (has links)
No description available.
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