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An analysis of poststroke motor dysfunction and cerebral reorganization in ratsGonzalez, Claudia L. R., University of Lethbridge. Faculty of Arts and Science January 2004 (has links)
This thesis investigates the behavioural and anatomical correlates of recovery from motor cortex damage in rats. The effectiveness of behavioural, pharmacological, and regenerative treatments was investigated using models of focal stroke. Chronic bilateral motor deficits were found after motor cortex damage induced by various methods. These behavioural deficits were similar in severity and duration although they were correlated with different patterns of reorganization seen in Golgi-stained tissue. Animals with motor cortex injury benefited from postinjury olfactory stimulation, chronic administration of nicotine, and infusions of epidermal growth factor followed by erythroprotein. Different mechanisms of plasticity in remaining cortical circuits are discussed as possible candidates responsible for the behavioural improvement. The current thesis expands the current knowledge of the effects of adult cortical damage to ares critical to motor control. It may also stimulate research on therapies and possible mechanisms that might enhance recovery after stroke. / xviii, 299 leaves : ill. (some col.) ; 29 cm.
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A mouse model for studying stroke induced impairments, recovery, and compensation in the motor cortexFarr, Tracy Deanne, University of Lethbridge. Faculty of Arts and Science January 2003 (has links)
Stroke is the third leading cause of death and survivors suffer motor impairments. The rodent sensorimotor system is similar to the human's, making rodents a good model to study the effects of stroke. Transgenic technology makes the mouse a desirable stroke model, however, there are few behavioural tests to assess behavioural outcome. This thesis evaluates mice subjected to permanent or temporary occlusion focal motor cortex strokes in a skilled reaching task. The first experiment documents changes in skilled movements in mice with a permanent occlusion focal motor cortex stroke. The second experiment is identical but uses a temporary occlusion focal motor cortex stroke. The third experiment compares the two strokes. The results indicate permanent occlusion mice suffer great impairments, and a larger injury, than temporarily occluded animals. The mice with the largest insults were most impaired. Mice make an excellent behavioural and genetic model for studying motor system stroke. / viii, 115 leaves : ill. ; 29 cm.
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Novel treatments for inducing cortical plasticity and functional restitution following motor cortex strokeSilasi, Gergely, University of Lethbridge. Faculty of Arts and Science January 2005 (has links)
Stroke remains a leading cause of disability in the western world, with symptoms ranging in severity from mild congnitive or motor impairments, to severe impairments in both cognitive and motor domains. Despite ongoing research aimed at helping stroke patients the disease cannot be prevented or cured, therefore a large body of research has been aimed at identifying effective rehabilitative strategies. Based on our understanding of normal brain function, and the meachanisms mediating the limited spontaneous recovery that is observed following injury, factors that promote brain plasticity are likely to be effective treatments for stroke symptoms. The current thesis investigated three novel treatments (COX-2 inhibitor drug, vitamin supplement diet, and social experience) in a rat model of focal ischemia in the motor cortex. All three treatments have been previously shown to alter plasticity in the normal brain, however the current experiments show that the treatments have differential effects following stroke. The COX-2 inhibitors provided limited improvement in functional performance, whereas the vitamin supplement treatment had no effect. Social experience on the other hand was found to block the usually observed spontaneous improvements following the stroke. These results suggest that factors that alter dendritic plasticity may in fact serve as effective stroke treatments depending on the site and the mechanisms whereby the plastic changes are induced. / ix, 149 leaves : ill. ; 29 cm.
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Modeling middle cerebral artery stroke in rats : an examination of the skilled reaching impairmentsGharbawie, Omar A., University of Lethbridge. Faculty of Arts and Science January 2006 (has links)
Middle cerebral artery (MCA) stroke can produce chronic incapacitating motor
impairments. Understanding the neural basis of the motor syndromes is complicated by
the diversity of neural structures damaged but the problem can be addressed in laboratory
rats by inducing selective infarcts. Nevertheless, the motor syndromes that ensue from
stroke in rats remain poorly understood and undermine its potential as a model for
clinical stroke. The objective of the present thesis was to document the skilled reaching
impairments from neocortical and subcortical MCA infarcts in rats. In addition, the
integrity of the motor system components spared by the infarct was assessed
neurophysiologically and neuroanatomically. Characteristic reaching impairments
emerged from each infarct but there were also some overlapping features that might be
explained by neural dysfunction extending beyond the boundaries of the infarct. The
present studies showed that the laboratory rat is an ideal animal model for studying
stroke, which should be of interest to both clinical and research scientists studying stroke. / xiii, 345 leaves : ill. ; 29 cm. + 1 CD-ROM
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Experience dependent plasticity of stroke outcomeRakai, Brooke D., University of Lethbridge. Faculty of Arts and Science January 2008 (has links)
Stroke outcome is highly variable. Experiments in this thesis test the hypothesis that experience prior to a stroke is an important variable in the manifestation of stroke. Optokinetic tracking was used to evaluate the effects of visual cortex stroke and MCA occlusion in rats. Normal laboratory rats showed a small, but significant decrease in tracking thresholds following visual cortex stroke. Animals with developmental visuomotor experience or reach training experience in adulthood, however, had tracking thresholds which were substantially increased, and the effects of visual cortex strokes were greater. MCA occlusions did not affect tracking behaviour. These data indicate that specific experiences engage neural plasticity that can alter brain function. These changes can, in turn, affect the behavioural manifestation of a stroke. Understanding the effect that environmental experience has on stroke outcome promises to enable better characterization of strokes, and set appropriate behavioural baselines for the measurement of recovery of function. / vi, 135 p. : ill. ; 29 cm
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Modulation of recovery and compensation after strokeKirkland, Scott, University of Lethbridge. Faculty of Arts and Science January 2007 (has links)
Stress has been shown to exacerbate cell death and cognitive deficits after ischemic
injury in rodents, however, little is known of the effects of stress on motor recovery. The
objective of this present thesis is to examine the effects of chronic stress on skilled motor
recovery after devascularization lesion in rats. It was found that pre-lesion stress induced
the most behavioural impairments, while post-lesion stress exacerbated infarct volume.
The effects of chronic multiple stress on skilled motor recovery after lesion was also
examined. Chronic multiple stress did not modulate skilled motor recovery nor did it
have any influence on infarct volume. Additionally, stress had effect on edema after
devascularization lesion. The present thesis suggests that the time of exposure to chronic
stress in respect to the ischemic lesion, in addition to the type of stress, will differentially
affect recovery and compensation in rats. / xii, 122 leaves : ill. ; 29 cm.
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Structural alterations in the hippocampus and spatial behavior by stress in male and female rats : protections, and recovery in water-based and dry-land tasksFaraji, Jamshid, University of Lethbridge. Faculty of Arts and Science January 2008 (has links)
Stress-related cognitive changes are still a matter of debate. In some
particular neuropathological conditions such as focal ischemia, cognitive
functions have been shown to be significantly impaired. These conditions,
however, may be improved by some factors such as steroid hormones. The
purpose of the current thesis was to assess the structural and functional effects
of corticosterone-related experiences on the hippocampus before and after
endothelin-1 (ET-1)-induced stroke. We found corticosterone-related experiences
enhance the hippocampal recovery, and improve its function in both wet and dryland
tasks after ET-1-induced focal stroke. Structural and functional effects of
such experiences prior to the focal ischemia in the hippocampus, however,
showed that stress, not corticosterone is a strong inhibitor for hippocampal
recovery. / xii, 252 leaves : ill. ; 29 cm. --
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