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The neurobiology of spatial reversal learning in weanling rats / an analysis of the hippocampus, prefrontal cortex, and striatumWatson, Deborah J. January 2009 (has links)
Thesis (Ph.D.)--University of Delaware, 2009. / Principal faculty advisor: . Includes bibliographical references.
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Effects of postnatal interference of vestibular GABA transmission on navigation behavior in adult ratsAu, Zher Wen, 歐哲彣 January 2014 (has links)
Although spatial navigation is predominantly guided by allothetic visual cues, idiothetic cues can obtain control when familiar visual cues are not available. In path integration, the current position and orientation are estimated and continuously updated using idiothetic cues, which are contributed by the vestibular system. Previous studies have revealed that vestibular lesioned rats were significantly impaired in path integration. Rats assessed in the current study received neonatal treatment with either VU0240551 (KCC2 blocker) or muscimol (GABAA receptors agonist) in the vestibular nuclei. Path integration ability appears to be intact in rats receiving either treatment. However, VU0240551-treated rats displayed impairments in their ability to resolve conflicting allothetic and idiothetic cues. Therefore, it is proposed that the ability to properly resolve a cue-conflict requires the normal polarity of GABA and/or glycine action in the vestibular nuclei during the neonatal period. / published_or_final_version / Physiology / Master / Master of Medical Sciences
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Role of the posterior parietal cortex in multimodal spatial behavioursKwan, Teresa 11 1900 (has links)
The posterior parietal cortex (PPC) is a cortical region receiving inputs from different
sensory modalities which has been shown to subserve a visuospatial function. The
potential contribution of PPC in audiospatial behaviours and recognition of amodal spatial
correspondences were postulated and assessed in the present study. Adult male Long-
Evans rats received PPC lesions by aspiration, and they were compared to sham operated
control rats on three behavioural tasks. In the Morris water maze, the rats had to learn to
use the distal visual cues to locate an escape platform hidden in the pool. In an open field
task, the rats were assessed on their reactions to a spatial relocation of a visual or an
auditory object. In a spatial cross-modal transfer (CMT) task (Tees & Buhrmann, 1989),
rats were trained to respond to light signals using spatial rules, and were then subjected to
transfer tests using comparable sound signals. Results from the Morris water maze, the
open field, and the initial training phase of the spatial CMT task confirmed a visuospatial
deficit in PPC lesioned rats. However, if given sufficient training, PPC lesioned rats could
learn the location of a hidden platform in the Morris water maze, and they could also
acquire spatial rules in the CMT task. Such results indicated that the visuospatial deficits
in PPC lesioned rats were less severe than previously thought. On the other hand, a
persistent navigational difficulty characterized by a looping pattern of movement was
observed in the PPC lesioned rats in the Morris water maze. Results from the open field
indicated that PPC was less involved in audiospatial behaviours. Moreover, results also
indicated that PPC was not necessary for spatial CMT. Hence, data from the present
study did not support the idea that PPC played an essential role in supramodal spatial
abilities in the rats. Instead, data from the spatial CMT task seemed to imply a role of
PPC in managing conflicting spatial information coming from different sensory modalities.
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Psychometric evaluation of the three-D test of spatial visualizationMitchell, Debora Renee Dehn 08 1900 (has links)
No description available.
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Geometric rule learning by pigeonsSturz, Bradley R. Katz, Jeffrey S. January 2007 (has links) (PDF)
Dissertation (Ph.D.)--Auburn University, 2007. / Abstract. Includes bibliographic references.
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Strömt die Welt in unseren Köpfen? : Kontiguität und Abruf in mentalen Karten /Schweizer, Karin. January 2004 (has links) (PDF)
Univ., Habil.-Schr.--Mannheim, 2002.
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Numerical simulation of heat conduction with melting and/or freezing by space-time conservation element and solution element method /Ayasoufi, Anahita. January 2004 (has links)
Dissertation (Ph.D.)--University of Toledo, 2004. / Typescript. "A dissertation [submitted] as partial fulfillment of the requirements of the Doctor of Philosophy degree in Engineering." Bibliography: leaves 194-211.
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An enquiry into the neurochemical, neuroanatomical, and electrophysiological basis of benzodiazepine-induced spatial learning deficits in the ratMcNamara, Robert Keith 04 July 2018 (has links)
Benzodiazepine (BZ) drugs, such as diazepam (Valium®) and
chlordiazepoxide (Librium®), are widely prescribed for their
sedative/anxiolytic properties but also impair mnemonic processes in both
humans and animals. In the Morris water maze, an aversively motivated
spatial learning task, BZs impair spatial learning but spare
retention/performance. This spatial learning deficit cannot be attributed to
sedation, gross sensorimotor impairments, hypothermia, state-dependent
learning, or reductions of escape motivation (anxiolysis). The following
series of experiments sought to further characterize the neurochemical,
neuroanatomical, and electrophysiological substrates of BZ-induced
impairments of spatial learning. In Experiment I, the role of endogenous BZs
in spatial learning was assessed. The BZ receptor antagonists flumazenil (Ro
15-1788) and CGS 8216, as well as the BZ receptor inverse-agonist β-carboline,
enhanced spatial learning in an inverted-U dose-dependent manner,
suggesting that endogenously released BZs impede optimal learning. In
Experiment II, the role of the BZ ω1 receptor subtype in spatial learning was
assessed. CL 218,872, a selective agonist for the BZ ω1 receptor subtype,
impaired spatial learning in a dose-dependent and flumazenil-reversible
manner, thereby implicating the ω1 receptor subtype in BZ-induced amnesia.
Together these results suggest that endogenous BZs activity, like BZ drugs, is
detrimental to spatial learning and that specific BZ receptors mediate this
impairment.
Several neurochemical systems are important for spatial learning
in the MWM and arc influenced by BZs. The contributions of two of these
neurochemical systems, the opioids and acetylcholine (ACh), to the spatial
learning deficit produced by BZs were assessed. In Experiment III, a better
understanding of the role of opioid systems in spatial learning was sought.
Morphine, a prototypical opioid, impaired spatial learning in a dose-dependent and naloxone-reversible manner. However, morphine also
impaired performance and escape to a visible platform and its effects on
spatial learning could be attenuated by increasing the escape incentive
(colder water). This impairment pattern suggests that morphine impairs
spatial learning by reducing escape motivation. Because both BZs and cold
water immersion increase endogenous opioid activity, it seemed possible
that the combination of drug- and water-induced opioid release might
mediate the spatial learning deficit produced by BZs. In Experiment IV,
naloxone, an opioid receptor antagonist, completely blocked the spatial
learning deficit produced by morphine but failed, even at a higher dose, to
block the spatial learning deficit produced by diazepam . Conversely,
flumazenil, a BZ receptor antagonist, completely blocked the spatial learning
deficit produced by diazepam but failed to affect the amnesic effects of
morphine. Together, these findings strongly suggest that the spatial learning
deficit produced by BZs is not due to enhanced opioid activity.
There is also biochemical evidence that BZs interact with ACh systems.
In Experiment V, flumazenil attenuated the spatial learning deficit produced
by scopolamine, an ACh (muscarinic) antagonist, but physostigmine, an
acetylcholinesterase inhibitor, failed to attenuate the spatial learning deficit
produced by chlordiazepoxide, even at doses that completely reversed the
spatial learning deficit produced by scopolamine. Together these results fail
to support the notion that BZs impair spatial learning by reducing ACh
activity but suggest that scopolamine impairs spatial learning by enhancing
endogenous BZ activity.
Several neuroanatomical regions possess a high density of BZ
receptors and are also integral for spatial learning in the MWM. In
Experiment VI, infusions of chlordiazepoxide into the medial septum, but
not frontal cortex, nucleus basalis magnocellularis, amygdala, hippocampus,
or cerebellum, impaired spatial learning but had little effect on anxiety.
Conversely, infusions of chlordiazepoxide into the amygdala reduced anxiety
but had little effect on spatial learning. These results suggest that the medial
septum mediates the amnesic effects of BZs and that the amygdala mediates
the anxiolytic effects. In Experiment VII, intraseptal infusions of
chlordiazepoxide were additionally found to impair spatial learning in a
dose-dependent and flumazenil-reversible manner. However, infusions of
flumazenil into the medial septum failed to block the amnesic effects of
systemically administered chlordiazepoxide, suggesting that the amnesic
to
effects of BZs are not mediated by the medial septum exclusively.
Tetrahydroaminoacridine, an acetylcholinesterase inhibitor, failed to
attenuate the spatial learning deficit produced by intraseptal infusions of
chlordiazepoxide, suggesting that the deficit was not due to a disruption of
the septohippocampal ACh projection. Together, these results suggest that
chlordiazepoxide impairs spatial learning by interacting with the
septohippocampal GABAergic projection.
The septohippocampal GABAergic projection regulates the
excitability of hippocampal afferents (e.g., perforant path). Experiment VIII
assessed the effects of systemically administered BZs on the induction of
long-term potentiation (LTP) in the perforant path. CL 218,872, but not
chlordiazepoxide or diazepam , significantly suppressed long-term
potentiation. However, all drugs impaired spatial learning. These findings
suggest that CL 218,872 impairs spatial learning by suppressing LTP but that
BZ-induced spatial learning deficits can occur in the absence of perforant
path LTP suppression.
Taken together, the above results suggest that endogenous BZ
systems, particularly those in the septohippocampal system, are important
modulators of mnemonic processes. These findings are discussed in the
context of understanding information storage processes and the
implications for clinical populations. / Graduate
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Dissociations between conscious and unconscious influences of memory for object locationCaldwell, Judy Inez 28 August 2017 (has links)
This study used the process dissociation procedure to investigate the effects of three variables on conscious and unconscious influences of memory for object location. The purpose was not only to provide insight into conscious and unconscious influences of memory for object location, but also to obtain support for the assumption that the two influences operate independently. Such support can be obtained by demonstrating that a manipulation affects one component of memory but leaves the other invariant. The three variables used in the present study included dividing attention at study and test, the age of the participants, and habit strength. In the first experiment, when attention was divided at study, the conscious estimate was significantly reduced under conditions of divided attention. This result was also found when attention was divided at test, although the effect only approached significance. Moreover. when attention was divided at study, there was a tendency for the unconscious estimate to be greater under full attention than under divided attention. When attention was manipulated at test, however, the unconscious estimate did not vary across the two attention conditions. The results of Experiment 1, therefore, did not provide strong evidence for the assumption of independence. Such evidence, however, was obtained in Experiments 2 and 3 where a double dissociation between conscious and unconscious influences of memory for object location was observed. Specifically, in Experiment 2 it was found that age affected the conscious component but left the unconscious component invariant, whereas in Experiment 3 it was found that manipulating habit strength affected the unconscious influence of memory for spatial location but not the conscious influence. The results of these experiments are discussed in terms of their importance for research on memory and aging and systems theories of memory, as well as for the assumption that conscious and unconscious influences of memory operate independently. / Graduate
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Role of the posterior parietal cortex in multimodal spatial behavioursKwan, Teresa 11 1900 (has links)
The posterior parietal cortex (PPC) is a cortical region receiving inputs from different
sensory modalities which has been shown to subserve a visuospatial function. The
potential contribution of PPC in audiospatial behaviours and recognition of amodal spatial
correspondences were postulated and assessed in the present study. Adult male Long-
Evans rats received PPC lesions by aspiration, and they were compared to sham operated
control rats on three behavioural tasks. In the Morris water maze, the rats had to learn to
use the distal visual cues to locate an escape platform hidden in the pool. In an open field
task, the rats were assessed on their reactions to a spatial relocation of a visual or an
auditory object. In a spatial cross-modal transfer (CMT) task (Tees & Buhrmann, 1989),
rats were trained to respond to light signals using spatial rules, and were then subjected to
transfer tests using comparable sound signals. Results from the Morris water maze, the
open field, and the initial training phase of the spatial CMT task confirmed a visuospatial
deficit in PPC lesioned rats. However, if given sufficient training, PPC lesioned rats could
learn the location of a hidden platform in the Morris water maze, and they could also
acquire spatial rules in the CMT task. Such results indicated that the visuospatial deficits
in PPC lesioned rats were less severe than previously thought. On the other hand, a
persistent navigational difficulty characterized by a looping pattern of movement was
observed in the PPC lesioned rats in the Morris water maze. Results from the open field
indicated that PPC was less involved in audiospatial behaviours. Moreover, results also
indicated that PPC was not necessary for spatial CMT. Hence, data from the present
study did not support the idea that PPC played an essential role in supramodal spatial
abilities in the rats. Instead, data from the spatial CMT task seemed to imply a role of
PPC in managing conflicting spatial information coming from different sensory modalities. / Arts, Faculty of / Psychology, Department of / Graduate
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