The involvement of the cholinergic and glutamatergic neurotransmitter systems in neuronal processes underlying recognition memory in the rat

Duguid, Gail Louise

January 2001

No description available.

612

An FMRI Study of Complex Object and Scene Discrimination: The Contributions of Perirhinal Cortex, Hippocampus and Temporal Pole

Cardoza, Jose Antonio

January 2015

Previous research has investigated how the perirhinal cortex (PRC), hippocampus (HC) and temporal pole (TP) are involved in complex visual discrimination using a variety of stimuli. Results from these studies have shown that the PRC activates to a greater extent for object stimuli relative to scene stimuli and that familiar stimuli elicit greater activation than do novel stimuli. In contrast, the HC shows greater activation for scene stimuli relative to objects and has also been reported to show greater activation for familiar relative to novel stimuli. To our knowledge, however, no studies in humans have replicated the stimulus specificity findings reported for PRC and HC. Additionally, no studies have used a combination of perceptual difficulty and familiarity/novelty to investigate how varying these factors affects activation in PRC, HC and TP during visual discrimination tasks. Chapter 2 describes an fMRI study performed to investigate the PRC's and HC's involvement in object and scene visual discrimination. The results of this study showed that the PRC was activated similarly by scenes and objects and that the HC was activated similarly for objects and scenes. Chapter 3 describes an fMRI experiment that manipulated both familiarity and difficulty, measuring how this affected PRC, HC and TP activation. In PRC the results showed a significant interaction between novelty and level of difficulty, such that novel objects with high levels of overlapping features showed greater activation compared to all other conditions. In contrast, the HC only showed a main effect of difficulty, indicating that the stimuli with high, relative to low, levels of difficulty elicited greater activation regardless of familiarity. Cumulatively, the evidence above suggests that the involvement of the PRC and HC in visual discrimination is complex. We propose that PRC is engaged whenever visual discrimination is required for any stimuli with overlapping features not just objects, and is activated to a greater extent when stimuli are novel, while HC appears to respond to stimuli with overlapping features, regardless of familiarity.

Object Discrimination

Perirhinal Cortex

Psychology

Hippocampus

Nicotinic Receptor Activation in Perirhinal Cortex and Hippocampus Facilitates Aspects of Object Memory

Melichercik, Ashley

19 September 2011

This study investigated the role of nicotinic acetylcholine receptors (nAChR) in object recognition and spatial recognition memory using the spontaneous object recognition (SOR) and object-location (OL) tasks, respectively. Experiments 1 to 4, did not yield any consistent facilitative effects of systemic nAChR activation with nicotine using 24- and 48-hr delays. Using a 72-hr delay, experiments 5 and 8 revealed that systemic pre-sample nicotine dose-dependently facilitated SOR and OL performance, respectively. Experiments 6-7 and 9-10 investigated the potential involvement of the perirhinal cortex (PRh) and hippocampus (HPC) in these systemic effects, with activation of nAChR in both of these brain regions producing facilitative effects on SOR and OL performance. These results not only demonstrate that nAChR facilitate performance on SOR and OL memory tasks, but suggest these effects are mediated by nAChR action in both PRh and HPC. This study indicates that, even though PRh and HPC are functionally distinct, they can interact to enhance performance on tasks for which they are not entirely necessary. / This research was supported by NSERC and CFI, operating grants to Dr. Boyer Winters.

Investigating the Boundaries of Feature Conjunction Representations in the Perirhinal Cortex

Douglas, Danielle

21 November 2012

Convergent evidence suggests that the perirhinal cortex (PRC) is involved in perception, in addition to long-term memory, by representing higher-order object feature conjunctions. Recent functional magnetic resonance imaging (fMRI) investigations have shown greater PRC activity during the processing of objects with a higher versus lower degree of features in common, but notably, these studies have been limited to examining only two levels of feature overlap. To address this, we scanned neurologically healthy participants with fMRI during a 1-back working memory task for objects that possessed a very low, low, medium or high degree of feature overlap. Somewhat consistent with previous findings, trends towards greater PRC activity for high versus medium feature overlap objects, and for semantically identical compared to semantically different objects were observed. However, other aspects of our data, including diminished PRC activity during medium versus low feature overlap objects, are difficult to interpret and require further investigation.

medial temporal lobe

perception

memory

fMRI

perirhinal cortex

0633

Investigating the Boundaries of Feature Conjunction Representations in the Perirhinal Cortex

Douglas, Danielle

21 November 2012

Convergent evidence suggests that the perirhinal cortex (PRC) is involved in perception, in addition to long-term memory, by representing higher-order object feature conjunctions. Recent functional magnetic resonance imaging (fMRI) investigations have shown greater PRC activity during the processing of objects with a higher versus lower degree of features in common, but notably, these studies have been limited to examining only two levels of feature overlap. To address this, we scanned neurologically healthy participants with fMRI during a 1-back working memory task for objects that possessed a very low, low, medium or high degree of feature overlap. Somewhat consistent with previous findings, trends towards greater PRC activity for high versus medium feature overlap objects, and for semantically identical compared to semantically different objects were observed. However, other aspects of our data, including diminished PRC activity during medium versus low feature overlap objects, are difficult to interpret and require further investigation.

medial temporal lobe

perception

memory

fMRI

perirhinal cortex

0633

It Doesn’t Look Odd to Me: Investigating Perceptual Impairments and Eye Movements in Amnesic Patients with Medial Temporal Lobe Damage

Erez, Jonathan

31 December 2010

Two amnesic patients with MTL damage that included the hippocampus and perirhinal cortex were tested along controls on a series of “oddity” discrimination tasks, in which they had to select an odd item from a visual array. Participants’ eye moments were monitored while they performed these tasks. Three types of stimuli were used: greebles, scenes, and faces. Results revealed that patients were impaired on tasks that required them to discriminate between items that shared features in common and tasks that required processing items from different viewpoints. An analysis of their eye movements revealed that their impaired performance was linked with decreased viewing times of target items compared to controls, when discriminating between greebles and scenes; their poor performance on the faces task could not be explained by the same token.

Memory

Perception

Eye tracking

Amnesia

Hippocampus

Perirhinal cortex

0633

It Doesn’t Look Odd to Me: Investigating Perceptual Impairments and Eye Movements in Amnesic Patients with Medial Temporal Lobe Damage

Erez, Jonathan

31 December 2010

Two amnesic patients with MTL damage that included the hippocampus and perirhinal cortex were tested along controls on a series of “oddity” discrimination tasks, in which they had to select an odd item from a visual array. Participants’ eye moments were monitored while they performed these tasks. Three types of stimuli were used: greebles, scenes, and faces. Results revealed that patients were impaired on tasks that required them to discriminate between items that shared features in common and tasks that required processing items from different viewpoints. An analysis of their eye movements revealed that their impaired performance was linked with decreased viewing times of target items compared to controls, when discriminating between greebles and scenes; their poor performance on the faces task could not be explained by the same token.

Memory

Perception

Eye tracking

Amnesia

Hippocampus

Perirhinal cortex

0633

INVESTIGATING THE NEURAL CIRCUITRY SUPPORTING OBJECT RECOGNITION MEMORY IN C57BL/6J MICE

Unknown Date

The hippocampus, a brain region that is part of the limbic system in the medial temporal lobe, is critical to episodic memory, or the memory of autobiographical events. The hippocampus plays an important role in the consolidation of information from short-term memory into more permanent long-term memory and spatial memory which enables navigation. Hippocampal damage in humans has been linked to memory loss, such as in Alzheimer’s disease and other dementias, as well as in amnesia such as in the case of patient H.M. The role of the hippocampus has been well characterized in humans but is less understood in rodents due to contradictory findings. While rodents have served well as model organisms in developing our understanding of the cognitive map that is critical for spatial navigation, there has been substantial contention over the degree to which the rodent hippocampus supports non-spatial memory, specifically the memory for items or objects previously encountered. The overall objective of this research is to gain a better understanding of how neuronal circuits involving the hippocampus and perirhinal cortex function to support object memory in the brain. Chemogenetic technologies such as DREADDs (designer receptor exclusively activated by designer drugs) have proven to be effective tools in remote manipulation of neuronal activity. First, a series of behavioral tasks was used to validate the effects of DREADD inactivation in the CA1 region of dorsal hippocampus in C57BL/6J male mice. DREADD inhibition resulted in significant impairment in the spontaneous object recognition (SOR) task and of spatial memory in the Morris water maze. In conjunction, mice were implanted with bilateral perirhinal cortex guide cannulae to allow for temporary muscimol inactivation during distinct time points in the SOR task to further investigate the nature of its relationship with the hippocampus. The results reveal an unexpected role for the perirhinal cortex in the retrieval of strong object memory. Finally, Arc mRNA expression was quantified in CA1 of dorsal hippocampus and perirhinal cortex following both weak and strong object memory formation. The results indicate that the perirhinal cortex and hippocampus have distinct, yet complementary roles in object recognition memory and that distinction is gated by memory strength. Understanding the neural mechanisms supporting the weak-strong object memory distinction in mice is an important step not only in validating mice as a suitable model system to study episodic memory in humans, but also in developing treatments and understanding the underlying causes of diseases affecting long-term memory such as Alzheimer’s disease. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2020. / FAU Electronic Theses and Dissertations Collection

Neural circuitry

Hippocampus

Perirhinal Cortex

Memory

Mice, Inbred C57BL

Perceptual Mnemonic Medial Temporal Lobe Function in Individuals with Down Syndrome

Spanò, Goffredina

January 2012

Behavioral data in individuals with Down syndrome (DS) and mouse models of the syndrome suggest impaired object processing. In this study we examined the component processes that may contribute to object memory deficits. A neuropsychological test battery was administered to individuals with DS (n=28), including tests targeting perirhinal cortex (PRC) and prefrontal cortex (PFC) function, tests of perception (i.e., convexity based figure ground perception), and tests of memory (object recognition and object-in-place learning). To compare to individuals with DS, the same number of typically developing chronological age (CA, n=28) and mental age-matched (MA, n=28) controls were recruited. We observed object memory deficits in DS (p<0.001). In contrast, the DS group showed relatively intact use of convexity when making figure-ground judgments and spared PRC-dependent function, as compared to MA control. In addition, measures of PFC function seemed to be related to performance on object recognition tasks. These findings suggest that the inputs into the MTL from low and high level perceptual processing streams may be intact in DS. The object memory deficits we observed might reflect impaired PFC function.

perirhinal cortex

prefrontal cortex

visual perception

Psychology

Down syndrome

object recognition

Age-Related Changes in Perirhinal Cortex Sensitivity to Configuration and Part Familiarity and Connectivity to Visual Cortex

Cacciamani, Laura, Wager, Erica, Peterson, Mary A., Scalf, Paige E.

15 September 2017

The perirhinal cortex (PRC) is a medial temporal lobe (MTL) structure known to be involved in assessing whether an object is familiar (i.e., meaningful) or novel. Recent evidence shows that the PRC is sensitive to the familiarity of both whole object configurations and their parts, and suggests the PRC may modulate part familiarity responses in V2. Here, using functional magnetic resonance imaging (fMRI), we investigated age-related decline in the PRC's sensitivity to part/configuration familiarity and assessed its functional connectivity to visual cortex in young and older adults. Participants categorized peripherally presented silhouettes as familiar ("real-world") or novel. Part/configuration familiarity was manipulated via three silhouette configurations: Familiar (parts/configurations familiar), Control Novel (parts/configurations novel), and Part-Rearranged Novel (parts familiar, configurations novel). "Real-world" judgments were less accurate than "novel" judgments, although accuracy did not differ between age groups. The fMRI data revealed differential neural activity, however: In young adults, a linear pattern of activation was observed in left hemisphere (LH) PRC, with Familiar > Control Novel > Part-Rearranged Novel. Older adults did not show this pattern, indicating age-related decline in the PRC's sensitivity to part/configuration familiarity. A functional connectivity analysis revealed a significant coupling between the PRC and V2 in the LH in young adults only. Older adults showed a linear pattern of activation in the temporopolar cortex (TPC), but no evidence of TPC-V2 connectivity. This is the first study to demonstrate age-related decline in the PRC's representations of part/configuration familiarity and its covariance with visual cortex.

perirhinal cortex

object perception

familiarity

functional connectivity

visual cortex

parts and wholes