Investigating the Impact of Diffuse Axonal Injury on Working Memory Performance following Traumatic Brain Injury Using Functional and Diffusion Neuroimaging Methods

Turner, Gary R.

01 August 2008

Traumatic brain injury (TBI) is a leading cause of disability globally. Cognitive deficits represent the primary source of on-going disability in this population, yet the mechanisms of these deficits remain poorly understood. Here functional and diffusion-weighted imaging techniques were employed to characterize the mechanisms of neurofunctional change following TBI and their relationship to cognitive function. TBI subjects who had sustained moderate to severe brain injury, demonstrated good functional and neuropsychological recovery, and screened positive for diffuse axonal injury but negative for focal brain lesions were recruited for the project. TBI subjects and matched controls underwent structural, diffusion-weighted and functional MRI. The functional scanning paradigm consisted of a complex working memory task with both load and executive control manipulations. Study one demonstrated augmented functional engagement for TBI subjects relative to healthy controls associated with executive control processing but not maintenance operations within working memory. In study two, multivariate neuroimaging analyses demonstrated that activity within a network of bilateral prefrontal cortex (PFC) and posterior parietal regions was compensatory for task performance in the TBI sample. Functional connectivity analyses revealed that a common network of bilateral PFC regions was active in both groups during working memory performance, although this activity was behaviourally relevant at lower levels of task demand in TBI subjects relative to healthy controls. In study three, diffusion-imaging was used to characterize the impact of diffuse white matter pathology on these neurofunctional changes. Unexpectedly, decreased white matter integrity was not correlated with working memory performance following TBI. However, markers of white matter pathology did inversely correlate with the compensatory functional changes observed previously. These results implicate diffuse white matter pathology as a primary mechanism of functional brain change following TBI. Moreover, reactive neurofunctional changes appear to mediate the impact of diffuse injury following brain trauma, suggesting new avenues for neurorehabilitation in this population.

fMRI

TBI

Working Memory

Frontal Lobe

0349

Investigating the Impact of Diffuse Axonal Injury on Working Memory Performance following Traumatic Brain Injury Using Functional and Diffusion Neuroimaging Methods

Turner, Gary R.

01 August 2008

Traumatic brain injury (TBI) is a leading cause of disability globally. Cognitive deficits represent the primary source of on-going disability in this population, yet the mechanisms of these deficits remain poorly understood. Here functional and diffusion-weighted imaging techniques were employed to characterize the mechanisms of neurofunctional change following TBI and their relationship to cognitive function. TBI subjects who had sustained moderate to severe brain injury, demonstrated good functional and neuropsychological recovery, and screened positive for diffuse axonal injury but negative for focal brain lesions were recruited for the project. TBI subjects and matched controls underwent structural, diffusion-weighted and functional MRI. The functional scanning paradigm consisted of a complex working memory task with both load and executive control manipulations. Study one demonstrated augmented functional engagement for TBI subjects relative to healthy controls associated with executive control processing but not maintenance operations within working memory. In study two, multivariate neuroimaging analyses demonstrated that activity within a network of bilateral prefrontal cortex (PFC) and posterior parietal regions was compensatory for task performance in the TBI sample. Functional connectivity analyses revealed that a common network of bilateral PFC regions was active in both groups during working memory performance, although this activity was behaviourally relevant at lower levels of task demand in TBI subjects relative to healthy controls. In study three, diffusion-imaging was used to characterize the impact of diffuse white matter pathology on these neurofunctional changes. Unexpectedly, decreased white matter integrity was not correlated with working memory performance following TBI. However, markers of white matter pathology did inversely correlate with the compensatory functional changes observed previously. These results implicate diffuse white matter pathology as a primary mechanism of functional brain change following TBI. Moreover, reactive neurofunctional changes appear to mediate the impact of diffuse injury following brain trauma, suggesting new avenues for neurorehabilitation in this population.

fMRI

TBI

Working Memory

Frontal Lobe

0349

Assessing individual differences: novelty and ultrasonic vocalizations predict acute and chronic D-amphetamine response in rats

Garcia, Erik J.

January 1900

Master of Science / Department of Psychological Sciences / Mary Cain / Novelty-seeking and sensation-seeking are traits implicated in initial drug experimentation and relapse in human populations. To research the neurobiological substrates that are implicated in novelty/sensation-seeking that predispose an individual to drug use, a rodent model was used. Recently, 50 kHz ultrasonic vocalizations (USV) have been identified as indices of affective state and are evoked by several drugs of abuse, specifically when these drugs of abuse have their pharmacological effects in the mesolimbic dopamine path. Secondly, genetic breeding of high and low vocalizers suggests not only are they different in the calling frequency, but also to drug sensitivity, suggesting ultrasonic vocalizations may be a behavioral marker for individual differences in the mesolimbic dopamine circuit. Two sensation/novelty seeking screens and an ultrasonic vocalization screen were used in rats to predict the locomotor and 50 kHz USV response to a low (.3 mg/kg) and high dose (1.0 mg/kg) of amphetamine. Correlation analysis revealed none of the novelty screens were correlated. Simultaneous regression analyses indicated amphetamine dose-dependently increased locomotor activity acutely and chronically but did not increase 50 kHz USV. The USV assessment predicted USV response to amphetamine acutely and chronically but was not dose dependent. No interactions among any predictors were observed. Previous research has dichotomized the novelty/sensation-seeking trait and found significant differences between high and low novelty responders. The current research provides evidence for maintaining continuous individual difference variables, and suggests each screen measures a different trait implicated in addiction.

ultrasonic vocalizations

amphetamine

animal behavior

individual differences

addiction

Psychobiology (0349)

Effects of mecamylamine on nicotine-induced conditioned hyperactivity and sensitization in differentially reared rats

Ha, Rosemary

January 1900

Master of Science / Department of Psychology / Mary E. Cain / Rats reared in an enriched condition (EC) with novel stimuli and social contact with cohorts display less sensitization to nicotine than rats reared under impoverished conditions (IC). However, it is currently unknown what effect differential rearing has on nicotine-induced conditioned hyperactivity. The present study determined whether differential rearing affects conditioning to a nicotine-associated context. In addition, this study also examined the effects of mecamylamine, an antagonist to nicotinic acetylcholine receptors, on conditioned hyperactivity and sensitization. This antagonistic drug has been shown to attenuate the locomotor effects of nicotine. In the current study, EC, IC, and social condition (SC) rats were reared from 21 to 51 days of age before training for the acquisition of conditioned hyperactivity and sensitization. Nicotine (0.4 mg/kg) was administered prior to 1-h locomotor sessions. Conditioned hyperactivity testing followed. Rats then received 5 sessions of sensitization training followed by a 16-day drug-free rest period before being tested for sensitization. Mecamylamine (1.0 mg/kg) was administered to rats prior to the conditioned hyperactivity test and sensitization test. Nicotine treatment resulted in sensitization and conditioned hyperactivity in all differential rearing groups. EC rats displayed less locomotor activity in response to nicotine than both IC and SC rats. Pretreatment with mecamylamine blocked the expression of conditioned hyperactivity in EC and SC rats and attenuated sensitization in all three rearing groups. These findings suggest that environmental enrichment may alter nAChR binding during development and may be a protective factor in the initiation and relapse of smoking behavior.

Nicotine

Environmental Enrichment

Conditioned Hyperactivity

Sensitization

Mecamylamine

Psychology, Psychobiology (0349)

Evidence for the role of the dopamine D[subscript]3 receptor in mediating methamphetamine addiction

Higley, Amanda E.

January 1900

Doctor of Philosophy / Department of Psychology / Stephen W. Kiefer / Methamphetamine is a potent psychomotor stimulant and a major drug of abuse. There is currently no effective medication available for treatment for methamphetamine addiction. The present study investigated the role of the dopamine D3 receptor on IV methamphetamine self-administration and its effect on methamphetamine induced neurochemical changes. Acute administration of the putative D3 receptor antagonists PG-01037 (10, 30 mg/kg, ip) and SB-277011A (12, 24, mg/kg, ip) significantly decreased the break-point for methamphetamine self-administration under a progressive-ratio (PR) schedule by 45 - 70%. Furthermore, both drugs dose dependently attenuated methamphetamine -triggered reinstatement of drug-seeking behavior in the reinstatement model of relapse. As with other drugs of abuse, the rewarding effects of methamphetamine are believed to be mediated by elevated levels of extracellular dopamine in the mesocorticolimbic system. The present study utilized in vivo microdialysis to examine the neurochemical mechanisms modulating the rewarding effects of methamphetamine actions evident in the various animal models of addiction. In the nucleus accumbens and ventral pallidum, acute methamphetamine (1.0 mg/kg, i.p.,) increased extracellular dopamine by 800 - 900% and decreased GABA by 60 – 65 % in the nucleus accumbens and ventral pallidum. Pretreatment with SB-277011A (12, 24 mg/kg) potentiated the methamphetamine induced dopamine increase but attenuated the methamphetamine-induced GABA decrease. Take together these data suggest that D3 selective antagonists’ pharmacotherapeutic potential in the treatment of methamphetamine addiction may involve a GABAergic mechanism.

Methamphetamine

Self-administration

Addiction

Dopamine 3

Microdialysis

Psychology, Psychobiology (0349)

Relationship between Preference for Opposite-sex Odour and Morphology of the Principal Nucleus of the Bed Nucleus of the Stria Terminalis

Charchuk, Derek

05 December 2011

The principal nucleus of the bed nucleus of the stria terminalis (BNSTp) is an integral component of the mouse accessory olfactory system, and plays a key role in pheromonal processing. In males, this region is not only larger and contains more neurons than in females, but the cells are also larger. The present study examined the relationship between preference for opposite-sex odour and regional volume, cell number and cell size within the BNSTp of both male and female mice. No correlations were found between olfactory preferences and any of the three morphological BNSTp parameters. However, the olfactory preference task results were not congruent with previous research. Therefore, it remains inconclusive whether relationships exist between olfactory preference behaviour and morphology of the BNSTp.

olfactory preferences

0349

Social Regulation of Adult Neurogenesis in a Eusocial Mammal

Peragine, Diana

09 December 2013

The present study examined social status and adult neurogenesis in the naked mole rat. These animals live in large colonies with a strict reproductive dominance hierarchy; one female and 1-3 males breed, while other members are subordinate and reproductively suppressed. We examined whether social status affects doublecortin (DCX; a marker for immature neurons) immunoreactivity in the dentate gyrus, piriform cortex (PCx), and basolateral amygdala (BLA) by comparing breeders to subordinates. We also examined subordinates removed from their colony and paired with opposite- or same-sex conspecifics for 6 months. Breeders had reduced DCX immunoreactivity in all areas, with BLA effects confined to females. Effects of housing condition were region-specific, with higher PCx DCX immunoreactivity observed in opposite- than same-sex paired subordinates regardless of gonadal status. The opposite pattern was observed in the BLA. Future work will clarify whether findings are attributable to status differences in stress, behavioural plasticity, or life stage.

basolateral amygdala

eusociality

hippocampus

neurogenesis

social behaviour

piriform cortex

0349

Oxytocin-immunoreactive Neurons in the Paraventricular Nucleus of the Hypothalamus in Hetercephalus glaber: A Quantitative Analysis

Mooney, Skyler

14 December 2011

The naked mole-rat (Heterocephalus glaber) demonstrates a strict social and reproductive hierarchy. Oxytocin (OXT) is a peptide hormone that acts both peripherally and centrally in the regulation of a number of sexual and social behaviours. The main area of central production of this peptide is the paraventricular nucleus of the hypothalamus (PVN). The present study characterized differences that exist in OXT neurons in this region. Breeders and subordinates from established colonies were sacrificed and brains were processed for OXT-immunoreactivity. Four further groups of paired animals underwent various social and hormonal manipulations (opposite-sex paired, same sex-paired, opposite-sex/gonadectomised paired, opposite-sex/vasectomized paired) and were also used for analysis. Results showed that subordinate naked mole-rats had significantly more OXT-immunoreactive neurons in the PVN than either breeders or paired animals that had been gonadectomised. However, no differences were found on measures of OXT cell volume. Possible functional significance of these differences is discussed.

oxytocin

naked mole-rat

Hetercephalus glaber

0349

Oxytocin-immunoreactive Neurons in the Paraventricular Nucleus of the Hypothalamus in Hetercephalus glaber: A Quantitative Analysis

Mooney, Skyler

14 December 2011

The naked mole-rat (Heterocephalus glaber) demonstrates a strict social and reproductive hierarchy. Oxytocin (OXT) is a peptide hormone that acts both peripherally and centrally in the regulation of a number of sexual and social behaviours. The main area of central production of this peptide is the paraventricular nucleus of the hypothalamus (PVN). The present study characterized differences that exist in OXT neurons in this region. Breeders and subordinates from established colonies were sacrificed and brains were processed for OXT-immunoreactivity. Four further groups of paired animals underwent various social and hormonal manipulations (opposite-sex paired, same sex-paired, opposite-sex/gonadectomised paired, opposite-sex/vasectomized paired) and were also used for analysis. Results showed that subordinate naked mole-rats had significantly more OXT-immunoreactive neurons in the PVN than either breeders or paired animals that had been gonadectomised. However, no differences were found on measures of OXT cell volume. Possible functional significance of these differences is discussed.

oxytocin

naked mole-rat

Hetercephalus glaber

0349

The Effects of Early Social Deprivation on Appetitive Motivation in Rats

Lomanowska, Anna

10 January 2012

Social interactions in early life influence the organization of neural and behavioural systems of developing mammalian young. Deprivation of social interactions with the primary caregiver and other immediate conspecifics (early social deprivation) has lasting consequences on behavioural functioning in later life. The purpose of this thesis was to investigate how early social deprivation affects the motivational aspects of behaviour in the context of appetitive stimuli. Rats were reared in complete isolation from the mother and litter using the method of artificial rearing (AR). Control rats were maternally reared (MR). In adulthood, rats were tested in a series of behavioural paradigms designed to assess the motivational impact of primary food reward and reward-related cues on food-seeking behaviour. AR increased the behavioural responsiveness of rats to the motivational impact of reward-related cues, but not to primary rewards themselves. Specifically, there were no significant effects of AR on food consumption or goal-directed instrumental responding for food. However, AR enhanced instrumental responding triggered by a previously conditioned reward cue. AR also increased the expression of approach behaviour towards a localizable conditioned reward cue and instrumental responding when the same cue was used as a reinforcer. An assessment of the mediating factors during development revealed that the lack of tactile stimulation normally received from the mother, but not sustained exposure to the stress hormone corticosterone, contributed to the long-term effects of AR. These findings represent a potential link between early-life social adversity and vulnerability to the development of problems with behavioural inhibition and attention in the presence of appetitive environmental cues.

social deprivation

motivation

artificial rearing

behavioural inhibition

0349

0384

0620