Exploring the brain mechanisms underlying hyperactivity in Attention-Deficit/Hyperactivity Disorder. Attention-deficit/Hyperactivity Disorder (AD/HD) is the most common psychiatric disorder affecting children, resulting in substantial costs (both human and financial) to the child, their family and Australian society. The outcomes of this project will provide a better foundation for understanding dysfunctional brain mechanisms in AD/HD, which is expected to lead to better diagnosis, treatment, an ....Exploring the brain mechanisms underlying hyperactivity in Attention-Deficit/Hyperactivity Disorder. Attention-deficit/Hyperactivity Disorder (AD/HD) is the most common psychiatric disorder affecting children, resulting in substantial costs (both human and financial) to the child, their family and Australian society. The outcomes of this project will provide a better foundation for understanding dysfunctional brain mechanisms in AD/HD, which is expected to lead to better diagnosis, treatment, and community support. Ultimately this will contribute to a healthy start to life for these children. This project will also demonstrate how an integrated Australian approach can lead the research agenda in both basic neuroscience, at the interface of psychology and physiology, and its applications in health.Read moreRead less
Validation of a New Conceptual Model of ADHD based on Underlying Central Nervous System Dysfunction. ADHD is a debilitating problem that affects 5% of children and approximately half as many adults. ADHD causes substantial problems at school and if untreated, predisposes the individual to increased drug and alcohol use, marital breakdown, criminal prosecution and psychiatric problems in later life. One problem is that we do not fully understand what are the causes of the disorder. This project w ....Validation of a New Conceptual Model of ADHD based on Underlying Central Nervous System Dysfunction. ADHD is a debilitating problem that affects 5% of children and approximately half as many adults. ADHD causes substantial problems at school and if untreated, predisposes the individual to increased drug and alcohol use, marital breakdown, criminal prosecution and psychiatric problems in later life. One problem is that we do not fully understand what are the causes of the disorder. This project will test the validity of several models of brain dysfunction in ADHD which have been influential in the literature, but poorly tested. Through better understanding of the basic underlying problems, more effective intervention can be developed.Read moreRead less
The role of context in the acquisition, extinction and reinstatement of fear. Behavioural studies have identified a role for context in the development, extinction and reactivation of fear memories. Although there has been significant progress in delineating the neural pathways for fear conditioning, less is known about the substrates that represent the context of conditioning. This project studies the neural substrates of the processes by which context controls the acquisition, extinction and r ....The role of context in the acquisition, extinction and reinstatement of fear. Behavioural studies have identified a role for context in the development, extinction and reactivation of fear memories. Although there has been significant progress in delineating the neural pathways for fear conditioning, less is known about the substrates that represent the context of conditioning. This project studies the neural substrates of the processes by which context controls the acquisition, extinction and reactivation of fear memories. Specifically, it examines the role of information flow between the dorsal subiculum and the accumbens nucleus in the processes by which rats learn about environmental context and the control exerted by such contexts on fear memories.Read moreRead less
Development of Central Nervous System Functioning in AD/HD: a Longitudinal Study. Attention-Deficit/Hyperactivity Disorder (AD/HD) is a debilitating problem affecting 5% of children. AD/HD causes substantial school problems and predisposes the child to drug and alcohol abuse, marital breakdown, criminal prosecution and psychiatric problems in later life. At present we know very little about the underlying causes of the behavioural changes seen in this disorder. This project will clarify the matu ....Development of Central Nervous System Functioning in AD/HD: a Longitudinal Study. Attention-Deficit/Hyperactivity Disorder (AD/HD) is a debilitating problem affecting 5% of children. AD/HD causes substantial school problems and predisposes the child to drug and alcohol abuse, marital breakdown, criminal prosecution and psychiatric problems in later life. At present we know very little about the underlying causes of the behavioural changes seen in this disorder. This project will clarify the maturational abnormalities in brain function that occur from childhood through to adulthood in this disorder. Better understanding of the normal developmental paths of this disorder will have major clinical benefits as it will allow the development of more optimal treatment plans for these children.Read moreRead less
Are there common mechanisms for the inhibition of fear? Disorders of fear and anxiety affect up to 28% of Australians across their lives. This project studies how the brain inhibits fear and anxiety. It has four National Benefits. First, the knowledge generated by this project will contribute to coherent theoretical accounts of fear inhibition. Second, it will increase Australia's competitiveness and reputation in experimental psychology and behavioural neuroscience. Third, it will provide novel ....Are there common mechanisms for the inhibition of fear? Disorders of fear and anxiety affect up to 28% of Australians across their lives. This project studies how the brain inhibits fear and anxiety. It has four National Benefits. First, the knowledge generated by this project will contribute to coherent theoretical accounts of fear inhibition. Second, it will increase Australia's competitiveness and reputation in experimental psychology and behavioural neuroscience. Third, it will provide novel insights into ways of reducing anxiety and fear among sufferers of clinical anxiety disorders. Finally, it will provide internationally competitive training opportunities for Australian students.
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The regulation of fear and attention: From genes to the brain to behaviour. Exposure to dangerous events elicits fear concomitant with attentional processing of environmental stimuli accompanying those events. However this fear and attention are typically inhibited so that they are restricted to dangerous events or stimuli which signal them. This project studies the role of endogenous opioids in the inhibition of fear and threat-related attention. It studies opioid inhibition in terms of its con ....The regulation of fear and attention: From genes to the brain to behaviour. Exposure to dangerous events elicits fear concomitant with attentional processing of environmental stimuli accompanying those events. However this fear and attention are typically inhibited so that they are restricted to dangerous events or stimuli which signal them. This project studies the role of endogenous opioids in the inhibition of fear and threat-related attention. It studies opioid inhibition in terms of its consequences for gene transcription, learning, and attention. It will provide the first integrated analysis of fear inhibition, from the level of the gene to the brain to behaviour. Thus, the project will provide significant insights into the biological complexity underpinning vulnerability to anxiety and fear.Read moreRead less
Predicting danger: The nature, consequences, and neural mechanisms of predictive fear learning. This project has four major national benefits. First, it addresses a fundamental scientific issue from a novel perspective to increase knowledge. By combining innovative approaches to study how the brain predicts danger, it will shed light on the relationship between brain and behaviour. Second, the project will contribute significantly to Australia's international competitiveness and reputation in ex ....Predicting danger: The nature, consequences, and neural mechanisms of predictive fear learning. This project has four major national benefits. First, it addresses a fundamental scientific issue from a novel perspective to increase knowledge. By combining innovative approaches to study how the brain predicts danger, it will shed light on the relationship between brain and behaviour. Second, the project will contribute significantly to Australia's international competitiveness and reputation in experimental psychology. Third, the knowledge generated by this project has the potential to improve the welfare of Australians by addressing an increasingly important health problem - anxiety. Finally, the project provides outstanding, internationally competitive, training opportunities for Australian students in Psychology.Read moreRead less
Towards a continuum model of orienting and defensive responses. Orienting (OR) and Defensive Responses (DR) underlie important survival functions of attending to unexpected stimuli and avoiding harm.We will establish the first integrative profile of human OR/DR function, using simultaneous recording of brain activity and 'body' responsivity. Given sex and age variation in OR/DRs, both males and females spanning six decades will be studied. OR/DR abnormalities are associated with major disorders ....Towards a continuum model of orienting and defensive responses. Orienting (OR) and Defensive Responses (DR) underlie important survival functions of attending to unexpected stimuli and avoiding harm.We will establish the first integrative profile of human OR/DR function, using simultaneous recording of brain activity and 'body' responsivity. Given sex and age variation in OR/DRs, both males and females spanning six decades will be studied. OR/DR abnormalities are associated with major disorders of attention and stress, which also vary with sex and age. We will examine relationships between OR/DR function and proneness to these disorders in healthy individuals. The results will provide a framework for developing prevention and intervention strategies.Read moreRead less
Central nervous system cytokines and morphine analgesia. Morphine remains the drug of choice for the management of moderate-to-severe pain, however its clinical effectiveness is compromised by the fact that morphine's analgesic (pain reducing) efficacy becomes less effective the more it is administered.. This project will examine how analgesic tolerance develops from a completely new approach: Namely, how stimulation of the immune system within the central nervous system is a crucial factor in t ....Central nervous system cytokines and morphine analgesia. Morphine remains the drug of choice for the management of moderate-to-severe pain, however its clinical effectiveness is compromised by the fact that morphine's analgesic (pain reducing) efficacy becomes less effective the more it is administered.. This project will examine how analgesic tolerance develops from a completely new approach: Namely, how stimulation of the immune system within the central nervous system is a crucial factor in the development of tolerance. Modulation of analgesia by the immune system has not been systematically studied and provides a potentially fertile ground for the development of new techniques in the management of clinical pain.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160101275
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Contribution of basal ganglia networks to the fine-tuning of action. This project aims to identify the changes occurring in specific brain circuits when new behaviours are learned. Our ability to perform efficient goal-directed actions involves a learning process in which separate movements are organised into sequences of action. This project aims to determine how this is encoded in the brain by mapping basal ganglia networks that are directly engaged during different stages of learning. This pr ....Contribution of basal ganglia networks to the fine-tuning of action. This project aims to identify the changes occurring in specific brain circuits when new behaviours are learned. Our ability to perform efficient goal-directed actions involves a learning process in which separate movements are organised into sequences of action. This project aims to determine how this is encoded in the brain by mapping basal ganglia networks that are directly engaged during different stages of learning. This project also seeks to identify specific neural circuits that are important for the refinement of action. The knowledge developed in this project is expected to support the development of training programs to instruct individuals in specialised tasks and may be used in the design of biologically inspired robots.Read moreRead less