Anti-PD 1 Brain Collaboration + Radiotherapy Extension: The ABC-X Study
Funder
National Health and Medical Research Council
Funding Amount
$1,010,141.00
Summary
The purpose of this research study is to determine whether administering radiotherapy to melanoma brain tumours, in combination with 2 drugs called nivolumab and ipilimumab(also known as Immunotherapy), will be more effective than treating brain tumours with immunotherapy. Patients in this trial will be randomly assigned to 1 of 2 treatment groups. Group 1 will receive radiotherapy to their melanoma brain lesion(s), combined with immunotherapy. Group 2 will receive immunotherapy treatment alone.
Molecular And Cellular Mechanisms Of Axon Growth And Guidance In The Vertebrate Nervous System
Funder
National Health and Medical Research Council
Funding Amount
$467,545.00
Summary
There are millions of nerve cells in the vertebrate brain, each forming very precise and specific connections within neural circuits. During development of the embryo most of these cells are wired together. A Telstra technician will use the different colours of telephone cables to correctly connect them. Likewise, the growing processes of nerve cells in the brain use specific markers or labels as cues to establish the correct wiring. The aim of the present project is to characterize the specific ....There are millions of nerve cells in the vertebrate brain, each forming very precise and specific connections within neural circuits. During development of the embryo most of these cells are wired together. A Telstra technician will use the different colours of telephone cables to correctly connect them. Likewise, the growing processes of nerve cells in the brain use specific markers or labels as cues to establish the correct wiring. The aim of the present project is to characterize the specific role of some of these labels on nerve cells during development. This project will provide new fundamental knowledge about how brain cells are wired together during development of the embryo. This knowledge is essential for establishing strategies to enhance repair of brain cells following ischemic, excitotoxic or mechanical injury.Read moreRead less
Developmental Plasticity In The Nonhuman Primate Visual Cortex
Funder
National Health and Medical Research Council
Funding Amount
$464,417.00
Summary
A phenomenon that has puzzled many for a number of years is why damage to the visual brain during infancy has far less of an impact on visual capacity than the same lesion suffered later in life. This project hopes to uncover this mystery and see how brain 'wiring' is altered to compensate.
Much of the human brain is devoted to vision, which requires the integrated activity of many interconnected areas of the cerebral cortex. Damage to these areas is a relatively common complication of preterm delivery and- or perinatal conditions including trauma and infection. The severity of both the short- and long-term effects of these lesions appears to be related to the time of the damage. The aim of this project is to investigate the way in which the multiple visual areas of the brain devel ....Much of the human brain is devoted to vision, which requires the integrated activity of many interconnected areas of the cerebral cortex. Damage to these areas is a relatively common complication of preterm delivery and- or perinatal conditions including trauma and infection. The severity of both the short- and long-term effects of these lesions appears to be related to the time of the damage. The aim of this project is to investigate the way in which the multiple visual areas of the brain develop and become 'wired' together in the period following birth. We will also determine if there are mechanisms which allow alternate routes to be found for processing visual information while the brain is still establishing connections between its multiple areas. This will allow us to understand the anatomical and physiological bases of the deficits caused by early damage to the visual areas of the brain, and perhaps point to strategies that will lead to improved recovery of visual function.Read moreRead less
Molecular And Cellular Changes Following A Cortical Injury: What Role Do They Play In Regeneration?
Funder
National Health and Medical Research Council
Funding Amount
$499,625.00
Summary
Damage to the visual areas of the brain is common after, for example stroke, neurotrauma or hypoxia. The injury often manifests in the form of a scar caused by a specific type of brain cell (astrocyte). This scar acts as a barrier to the cells which transmit information (neurones), preventing re-establishment of connectivity, thus functional recovery. We will see if we can reduce this scar and enhance re-connectivity after injury by blocking some of the molecules that brain cells express.
Mechanisms Of Lesion Localization In Multiple Sclerosis
Funder
National Health and Medical Research Council
Funding Amount
$411,228.00
Summary
Multiple sclerosis (MS) is a chronic disease that affects all areas of the brain and spinal cord (central nervous system or CNS), leading to a huge variety of clinical symptoms and signs, depending upon which parts of the CNS are affected. MS affects about 2 million people worldwide, with the onset of disease often between 20-40 years of age, at a time when family and work commitments are often at their peak. There is no cure for MS, and most people who develop this disease become more and more ....Multiple sclerosis (MS) is a chronic disease that affects all areas of the brain and spinal cord (central nervous system or CNS), leading to a huge variety of clinical symptoms and signs, depending upon which parts of the CNS are affected. MS affects about 2 million people worldwide, with the onset of disease often between 20-40 years of age, at a time when family and work commitments are often at their peak. There is no cure for MS, and most people who develop this disease become more and more disabled over their lifetime. MS is an autoimmune disease, i.e. one's own immune system starts to see the CNS as something foreign that needs to be targetted and eliminated. Previously, it has been considered that there are no particular reasons why people with MS develop lesions in the specific parts of the CNS that they do, i.e. it has been thought to be a fairly random event. However, we have recently shown that there are clear correlations between the development of lesions in some parts of the CNS, the particular molecules within the CNS that are being targetted by the immune system, and some genes that control the immune system that are carried by people with MS. The aim of the current study is to work out the mechanism(s) by which autoimmune reactivity targets lesions to different parts of the CNS. We will focus on one target molecule known as myelin proteolipid protein or PLP. People with MS who carry certain immune-related genes are more likely to have immune cells that target PLP, and our work strongly suggests that this subsequently leads to the development of lesions in the brainstem or cerebellum. This work has implications for disease pathogenesis, prognostication and therapy for MS, as a knowledge of patterns of autoimmune reactivity that lead to particular clinical outcomes will improve our ability to give people with MS an idea of they symptoms they might experience and allow specific therapies to be given to patients who will benefit most from them.Read moreRead less