The ability of humans to detect and be aware of errors in behaviour is a fundamental aspect of human cognition. As the saying goes: "To Err Is Human". This project seeks to understand how individual differences in our genetic makeup contribute to our ability to detect and be aware of errors in our behaviour. Understanding the biological systems underpinning error monitoring may assist in the treatment of many psychiatric disorders which are marked by poor awareness of behaviour.
Next Generation Brain-Machine Interface: Minimally-Invasive Endovascular Stent-Electrode Array For Robotic Limb Control
Funder
National Health and Medical Research Council
Funding Amount
$1,735,574.00
Summary
Persons affected by quadriplegia and hemiplegia from stroke and spinal cord injury have few treatment options. Brain Machine Interfaces (BMIs) reconnect brain to a prosthetic limb, bypassing damaged nervous system. Our group has developed a BMI that can be implanted minimally-invasively, inside a blood vessel within the brain. We propose to evaluate this device in animal studies, and continue on to a human clinical trial pilot study. The aim is to restore mechanical control over the physical env ....Persons affected by quadriplegia and hemiplegia from stroke and spinal cord injury have few treatment options. Brain Machine Interfaces (BMIs) reconnect brain to a prosthetic limb, bypassing damaged nervous system. Our group has developed a BMI that can be implanted minimally-invasively, inside a blood vessel within the brain. We propose to evaluate this device in animal studies, and continue on to a human clinical trial pilot study. The aim is to restore mechanical control over the physical environment for a paralysed patient.Read moreRead less
We aim to predict neurodevelopmental disability in babies born very preterm, earlier and more accurately than currently possible, by identifying structural and functional connectivity features that correlate with clinical measures of motor and neurodevelopmental functions. To do this we will use brain magnetic resonance imaging (MRI), dense array electroencephalography (EEG) and structured clinical neurodevelopmental assessments to provide a cutting edge view of the state of brain development.