 Well, thanks very much. I'd like to thank the Brain Foundation for granting this opportunity with their generous gift. And I'd just like to echo something Professor Kianin said a little bit earlier about the Brain Foundation's role in encouraging clinical research in new frontiers and clinical research. And this project is really focusing on children with concussion and using non-invasive brain stimulation to promote brain-based recovery. And I thought it's important to set the scene. So for instance, do you know that concussion in children is the occurrence of concussion in children is actually higher than those in adults? In fact, over one in 10 children who present with a mild traumatic brain injury in an emergency care setting will develop persistent concussion systems up to four weeks after their injury. Symptoms in concussion are not dissimilar to those in adults. We often associate concussion with a forceful head knock suffered on the sporting field. That leads to having headaches or bouts of dizziness. But the aftermath of a concussion can cause increasing levels of fatigue, problems with sleep, increasing mood disorders such as anxiety problems, and a poorer capability to retain and learn information. What's a real gray area in pediatric concussion is how these problems affect a critical period of brain development. And currently, brain imaging methods and clinical assessment tools are not sensitive enough to detect the potential severity of the issue long term. And that leaves thousands of Australian children in a position where they suffer from a variety of problems described. It's therefore necessary that we investigate this very timely and advanced technique fashion. Our project utilizes two techniques to address this problem. The first technique is noninvasive brain stimulation, which is an emerging technique in both adults used in adults and in children. That is both safe and painless in its administration. The use of noninvasive brain stimulation as a therapy tool is primarily to repair and restore abnormal brain functions via promoting communication between brain regions. In adults, it's been used to treat for major depression and other mood disorders. And the use of this technique is now emerging in pediatric populations. Treatment via noninvasive brain stimulation is also relatively quick, with one session lasting no more than 10 minutes and a full treatment course covering between 10 to 20 sequential sessions. In our study, we will use noninvasive brain stimulation in 50 children, representing a very landmark trial in Australia to investigate whether this treatment can be used to be an established therapy model for children with concussion following presentation emergency. Now, the second technique of our project is brain connectivity. Now, brain connectivity is a measurement technique that assesses the strength of communication between brain regions. This technique has been commonly used to study neuropsychiatric conditions. But we'll use brain connectivity to measure the strength of connections between brain regions by recording brain activity using high-density electroencephalography, or EEG, and functional neuroimaging in an MRI machine. Brain connectivity will enable us to assess how these brain connections are repaired and restored following noninvasive brain stimulation. We hope that this pilot trial in pediatric concussion can identify which children are benefiting from noninvasive brain stimulation. Our investigator team, including Associate Professor Karen Barlow, who's in the audience here tonight, and is an expert in pediatric concussion. And Dr. Lukakocchi, another investigator who's a neuroimaging and brain connectivity expert, will help me investigate this area using the techniques described. We hope that this research not only enhances our understanding of brain functions following pediatric concussion, but more importantly, help us to develop what kind of targeted rehabilitation pathways that we can introduce to this most vulnerable population. Thank you.