I am an orthopaedic surgeon and clinician-scientist based at Sydney’s largest children’s hospital. My goal is to improve treatments for children with traumatic injuries and bone deformity. I have worked in bone research for over 20 years. My current research interests are finding new treatments for drug-resistant bacterial infections, treating genetic bone disease, and developing new medical devices to help children’s bones grow straight.
Delayed bone healing can be a considerable problem in both children and adults. Up to 10% of fractures fail to heal properly. An advanced understanding of the cellular responses in bone repair and their manipulation could improve the lives of many patients with orthopaedic problems. These studies will advance out knowledge of interventions to promote bone healing which could be translated rapidly into clinical care.
Surgical Approaches To Improving Ear Health And Hearing
Funder
National Health and Medical Research Council
Funding Amount
$479,882.00
Summary
My vision is to advance ear and hearing health all Australians across three areas. The first is to ensure that patients receiving hearing-restoration operations with cochlear prostheses today have ears that will be ready to receive tomorrows molecular therapies. The second is a clinical trial to establish how best to treat Indigenous children burdened with otitis media and hearing loss. The third seeks to improve the quality of training in ear surgery through simulation.
Using Mouse Models To Identify Better Therapies For Acute Leukemia And Myelodysplasia
Funder
National Health and Medical Research Council
Summary
Despite great advances in the understanding of the genes that cause cancers of the blood, cure rates for patients with acute leukemia, or a more indolent form called myelodyspslaia, has not improved significantly over the last 20 years, with the majority of patients dying from resistant or recurrent disease within 5 years. Our research will use mouse models of acute leukemia and myelodysplasia to identify the critical genetic pathways that drive these diseases and to design and test new therapie ....Despite great advances in the understanding of the genes that cause cancers of the blood, cure rates for patients with acute leukemia, or a more indolent form called myelodyspslaia, has not improved significantly over the last 20 years, with the majority of patients dying from resistant or recurrent disease within 5 years. Our research will use mouse models of acute leukemia and myelodysplasia to identify the critical genetic pathways that drive these diseases and to design and test new therapies that can be taken into clinical trials.Read moreRead less