Perinatal Research Centre research

The Clinical Trials Unit (CTU) provides and maintains a sophisticated, efficient and internationally recognised quality perinatal clinical trials service with the RBWH. The unit is active in collaborative and original clinical research. Evidence based practice is key in modern healthcare. The Cochrane Collaboration is a repository of the highest quality evidence underpinning health care practices. The PRC is active in contributing to this collaboration across a variety of areas of expertise that encompass all the PRC groups. Protocols are developed and published with regular updates provided through systematic review of published material. Systematic reviews are utilised by health policy makers, clinicians, researchers and consumers to stay abreast of findings and provide the highest quality health care.

Current clinical trials

• A Study of the Impact of Treating Electrographic Seizures in Term or Near-Term Infants with Neonatal Encephalopathy (NEST).
• High-flow Nasal Cannulae as Post-extubation Respiratory Support in Premature Infants:  A CPAP Equivalent? (The HIPERSPACE Trial)
• PREBO Preterm Brain Outcomes– The aim of this project is to predict neurodevelopmental disability in babies born very preterm, earlier and more accurately than currently possible.
• PREBO-6 – nPrediction of childhood brain outcomes in infants born preterm using neonatal MRI and concurrent clinical biomarkers
• PEACH - Is early accumulation of fat and reduction in fat free mass in preterm infants associated with adverse cognitive or metabolic outcomes in childhood?
• Is ibuprofen associated with neuroprotection in the SGA infant? Neurodevelopmental outcomes at 2 years following ibuprofen treatment for patent ductus arteriosus in the preterm small for gestational age newborn: potential for neuroprotection

Contact

 Contact Professor Paul Colditz for further information relating to student projects in the above clinical trials.

The signal processing research and consultancy group (SPRC) undertakes fundamental research in time-frequency signal processing with biomedical applications, with particular application to neonatal seizure treatment and prevention, fetal movement detection and generally improving health outcomes.

Research activities

1) Development of time-frequency signal processing algorithms and techniques

• Design of reduced interference time-frequency distributions
• Algorithm design for the implementation of discrete time-frequency distributions
• Classification  of nonstationary signals in time-frequency and Doppler-lag domains
• Time-frequency array processing of multichannel data
• Design of optimal time-frequency matched filters
• Algorithms for instantaneous frequency estimation

Time Frequency Signal Analysis (TFSA) Matlab Toolbox

2) Biomedical applications

• Analysis of newborn EEG for abnormality detection and classification
  • Diagnostic and prognostic analysis of background and interictal EEG abnormalities
  • Newborn EEG seizure detection
• Newborn EEG source localization
• Multivariate brain connectivity analysis
• Fetal movement detection
• Data acquisition and labelling
• Preprocessing of biological signals for noise and artifact removal

Funding

In the past decade over $5 million of competitive research funding has been obtained for seizure detection in the newborn, newborn EEG simulation and fetal movement detection.

The Systems Physiology Research Group comprises two inter-related areas - body composition and preterm cardiovascular function. Dr Yvonne Eiby and Dr Barbara Lingwood are investigating the unique cardiovascular physiology of preterm neonates in order to rationally develop novel therapeutic strategies to improve cardiovascular function, and thus protect the developing brain. Dr Lingwood, Dr Eiby and A/Prof Donovan are also studying body composition in neonates with the aim of optimising nutrition and growth of infants in order to improve brain outcomes and reduce cardiometabolic risk.

Projects

Loss of blood volume at the capillary level contributes to poor outcomes for preterm infants