Circumstances associated with the COVID-19 pandemic are affecting the whole Australian community.
12bet体育代理Solutions to protect our health and safety will come via ingenuity and innovative thinking across science, technology, engineering, mathematics, health, humanities, arts, and social sciences
Research from the University of Adelaide will ensure Australia’s response COVID-19 is smart and underpinned by the latest evidence. Here you will find examples of local ideas, experts, resources, infrastructure and facilities that are fast-tracking these efforts.
Adelaide Medical School, University of Adelaide/Basil Hetzel Institute (BHI)/Royal Adelaide Hospital
Mental health and wellbeing of working adults during Covid-19
An investigation to detect COVID19 in wastewater with qPCR.
Slowing the spread of the coronavirus is of utmost importance for Australians.
Helping lead Australia out of the COVID-19 pandemic.
3D Printing - Institute for Photonics and Advanced Sensing (IPAS)
3D printing is key to generate ventilator and face mask components as supply chains become disrupted. The University’s facilities and workshops can rapidly design and produce interim solutions that the health sector might require urgently, e.g. ventilator components or whole ventilators and face shields. The University has resources that are unique and which could be readily refocussed on addressing critical needs. We have a significant number of 3D printers, together with the required technical staff to support these operations.
12bet体育代理We welcome contact from health industries and service providers to understand the nature of the critical shortages in our supply chains and to guide efficient movement through the development, regulatory and testing stages.
IPAS Laboratory Manager
Adelaide Health Technology Assessment
Adelaide Health Technology Assessment (AHTA) undertakes comprehensive evidence-based assessments of health technology and interventions to inform policy and practice.
12bet体育代理AHTA work closely with the federal health department, and those in each state, assessing the suitability of health interventions, technologies and services for public funding by the health system. Highly detailed and evidence-based, our assessments consider four key factors: safety, efficacy, cost-effectiveness and ethics.
12bet体育代理AHTA also has significant health data, statistics and IT capabilities, enabling us to offer a full range of related services that includes:
- health care evaluation to inform policymakers as to which health care practices are safe, effective and good value for money
- critique of industry submissions seeking public funding of medicines
- assessment of new and emerging technologies
- review of services provided on the Medicare Benefits Schedule (MBS) to ensure they’re safe, effective and appropriately used, and represent value for money
- methodological research
- development of clinical practice guidelines
- study design and analysis services to enhance the handling and quality of research data informing clinical regulatory and reimbursement decision-making
- creation of web-based information systems for small-to-large-scale research projects
- creation of databases for complex datasets.
Adelaide Proteomics Centre (APC)
The (APC) facility provides a large range of established techniques for identifying proteins, quantifying changes in protein expression levels, and characterising post-translational modifications.
12bet体育代理The APC is equipped to provide expert services in mass spectrometry based protein identification, quantitation, characterisation of post-translational modifications, such as glycosylation and phosphorylation.
We also provide expert 2D DIGE characterisation of protein expression, N-terminal sequencing, and MALDI imaging mass spectrometry.
We can offer standard and custom services for proteomics, high throughput screening and quality control of small molecules to researchers and industry.
12bet体育代理If you would like to carry out any of our services, discuss the capabilities in further detail, including methodologies, or simply explore the possibilities available please contact us.
Animal model testing new ventilator designs
Wide experience in lung studies in animal models (mice, rats, ferret, sheep, pig, marmosets).
12bet体育代理Offering highly sensitive X-ray velocimetry FUNCTIONAL assessment of lung health (regional, detailed, throughout the breath cycle - 4Dx.com) from mice to large animals (< 45 Kg).
12bet体育代理Immediate testing ability in pigs of all sizes relevant to humans; currently to 50 Kg.
A/Prof David Parsons, PhD, FANZRS
Director | Cystic Fibrosis Airway Research Group
Australian Institute for Machine Learning (AIML)
Machine learning underpins the business models of the largest corporations and has the potential to deliver massive, social, economic and environmental benefits. Our world-class research strengths lie in machine learning and the methods that support this; artificial intelligence, computer vision and deep learning.
The Medical Machine Learning node involves the development of new algorithms and models which can then interpret medical data and improve clinical diagnosis and prognosis.
12bet体育代理Medical machine learning focuses on how computers learn from medical data, and is at the intersection of statistics, computer science and medicine. The marriage between the different fields is driven by the unique computational challenges of building statistical models from massive data sets, which can include billions or trillions of data points. Using these datasets, we can not only learn those tasks that healthcare professionals can already do well, but also learning those where physicians have had only limited success.
Medical machine learning algorithms are likely to comprehend an image or a complex medical dataset as well as humans and potentially lead to improved or new diagnoses. This is driven by the fact that many current systems assume that each condition exists in isolation and is identifiable in one data source. We believe that most conditions are only visible by bringing together multiple sources of information or specific patterns in this information.
Contact : email@example.com
Clinical Research Facility
12bet体育代理The University of Adelaide’s is a modern, controlled and secure multi-use research space in the heart of the BioMed City precinct.
The purpose-built facility offers a self-contained, flexible and safe environment to conduct commercial clinical trials and deliver high quality care for study participants.
Our expertise span a wide range of specialties and therapeutic areas, including gastroenterology, nutrition, endocrinology, pain, biological psychiatry and orthopaedics, with extensive experience in drug development and proof-of-concept.
The Clinical Research Facility is located on level 4 of the University of Adelaide’s state-of-the-art , situated alongside the Royal Adelaide Hospital, the South Australian Health and Medical Research Institute and the University’s medical and nursing schools.
Facilities and equipment
- On-site laboratory for sample processing and storage, with centrifuges and alarmed freezers
- 10 general purpose clinical research rooms
- Up to 14 beds arranged as single bedrooms (3-bed bays also available)
- 4 interview rooms
- Large gait laboratory for computerised gait analysis
- Gamma camera and radiopharmacy for gastric emptying studies
- Gastrointestinal manometry
- EEG for cognitive function testing
- Spacious shared patient waiting room and reception area
- Kitchen for patient food preparation
- Office area with hot desks
- Secure document storage
- Bathroom and shower facilities
- Equipment store
Partner with us
Talk to us about how our facilities and expertise can be tailored to suit your clinical research needs. Please contact:
, Director of Innovation
Faculty of Health and Medical Sciences, University of Adelaide
Telephone: (+61) 405 670 420 or (+61) 8 8313 0599
COVID-19 Patient Database
A collection of data sets made freely available to public health and policy researchers to extract insights for combatting the COVID-19 pandemic. The dataset is a pro-bono, cross-industry collaboration. Until now, researchers and policy-makers seeking to answer questions about the pandemic could only do research on fragmented data sets (such as the data set from a particular hospital), or to conduct long, prospective clinical trials, which makes it difficult to rapidly answer questions about the epidemiology and treatment of the disease. The COVID-19 research database is a consortium of institutions pooling their de-identified and limited pandemic-related data to allow researchers to more rapidly conduct studies at a large scale.
to access the database for research.
Grant Accelerator Team
The Grant Accelerator Team (GAT) provides support to the University’s research community for high-impact research.
12bet体育代理The team is responsive to opportunities as they arise, in addition to supporting the development of a continuous pipeline of funding opportunities that aligns to University priorities and plans.
GAT is pleased to offer specialist advice and information about Health and Medical research funding, including Australia’s newest health translation fund - the Medical Research Future Fund (MRFF).
Innovation and Commercial Partnerships
The Commercialisation team are ready to assist new COVID-19-associated disclosures and innovations, and prepared with different approaches to licensing given the immediate and urgent needs of our local, regional, and national communities.
Innovation & Commercial Partnerships
The University of Adelaide, AUSTRALIA 5005
Mob: +61 4 0723 4248
12bet体育代理 The Business Development team are also available to facilitate engagement between our research community and industry or government, and provide advice on pursuing contract research, consulting and tender opportunities.
Director, Business Development
T: +61 8 8313 4337
International COVID-19 Expert Database
The has been created to provide a mechanism for governments, the business sector, the research sector, and other decision-makers to easily access the expertise they need to inform their decision making.
Australia’s ability to navigate this fast-changing environment and to recover from it needs inputs from a range of researchers and other experts. All fields of expertise including: science, technology, engineering, mathematics, health, humanities, arts, and social science are included here.
If you are seeking expertise and new collaborators to accelerate your research addressing the national and global effort to tackle and recover from COVID-19, search the database. It may help you locate new partners across varied scientific, health, social, cultural and economic implications.
Microscopy & Microanalysis
Adelaide Microscopy is a facility funded by the National Collaborative Research Infrastructure Strategy (NCRIS) and offers access to a broad range of technologically advanced instrumentation for microscopy and microanalysis.
Adelaide Medical School offers histology services at competitive rates for both internal and external clients. Services include tissue preparation, embedding, sectioning, slide mounting, routine and special staining.
The MTEF enables expression of genes (plant or animal) in a cell system that can be robotically screened for various membrane transport activities and has applications in drug discovery and protein engineering.
The Phoenix High Performance Computing12bet体育代理 (HPC) service allows University researchers to improve time frames for analysis and processing of big data, increase complexity in models and simulations, and produce the best of innovative and collaborative research.
Improve research outcomes
- Accelerate problem solving using higher capacity computing solutions - reduce your run time from weeks to days.
- Explore bigger grids and parameters
- Reduce element size
- Increase complexity
- Simulate many more scenarios and variables than possible on your office PC
- Larger amounts of memory available for your research
Focus on research
- Better performance for less financial outlay
- No support or maintenance overhead
- Leverage your HPC research expertise using state-of-the-art equipment
For further information about the University of Adelaide's response to the COVID-19 outbreak, please refer to our COVID-19 website.
For further information about the impact of the COVID-19 outbreak on our current research projects and other frequently asked questions, please refer to our Research FAQs.