12,285 results
Seafood CRC: wanted Dead or Alive: Novel Technologies for Measuring Infectious Norovirus Particles
Project number:
2011-726
Project Status:
Completed
Budget expenditure:
$37,401.80
Principal Investigator:
Valeria Torok
Organisation:
SARDI Food Safety and Innovation
Project start/end date:
14 Jun 2015
-
29 Jan 2016
Contact:
FRDC
Regulatory agencies in major seafood markets are increasingly requiring testing for viruses. Enforcement using current PCR methods has potential to cost Australian seafood businesses millions of dollars through trade disruptions and product detention. PCR methods have one serious drawback – they detect non infectious viruses of negligible human health consequence, resulting in the risk of “false positives”.
Norovirus cannot be cultured in cells, despite years of intensive effort; therefore we propose a different approach to resolving the problem. This proposal is to utilise existing knowledge about norovirus cell surface receptors to develop state-of-the-art optical sensing technology to better estimate the infectivity of noroviruses, thereby reducing risk of “false positives” and punitive regulatory action.
This demanding project brings together high calibre, internationally renowned scientists. People committed are:
Professor Tanya Monro (Director, Institute of Advanced Sensing) who recently won the SA Scientist of the Year award for creation of new tools and innovative solutions; and
Assoc. Prof. TuckWeng Kok and Dr Rod Ratcliff (SA Pathology), eminent virologists.
The new technology and international collaboration proposed, will create a platform to detect and effectively manage other viruses and foodborne hazards in seafood and other food, environmental and biological products – and has significant commercialisation potential.
This project is strongly supported by CRC participants, industry and regulators. It addresses Seafood CRC Output 2.2 ‘Diagnostic systems to assure seafood quality and integrity’, which needs greater effort for milestones (2.2.2. and 2.2.6) to be met.
1. Develop sensor surface functionality of the SPR technology to improve discrimination between infectious and non-infectious NoV viruses
Final report
ISBN:
978-1-876007-06-5
Authors:
Valeria A Torok
Kate Hodgson
Alison Turnbull and Catherine McLeod
Final Report
•
2017-04-01
•
1.73 MB
2011-726-DLD.pdf
Noroviruses are common causes of gastroenteritis in humans. As with all pathogens with an oral – faecal transmission path, food can easily become contaminated. Oysters in particular can become contaminated with norovirus due to effluent flows into estuaries. Hence, the importance of fast and accurate tests for the presence of norovirus in oysters is constantly increasing. Currently, testing for foodborne viruses are laboratory based molecular methods, which although sensitive, do not discriminate between infective and non-infective viral particles. Biosensors (biological sensors) may be able to overcome this barrier and might be suitable for real-time sensing and on-site monitoring. This project aimed to develop a functional biosensor for the detection of norovirus in shellfish.
Aquatic Animal Health Subprogram: enhancing the emergency disease response capability of Department of Fisheries and industry bodies associated with non-maxima oyster culture
Project number:
2002-668
Project Status:
Completed
Budget expenditure:
$26,871.00
Principal Investigator:
Brian Jones
Organisation:
Department of Primary Industries and Regional Development (DPIRD) WA
Project start/end date:
29 Nov 2002
-
30 Jun 2005
Contact:
FRDC
1. To examine and test the skills and abilities of the participants in group problem solving and decision making skills relating to emergency response procedures.
2. To increase participants knowledge of communication routes to be used in an emergency disease response by working through a scenario which mimics a real emergency situation.
3. To clearly define the roles within and between the various agencies involved and how they fit within the WA Emergency plan and AQUAPLAN frameworks.
4. To improve participants ability to mange tasks by prioritising a number of competing demands during the operational phase of an emergency response.
5. To increase participants understanding of the operational procedures in the Disease Emergency Response.
6. To familiarise participants with operational practices on a typical non maxima oyster lease.
7. To identify key areas for improvement in emergency management procedures across a range of subjects including planning, communication, staffing and resourcing.
8. To document an emergency response plan that can be implemented by industry stakeholders.
9. To familiarise AFFA staff with the problems inherent in managing disease in a remote location.
Final report
ISBN:
1-877098-27-2
Author:
Brian Jones
Final Report
•
2004-04-07
•
3.55 MB
2002-668-DLD.pdf
A two day disease emergency response workshop was held at Geraldton, Western Australia, in October 2002. The objective of the exercise was to test the industry and government response to a disease emergency among non-maxima pearl farms at the Abrolhos Islands. The exercise was coordinated by staff from the Commonwealth Department of Agriculture, Fisheries and Forestry Australia and involved regional and head office staff from the Western Australian Departments of Fisheries and Agriculture as well as industry representatives. During the two day exercise the participants worked through emergency scenarios as well as having to respond to unexpected obstacles proposed by the exercise coordinators.
The outcome of the exercise was the education of the participants in the operational procedures involved in a disease emergency response at the State level, an evaluation of the response with suggestions for improvements in emergency management planning, the documentation of an emergency management plan and input into the new Environmental Code of Practice for the industry.
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