11 results
Adoption
PROJECT NUMBER • 2002-651
PROJECT STATUS:
COMPLETED

Aquatic Animal Health Subprogram: whirling disease a disease strategy manual

Whirling disease is the disease of freshwater salmonid fish caused by the myxozoan parasite Myxobolus cerebralis. The parasite has never been detected in Australia, but is present in New Zealand and areas of North America, Europe, Africa and Asia. Whirling disease is a reportable disease in...
ORGANISATION:
Paul Hardy-Smith
Adoption
PROJECT NUMBER • 2002-640
PROJECT STATUS:
COMPLETED

Aquatic Animal health Subprogram: production of AQUAVETPLAN disease strategy manual for viral haemorrhagic septicaemia

In the May 2000 Budget, the Federal Government announced its Building a National Approach to Animal and Plant Health program. This initiative seeks to maintain Australia’s status as a sought after supplier of high quality, ‘clean, green’ agricultural produce. Within this...
ORGANISATION:
Department of Agriculture Fisheries and Forestry

TSGA-IPA: A five-year aquatic animal health R&D program for the Tasmanian salmonid aquaculture industry

Project number: 2019-164
Project Status:
Current
Budget expenditure: $6,913,273.00
Principal Investigator: Richard Morrison
Organisation: Department of Natural Resources and Environment Tasmania (NRE TAS)
Project start/end date: 4 Mar 2020 - 10 Apr 2025
Contact:
FRDC
SPECIES

Need

Commercial in confidence. To know more about this project please contact FRDC.

Objectives

Commercial in confidence

Minor use permit for erythromycin in finfish

Project number: 2021-027
Project Status:
Current
Budget expenditure: $95,000.00
Principal Investigator: Marty R. Deveney
Organisation: University of Adelaide
Project start/end date: 21 Oct 2021 - 30 Jul 2022
Contact:
FRDC

Need

There are no antimicrobials permitted or registered for use in finfish in Australia effective against gram positive bacteria (e.g. Streptococcus and Lactococcus). In finfish aquaculture, erythromycin (ERYC) is the best antimicrobial against gram positive organisms. The aquaculture industry and the Subcommittee for Aquatic Animal Health identified access to this product for finfinfish as a priority. Bacterial diseases are increasingly managed by eradication, maintenance of animals of specified health status, vaccination, and good hygiene, but antimicrobial therapy remains vital for treating bacterial diseases in finfish aquaculture. Appropriate use of antimicrobials can alleviate illness and suffering, improve welfare, increase speed of recovery, reduce spread of infection. Use of ERYC is not intended for prophylactic treatment, but as a tool for veterinarians to manage disease outbreaks. Use in South Australia, for example, is sporadic (~1 to 2 times per 3-5 years for a sector). The Aquaculture industry is committed to Australia's antimicrobial strategy, and as required by APVMA this proposal includes an antimicrobial resistance risk assessment. Available data for ERYC can satisfy the APVMA module requirements for efficacy, chemistry and manufacture, toxicology, trade and occupational health and safety. These are available in published literature, a range of industry studies of animals treated off-label and laboratory studies. There is a lack of data to satisfy the requirements mainly in the environment modules and the antimicrobial resistance risk assessment.

ERYC was ranked low by the Expert Advisory Group on Antimicrobial Assessment (EAGAR) as an antimicrobial for which there are a reasonable number of alternative agents in different classes available to treat most infections. Although it is listed on the WHO list of essential medicines, it is registered for use in cattle, pigs and sheep (APVMA #84160) and poultry (APVMA #50742) in Australia and the WHO list can be modified locally to suit the availability and sophistication of the animal and human health systems in WHO member countries. The APVMA PAA assessed ERYC as suitable for assessment for use in finfish.

Objectives

1. Obtain data to satisfy identified gaps and collate available data to satisfy requirements of minor use permit application.
2. Collate and submit minor use permit application.
Environment
PROJECT NUMBER • 2016-023
PROJECT STATUS:
COMPLETED

Sentinel sensors: revolutionising our understanding and management of the estuarine environment

This study, undertaken by CSIRO Oceans and Atmosphere, examines the usefulness of mussels as sentinels for environmental change using a novel biosensor. This project measured the vital signs of heart rate and behaviour in sentinel animals, as they respond to multiple and interacting changes in the...
ORGANISATION:
CSIRO Oceans and Atmosphere Hobart
Industry
PROJECT NUMBER • 1999-361
PROJECT STATUS:
COMPLETED

Development of a stock protection system for flexible oceanic pens containing finfish

This Project was funded by the Fisheries Research & Development Corporation(FRDC) for the “Development of a Stock Protection System for Flexible Oceanic Pens Containing Finfish“. The Project has been developed in conjunction with the Tasmanian Salmonid Growers Association(TSGA) &...
ORGANISATION:
Salmon Tasmania
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