Your search keyword '"Stephenson, Eloise"' showing total 3 results

1. Understanding the ecology of Ross River virus; novel approaches and insights into non-human reservoirs

Author

McCallum, Hamish, Peel, Alison J, Jansen, Cassie C, Reid, Simon A, Herrero, Lara J, Stephenson, Eloise, McCallum, Hamish, Peel, Alison J, Jansen, Cassie C, Reid, Simon A, Herrero, Lara J, and Stephenson, Eloise

Abstract

Full Text, Thesis (PhD Doctorate), Doctor of Philosophy (PhD), School of Environment and Sc, Science, Environment, Engineering and Technology, Arboviruses contribute a significant burden to human and animal health. Circulation of arboviruses comprises three components; blood-sucking arthropods, vertebrate hosts, and viruses that can infect vertebrates and invertebrates. Interaction of these components is dependent on ecological factors (such as species distributions and climate), epidemiological factors (including vector and host immunity) and behavioural determinants (such as vector feeding host preference or host defensive behaviours). Identifying these drivers of disease emergence can be complicated but informs efforts to mitigate on-going circulation. This dissertation generates new perspectives on the transmission dynamics of Australia’s most common arbovirus, Ross River virus (RRV), with a particular focus on non-human reservoirs. Specifically, I (a) critically analysed current and historic knowledge for non-human reservoirs and vector feeding patterns, (b) examined the natural exposure of RRV in human, free-living and domestic vertebrate populations, and (c) assessed the vertebrate and vector community ecology across areas of varying human notification rates. I began by undertaking a systematic literature review (Chapter 2) assessing evidence for non-human reservoirs of RRV. This chapter synthesised published serological, virus isolation and experimental infection studies in light of the long-held dogma that marsupials are the primary reservoir of RRV. A key finding of this chapter was emerging evidence that placental mammals and birds were also capable of transmitting RRV to mosquito vectors, suggesting a broader reservoir potential than marsupials alone. To further assess the current and historic knowledge, a meta-analysis was performed on mosquito blood meal analysis studies (Chapter 3). It was evident from this chapter that Australian mosquitoes have highly varied feeding patterns which did not reflect their taxonomic classification or larval ecology. To understand the natural exposure of RRV in

Published

2019

2. Understanding the ecology of Ross River virus; novel approaches and insights into non-human reservoirs

Author

Stephenson, Eloise and Stephenson, Eloise

Abstract

Arboviruses contribute a significant burden to human and animal health. Circulation of arboviruses comprises three components; blood-sucking arthropods, vertebrate hosts, and viruses that can infect vertebrates and invertebrates. Interaction of these components is dependent on ecological factors (such as species distributions and climate), epidemiological factors (including vector and host immunity) and behavioural determinants (such as vector feeding host preference or host defensive behaviours). Identifying these drivers of disease emergence can be complicated but informs efforts to mitigate on-going circulation. This dissertation generates new perspectives on the transmission dynamics of Australia’s most common arbovirus, Ross River virus (RRV), with a particular focus on non-human reservoirs. Specifically, I (a) critically analysed current and historic knowledge for non-human reservoirs and vector feeding patterns, (b) examined the natural exposure of RRV in human, free-living and domestic vertebrate populations, and (c) assessed the vertebrate and vector community ecology across areas of varying human notification rates. I began by undertaking a systematic literature review (Chapter 2) assessing evidence for non-human reservoirs of RRV. This chapter synthesised published serological, virus isolation and experimental infection studies in light of the long-held dogma that marsupials are the primary reservoir of RRV. A key finding of this chapter was emerging evidence that placental mammals and birds were also capable of transmitting RRV to mosquito vectors, suggesting a broader reservoir potential than marsupials alone. To further assess the current and historic knowledge, a meta-analysis was performed on mosquito blood meal analysis studies (Chapter 3). It was evident from this chapter that Australian mosquitoes have highly varied feeding patterns which did not reflect their taxonomic classification or larval ecology. To understand the natural exposure of RRV in, Thesis (PhD Doctorate), Doctor of Philosophy (PhD), School of Environment and Sc, Science, Environment, Engineering and Technology, Full Text

Published

2019

3. Leptospirosis: An important zoonosis acquired through work, play and travel

Author

Lau, Colleen, Townell, Nicola, Stephenson, Eloise, Van den Berg, Debra, Craig, Scott, Lau, Colleen, Townell, Nicola, Stephenson, Eloise, Van den Berg, Debra, and Craig, Scott

Abstract

Background Leptospirosis is one of the most common zoonotic diseases worldwide. Infection occurs through contact with infected animals, or soil or water that has been contaminated by the urine of infected animals. Risk factors include occupational and recreational exposures, contact with floodwaters, and travel to areas with a high risk of leptospirosis, particularly tropical, developing countries. With climate change, flood-related outbreaks are becoming more common. Objective This article aims to improve awareness of leptospirosis, and provide an update for general practitioners on its epidemiology, risk factors, clinical presentation, laboratory diagnosis, management and prevention. Discussion Leptospirosis is sometimes misdiagnosed because clinical presentation can be non-specific and overlap with many other causes of acute febrile illnesses. In patients with risk factors for leptospirosis, a high index of clinical suspicion is important to ensure early diagnosis and treatment. Delays in treatment could increase the risk of severe complications, including pulmonary haemorrhage, acute renal failure and acute liver failure.

Published

2018