The Effectiveness of <i>Coxiella burnetii</i> Vaccines in Occupationally Exposed Populations: A Systematic Review and Meta‐Analysis

O’Neill, Tyler J.; Sargeant, Jan M.; Poljak, Zvonimir

doi:10.1111/zph.12054

Cited by 21 publications

(15 citation statements)

References 86 publications

(150 reference statements)

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“…There was variable risk of systematic bias in many studies, which is similar to findings reported by other recent SRs and MAs in the veterinary field (Mederos et al, 2012;Belo et al, 2013;Downes et al, 2013;O'Neill et al, 2013). Most of the observational studies included in this review had a high or unclear risk of selection bias, either because insufficient information on selection of the sample population was provided, or because a purposively selected sample was used.…”

Section: Discussionsupporting

confidence: 69%

A systematic review and meta-analysis of factors associated with anthelmintic resistance in sheep

Falzon

O’Neill

Menzies

et al. 2014

Preventive Veterinary Medicine

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Section: Discussionsupporting

confidence: 69%

A systematic review and meta-analysis of factors associated with anthelmintic resistance in sheep

Falzon

O’Neill

Menzies

et al. 2014

Preventive Veterinary Medicine

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“…The observation that there is more than 93% probability of staying free of Q fever infection for more than 20 years following vaccination is evidence of the high efficacy of Q-VAX ® and confirms the results of previous studies that did not have access to data from the Q fever Vaccination registry ). In addition, the hazard of Q fever infection in vaccinated individuals was 0.10 (95% CI: 0.05, 0.16) compared to unvaccinated individuals (i.e., vaccinated individuals were 90% less likely to be infected with Q fever) is consistent with study by O'Neill, et al (2014) which showed Q-VAX ® to be highly efficacious providing 93% protection (O'Neill, Sargeant & Poljak 2014). These efficacy estimates are also in keeping with a systematic review that determine that vaccine efficacy ranged between 83-100% (Chiu & Durrheim 2007).…”

Section: Discussionsupporting

confidence: 87%

“…Additional evidence has been provided in several previous studies on the effectiveness of the Q fever vaccine. For instance, up to 93.0% protective efficacy among abattoir workers was evidenced from a met-analysis (RR = 0.07; 95% CI: 0.02 -0.22) (O'Neill, Sargeant & Poljak 2014). Moreover, in the early study of the vaccine by Marmion et al (1984), around 2.5% (34 cases in 1349) incident cases of Q fever were reported in unvaccinated workers (Marmion, BP et al 1984).…”

Section: Discussionmentioning

confidence: 99%

“…Prevention of Q fever in Australia is through targeted immunization especially in those working in, or associated with the meat industry using the locally produced Q-VAX ® vaccine (Seqirus, Australia), which has high efficacy in adults (Marmion, BP et al 1984;Marmion, BP et al 1990). Q-VAX ® is reported to provide up to 93% immune protection (O'Neill, Sargeant & Poljak 2014) with long-lived immune responses to infection with C. burnetii . However, the incidence of Q fever in people working in the red meat industry remains relatively high.…”

Section: Introductionmentioning

confidence: 99%

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The epidemiology of Q fever in Queensland, Australia and effectiveness of vaccination for prevention

Woldeyohannes¹

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Q fever, caused by the small obligate intracellular, gram-negative pathogenic bacterium Coxiella burnetii, is primarily an occupationally-acquired zoonotic disease most commonly reported in people working in the livestock and meat industries who have direct or indirect contact with infected animals. The main preventive tool for Q fever is a vaccine (Q-VAX ® , Seqirus, Australia) that is recognised to be highly effective and providing long lasting protection. Its implementation requires pre-vaccination screening tests using serology and skin tests conducted in parallel. This is because the vaccine has more side effects in persons who have already had the disease Q fever, so testing for prior immunity is necessary before vaccination to avoid unwanted vaccine side effects. However, outbreaks of Q fever continue to be recorded in abattoirs and Q fever continues to be an important public health issue in Australia. The incidence of Q fever remains high especially in Queensland and New South Wales (NSW) though there is good evidence of improved Q fever control as a result of the implementation of the Q fever vaccination program. There is evidence that the Q fever vaccination has not been fully implemented because of the high incidence of Q fever among individuals targeted by past vaccination program.Therefore, this PhD thesis was mainly intended to assess the overall effectiveness of the Q fever vaccination program, and the associated Q fever notification and hospital admission rates, and the most risky exposures for the occurrence of Q fever in Queensland, Australia. Chapter 1 presents a literature review on Q fever at global and Australia levels. In chapter 2, I conducted a systematic review and meta-analysis on the seroprevalence of Q fever. Chapter 3 addresses estimation of vaccine failure rate and duration of immunity for Q fever using Cox proportional hazard model. I then explicitly addressed the accuracy of the Q fever pre-screening test using Bayesian latent class analysis in chapter 4. In chapter 5, I assessed the demographic and vaccination status factors associated with the incidence of Q fever infection using a case control design. In chapter 6, I modelled the rate of Q fever notification and hospitalization, and identified the associated factors using Poisson and Negative Binomial regression models. In chapter 7, I conducted a risk assessment using the enhanced Q fever exposure surveillance data using multiple correspondence analysis (MCA) technique. Finally, chapter eight highlight key findings, discuss them, and summarize the thesis.In summary, the results presented in this Thesis, address the knowledge gap regarding the incidence of Q fever in vaccinated individuals and the duration of immunity of the Q fever vaccine and the accuracy of the prescreening tests thereby addressing the overall effectiveness of the Q fever vaccination program and the resulting Q fever notification and admission rates in the Queensland. It presents evidence of the protective effect of being vaccinated using the Q fever vaccine...

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“…Individuals who reported receiving Q fever vaccine more than six weeks prior to the onset of the first case were deemed to be at low risk of infection 21 and were excluded from analysis. Risk ratios were calculated, comparing cases and non‐cases, for visiting the livestock area, cat impound and dog impound, and for specific workplace activities within these areas.…”

Section: Methodsmentioning

confidence: 99%

An outbreak of Q fever associated with parturient cat exposure at an animal refuge and veterinary clinic in southeast Queensland

Malo

Colbran

Young³

et al. 2018

Australian and New Zealand Journal of Public Health

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The Effectiveness of Coxiella burnetii Vaccines in Occupationally Exposed Populations: A Systematic Review and Meta‐Analysis

Cited by 21 publications

References 86 publications

A systematic review and meta-analysis of factors associated with anthelmintic resistance in sheep

A systematic review and meta-analysis of factors associated with anthelmintic resistance in sheep

The epidemiology of Q fever in Queensland, Australia and effectiveness of vaccination for prevention

An outbreak of Q fever associated with parturient cat exposure at an animal refuge and veterinary clinic in southeast Queensland

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