G. Weers-Pothoff scite author profile

PurposeIn 2007, a large goat-farming-associated Q fever outbreak occurred in the Netherlands. Data on the clinical outcome of Dutch Q fever patients are lacking. The current advocated follow-up strategy includes serological follow-up to detect evolution to chronic disease and cardiac screening at baseline to identify and prophylactically treat Q fever patients in case of valvulopathy. However, serological follow-up using commercially available tests is complicated by the lack of validated cut-off values. Furthermore, cardiac screening in the setting of a large outbreak has not been implemented previously. Therefore, we report here the clinical outcome, serological follow-up and cardiac screening data of the Q fever patients of the current ongoing outbreak.MethodsThe implementation of a protocol including clinical and serological follow-up at baseline and 3, 6 and 12 months after acute Q fever and screening echocardiography at baseline.ResultsEighty-five patients with acute Q fever were identified (male 62%, female 38%). An aspecific, flu-like illness was the most common clinical presentation. Persistent symptoms after acute Q fever were reported by 59% of patients at 6 months and 30% at 12 months follow-up. We observed a typical serological response to Coxiella burnetii infection in both anti-phase I and anti-phase II IgG antibodies, with an increase in antibody titres up to 3 months and a subsequent decrease in the following 9 months. Screening echocardiography was available for 66 (78%) out of 85 Q fever patients. Cardiac valvulopathy was present in 39 (59%) patients. None of the 85 patients developed chronic Q fever.ConclusionsClinical, serological and echocardiographic data of the current ongoing Dutch Q fever outbreak cohort are presented. Screening echocardiography is no longer part of the standard work-up of Q fever patients in the Netherlands.

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Detailed analysis of health status of Q fever patients 1 year after the first Dutch outbreak: a case-control study

Limonard

Peters

Nabuurs-Franssen

et al. 2010

QJM

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Specific andSensitive Detection of Neisseria gonorrhoeae in ClinicalSpecimens by Real-Time PCR

et al. 2005

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Early diagnosis of Neisseria gonorrhoeae infections is important with regard to patients' health and infectivity. We report the development of a specific and sensitive TaqMan assay for the detection of N. gonorrhoeae in clinical samples. The target sequence is a 76-bp fragment of the 5 untranslated region of the opa genes that encode opacity proteins. A panel of 448 well-defined N. gonorrhoeae isolates was used to evaluate and optimize the assay. The method employs two minor-groove binding probes, one of them recognizing a newly identified sequence in the opa genes. Testing a large panel of related and unrelated microorganisms revealed that other Neisseria strains and other microorganisms tested negative in the opa test. With a lower detection limit of one genome per reaction, the opa test appeared more sensitive than both the COBAS AMPLICOR (Roche Diagnostics Nederland BV, Almere, The Netherlands) and a LightCycler 16S rRNA test. Analysis of a panel of 122 COBAS AMPLICOR-positive samples revealed that 68% were negative in both the 16S rRNA test and the opa assay (confirming that the COBAS AMPLICOR test produces false positives), while 30% were positive in both assays. Three samples were opa positive and 16S rRNA negative, which may be due to the higher sensitivity of the opa assay. We conclude that the opa gene-based real-time amplification assay offers a sensitive, specific, semiquantitative, and reliable assay suitable for the detection of N. gonorrhoeae in clinical specimens and/or for confirmation of less specific tests.

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Evaluation of a Diagnostic Algorithm for Acute Q Fever in an Outbreak Setting

Jager¹,

Weers-Pothoff²,

Hermans³

et al. 2011

Clin. Vaccine Immunol.

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In the peak of the 2009 Q fever outbreak in the Netherlands, we introduced a diagnostic algorithm for acute Q fever with an enzyme-linked immunosorbent assay for immunoglobulin M antibodies to Coxiella burnetii phase II antigens (MII screen) as an initial step. Subsequently, an immunofluorescence assay or PCR was performed depending on the MII screen outcome, date of onset of disease, and inpatient or outpatient setting. The impact of MII screen on the number of immunofluorescence assays performed and the contribution of PCR to diagnosis were retrospectively evaluated in 825 patients referred in a 17-day period. Acute Q fever was diagnosed in 256 patients. The introduction of MII screen reduced the number of immunofluorescence assays performed by more than 80%. In 103 patients, PCR analysis contributed to the diagnosis of acute Q fever. Q fever diagnostics were hampered by the fact that for a high number of patients the date of onset of disease was not provided and the requested follow-up serum samples were not received.

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Transmission of Hepatitis B Virus From a Surgeon to his Patients During High-Risk and Low-Risk Surgical Procedures During 4 Years

Spijkerman

Doorn

Janssen

et al. 2002

Infect. Control Hosp. Epidemiol.

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G. Weers-Pothoff

One-year follow-up of patients of the ongoing Dutch Q fever outbreak: clinical, serological and echocardiographic findings

Detailed analysis of health status of Q fever patients 1 year after the first Dutch outbreak: a case-control study

Specific andSensitive Detection of Neisseria gonorrhoeae in ClinicalSpecimens by Real-Time PCR

Evaluation of a Diagnostic Algorithm for Acute Q Fever in an Outbreak Setting

Transmission of Hepatitis B Virus From a Surgeon to his Patients During High-Risk and Low-Risk Surgical Procedures During 4 Years

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