Hemodialysis vascular graft as a focus of persistent Q fever

Coxiella burnetii Femoro-Popliteal Bypass Infection: A Case Report

Cardiovascular infections are the most severe and potentially lethal among the persistent focalized Coxiella burnetii infections. While aortic infections on aneurysms or prostheses are well-known, with specific complications (risk of fatal rupture), new non-aortic vascular infections are increasingly being described thanks to the emerging use of 18-fluorodeoxyglucose positron emission tomography (18F-FDG PET-scan). Here, we describe an infection of a femoro-popliteal bypass that would not have been diagnosed without the use of PET-scan. It is well-known that vascular prosthetic material is a site favorable for bacterial persistence, but the description of unusual anatomical sites, outside the heart or aorta, should raise the clinicians' awareness and generalize the indications for PET-scan, with careful inclusion of the upper and lower limbs (not included in PET-scan for cancer), particularly in the presence of vascular prostheses. Future studies will be needed to precisely determine their optimal management.

Hip periprosthetic joint infection due to Coxiella burnetii in an adult male

Coxiella burnetii is an obligate intracellular Gram-negative bacterium. "Query fever" (Q fever) first described in 1939 is a disease caused by Coxiella burnetii. This bacterium infects animals including goats, sheep, and cattle, and has been recognized as a pathogen causing acute illness in humans. A patient living on a farm with a history of a right total hip arthroplasty presented with right hip pain. Arthrocentesis revealed a total nucleated count of 4288 (93% neutrophils), however his synovial fluid culture remained negative. His Q fever phase I IgG and phase II IgG were elevated at 1:4096 and 1:2048, respectively. He underwent incision and drainage with exchange of the femoral head and acetabular component, with retention of the femoral stem. PCR of tissue samples returned positive for Coxiella burnettii. He was diagnosed with a persistent localized prosthetic joint infection (PJI) of the right hip. Coxiella burnetii PJI is a rare but increasingly recognized form of persistent localized Q fever infection. Q fever should be considered in the differential diagnosis of culture-negative PJI, especially among patients with exposure to sheep, goats, or cattle. Initial screening for Coxiella burnetii includes serology, but tissue PCR and immunohistochemical staining may be obtained to confirm joint infection.

Coxiella burnetii vascular graft infection

Q fever, a zoonotic infection caused by Coxiella burnetii, can present with a wide spectrum of clinical manifestations. The organism is typically transmitted from sheep, goats, or cattle to humans via contaminated aerosols. On average, 1–5% of patients with acute Q fever will develop chronic infection months to decades after their primary infections. We report a case of a chronic vascular graft infection due to Coxiella burnetii in a 61-year-old man without direct exposure to animals who presented with recurrent fever. Indium-111-labeled white blood cell scan with single-emission positron computed tomography demonstrated findings suggesting a graft infection. C. burnetii phase I and phase II IgG antibody titers were > 1:32,768 and polymerase chain reaction performed on the explanted graft was positive for C. burnetii. Q fever should be considered in the differential diagnosis of vascular infections in patients who have a pre-existing lesion such as an aneurysm, or vascular prosthesis even in the absence of a history of direct animal exposure.

Vector-borne diseases and tourism in Iran: Current issues and recommendations

Iran is one of the largest countries in the Middle East with lots of historical and natural attractions. This country has always been considered to be one of the most important tourist destinations in the world. Several important vector-borne diseases have been reported from different parts of the country. Thus, having comprehensive and adequate knowledge about the main vector-borne diseases in Iran and their high-risk areas are really important. In this review, different provinces of Iran have been studied in terms of arthropod-borne diseases reported in the last decades. Reports indicated that some vector-borne diseases such as Leishmaniasis and CCHF had the highest incidence rate and they need serious attention. However, some diseases reported from Iran are not endemic, and all cases were imported such as Dengue fever. A group of arthropod-borne diseases was reported only from animals, and the health of travelers is not threatened such as Eyeworm infection.

Utility of positron emission tomography imaging in the diagnosis of chronic Q fever: A Systematic Review

Chronic Q fever is a diagnostic challenge. Diagnosis relies on serology and/or the detection of DNA from blood or tissue samples. PET-CT identifies tissues with increased glucose metabolism, thus identifying foci of inflammation. Our aim was to review the existing literature on the use of PET-CT to help diagnose chronic Q fever. A literature search was conducted in PubMed and Google Scholar to ascertain publications that included the terms 'Positron Emission Tomography' and 'PET CT' in combination with subheadings 'chronic Q fever' and 'Coxiella burnetii' within the search. To broaden our search retrieval, we used the terms 'chronic Q fever' and 'PET-CT'. Published literature up to 16^th April 2020 was included. 274 articles were initially identified. Post-exclusion criteria, 46 articles were included. Amongst case reports and series, the most frequent focus of infection was vascular, followed by musculoskeletal then cardiac. 79.5% of patients had a focus detected with 55.3% of these having proven infected prosthetic devices. Amongst the retrospective and prospective studies, a total of 394 positive sites of foci were identified with 186 negative cases. Some had follow-up scans (53), with 75.5% showing improvement or resolution. Average timeframe for documented radiological resolution post-initiating treatment was 8.86 months. PET-CT is a useful tool in the management of chronic Q fever. Knowledge of a precise focus enables for directed surgical management helping reduce microbial burden, preventing future complications. Radiological resolution of infection can give clinicians reassurance on whether antimicrobial therapy can be ceased earlier, potentially limiting side effects.

Current approaches for the detection of Coxiella burnetii infection in humans and animals

Q fever (coxiellosis), caused by Coxiella burnetii, is an emerging or re-emerging zoonotic disease of public health significance and with worldwide distribution. As a causal agent of the one among the 13 global priority zoonoses, having the infectious dose as low as one bacterium, C. burnetii has been regarded as an obligate intracellular bacterial pathogen. The agent has been classified as a Group B bioterrorism agent by the Centre for Disease Control and Prevention (CDC), and the disease is included in the World Organisation for Animal Health (OIE) list of notifiable diseases. It is mainly transmitted through airborne route in humans and animals. Isolation of C. burnetii, using standard routine laboratory culture techniques was impossible until formulation of axenic-based medium. However, it is still to be included among routinely isolated laboratory pathogen, accounting prolonged incubation period (~7 days) and requirement of specific oxygen concentration (2.5% O₂). Therefore, indirect diagnostic tools have been mainly used for its diagnosis. So far serology has been mostly used for testing for C. burnetii infection. The detection of C. burnetii DNA by PCR in various clinical samples have also been widely used. The disease has remained largely under-reported, underdiagnosed and as a masked zoonosis; and therefore, needs to be explored through well-planned scientific studies for knowing its true status and likely it impact in humans and animals by employing state-of-the-art diagnostics, identifying its diverse and new host range, as well as risk factors involved in different geo-climatic, behavioural and social settings as well as risk groups. Here, we reviewed the current approaches used for the detection of C. burnetii infection in humans and animals at the population and individual level.