Thoracic manifestations of tularaemia: a case series.

BACKGROUND: Tularaemia is a zoonotic disease caused by Francisella tularensis, a highly virulent bacterium that affects humans and small wild animals. It is transmitted through direct contact with infected animals or indirectly through contaminated soil, water or arthropod bites (e.g. ticks). Primary thoracic manifestations of tularaemia are infrequent and, therefore, a diagnostic challenge for clinicians. METHODS: We report six tularaemia cases with exclusively thoracic involvement diagnosed in a clinic for pulmonary diseases in Bavaria between 10/2020 and 02/2022. RESULTS: All patients lived or were active in rural areas, four reported a recent tick bite. All patients presented with thoracic lymphadenopathy and pulmonary tumours or consolidations; all underwent bronchoscopy with EBUS-TBNA of lymph nodes, three lung biopsies as well. Five patients showed inflammatory changes in the endobronchial mucosa. The main histological findings were necrotic epithelioid granulomas with remarkable granulocyte infiltration. All cases were identified by positive serology, five by PCR (here identification of F.t. ssp. Holarctica) from biopsy as well. As first-line therapy, oral ciprofloxacin was given (5/6); in 2/6 cases, a combination of quinolone-rifampicin was given. CONCLUSIONS: Pulmonary tularaemia may occur after tick bites and without extrathoracic manifestations. In patients who present with thoracic lymphadenopathy and pulmonary consolidations and who are exposed to increased outdoor activities, tularaemia should be included in the diagnostic pathway. Histologically, the presence of neutrophil-granulocyte infiltrations might help to distinguish tularaemia from other granulomatous infections, e.g. tuberculosis. The combination of quinolone-rifampicin rather than i.v. gentamicin reduced length of hospital stay in two patients.

Burkholderia pseudomallei multi-centre study to establish EUCAST MIC and zone diameter distributions and epidemiological cut-off values.

OBJECTIVES: Melioidosis, caused by Burkholderia pseudomallei, requires intensive antimicrobial treatment. However, standardized antimicrobial susceptibility testing (AST) methodology based on modern principles for determining breakpoints and ascertaining performance of methods are lacking for B. pseudomallei. This study aimed to establish MIC and zone diameter distributions on which to set epidemiological cut-off (ECOFF) values for B. pseudomallei using standard EUCAST methodology for non-fastidious organisms. METHODS: Non-consecutive, non-duplicate clinical B. pseudomallei isolates (9-70 per centre) were tested at eight study centres against eight antimicrobials by broth microdilution (BMD) and the EUCAST disc diffusion method. Isolates without and with suspected resistance mechanisms were deliberately selected. The EUCAST Development Laboratory ensured the quality of study materials, and provided guidance on performance of the tests and interpretation of results. Aggregated results were analysed according to EUCAST recommendations to determine ECOFFs. RESULTS: MIC and zone diameter distributions were generated using BMD and disc diffusion results obtained for 361 B. pseudomallei isolates. MIC and zone diameter ECOFFs (mg/L; mm) were determined for amoxicillin-clavulanic acid (8; 22), ceftazidime (8; 22), imipenem (2; 29), meropenem (2; 26), doxycycline (2; none), tetracycline (8; 23), chloramphenicol (8; 22) and trimethoprim-sulfamethoxazole (4; 28). CONCLUSIONS: We have validated the use of standard BMD and disc diffusion methodology for AST of B. pseudomallei. The MIC and zone diameter distributions generated in this study allowed us to establish MIC and zone diameter ECOFFs for the antimicrobials studied. These ECOFFs served as background data for EUCAST to set clinical MIC and zone diameter breakpoints for B. pseudomallei.

Tick-Borne Encephalitis Virus Nonstructural Protein 1 IgG Enzyme-Linked Immunosorbent Assay for Differentiating Infection versus Vaccination Antibody Responses.

Tick-borne encephalitis virus (TBEV) is an important central nervous system (CNS) infection in Europe and Asia. It is a flavivirus in the tick-borne group. Effective vaccines against TBE are available in the affected countries. However, diagnosing TBE is challenging due to cross-reactive antibodies between different viruses of the genus Flavivirus, family Flaviviridae. Differentiation between infection-induced and vaccine-induced antibodies can be difficult and in many cases impossible, due to the increasing vaccination rate against TBEV. We present a new approach to detect antibodies against the TBEV nonstructural protein 1 (NS1) as a diagnostic marker, which is exclusively indicative for virus replication in natural infection, on the basis of an enzyme-linked immunosorbent assay (ELISA). A total of 188 anonymous serum samples from the National Consultant Laboratory for TBEV were included in our study. The assay was validated according to the European Laboratory Norm DIN EN ISO 15189 for diagnostic use. The ELISA for the detection of TBEV NS1 specific IgG class antibodies has demonstrated a sensitivity of >94% and a specificity of >93% in broadly cross-reacting sera from patients with vaccinations against flaviviral diseases and single or multiple flavivirus infections, respectively. The detection of anti-NS1 antibodies is feasible and facilitates reliable differentiation between different flavivirus infections, TBEV infection, and TBE vaccination.

A cluster of two human cases of tick-borne encephalitis (TBE) transmitted by unpasteurised goat milk and cheese in Germany, May 2016.

In May 2016, two cases of tick-borne encephalitis (TBE) were confirmed by serology (positive IgM and IgG antibodies against TBE virus (TBEV) in serum), with a possible link to raw milk and cheese from a goat farm in a region in Baden-Württemberg, Germany not previously known as TBE-endemic. The outbreak investigation identified 32 consumers of goat dairy products (29 consumers, one farm employee, two owners) of whom none had IgM antibodies against TBEV 3-8 weeks after consumption. Of the 27 notified TBE cases in the State, none reported consumption of raw goat milk or cheese from the suspected farm. Five of 22 cheese samples from 18 different batches were RT-qPCR-positive for TBEV -genome, and two of the five samples were confirmed by virus isolation, indicating viability of TBEV in the cheese. Nine of the 45 goats had neutralising TBEV antibodies, two of them with a high titre indicating recent infection. One of 412 Ixodes ricinus was RT-qPCR-positive, and sequencing of the E gene from nucleic acid extracted from the tick confirmed TBEV. Phylogenetic analyses of tick and cheese isolates showed 100% amino acid homology in the E gene and a close relation to TBEV strains from Switzerland and Austria.

[Exercise scenario of a highly contagious, life-threatening disease in intercontinental aviation : a case report in the context of the International Health Regulations (IHR)]. / Übungsszenario für eine hochkontagiöse, lebensbedrohliche Erkrankung in der interkontinentalen Personenluftfahrt : Eine Kasuistik vor dem Hintergrund der internationalen Gesundheitsvorschriften (IGV).

BACKGROUND: The International Health Regulations (IHR) 2005 were conformed to German law on July 20, 2007 and described in detail by the Implementing Act (IHR DG). According to these legal bases, "designated airports" must maintain special capacities for protection against health threats, and are also responsible for performing regular IHR exercises. OBJECTIVES: Representation of the optimization of established operational concepts of various professions to manage infectious biological threats without obstruction of international travel, and mediation of experience to IHR professionals. MATERIALS AND METHODS: An exercise based on the case scenario of a travel-related febrile illness was performed at Munich International Airport on November 11, 2013. Preparations took 6 months and the exercise itself lasted nearly 12 h. The follow-up lasted an additional 9 months. A qualitative and quantitative evaluation of the exercise was completed. RESULTS: From an Individual Medicine and Public Health perspective, modular work structures and risk communication functioned adequately. The medical examination of passengers was also well managed. Areas requiring further optimization included arrival/departure times of external actors, transport of the index patient to hospital and protective measures for individual participants. Overall, a defined biological threat scenario representing a double infection with two highly pathogenic germs was handled satisfactorily without affecting international air travel. CONCLUSIONS: Modular supply components are an effective and forward-looking means in protection against threats occurring at airports. Key success factors include sufficient staff mobility, immediate self-protection of actors involved, effective risk communication and a strong overall coordination and monitoring of the situation.