Tracking the Source of Human Q Fever from a Southern French Village: Sentinel Animals and Environmental Reservoir

Overview

Journal Microorganisms

Specialty Microbiology

Date 2023 Apr 28

PMID 37110439

Authors

Younes Laidoudi

Elodie Rousset

Anne-Sophie Dessimoulie

Myriam Prigent

Alizee Raptopoulo

Quentin Huteau

Elisabeth Chabbert

Catherine Navarro

Pierre-Edouard Fournier

Bernard Davoust

Affiliations

Soon will be listed here.

Abstract

, also known as the causal agent of Q fever, is a zoonotic pathogen infecting humans and several animal species. Here, we investigated the epidemiological context of from an area in the Hérault department in southern France, using the One Health paradigm. In total, 13 human cases of Q fever were diagnosed over the last three years in an area comprising four villages. Serological and molecular investigations conducted on the representative animal population, as well as wind data, indicated that some of the recent cases are likely to have originated from a sheepfold, which revealed bacterial contamination and a seroprevalence of 47.6%. However, the clear-cut origin of human cases cannot be ruled out in the absence of molecular data from the patients. Multi-spacer typing based on dual barcoding nanopore sequencing highlighted the occurrence of a new genotype of . In addition, the environmental contamination appeared to be widespread across a perimeter of 6 km due to local wind activity, according to the seroprevalence detected in dogs (12.6%) and horses (8.49%) in the surrounding populations. These findings were helpful in describing the extent of the exposed area and thus supporting the use of dogs and horses as valuable sentinel indicators for monitoring Q fever. The present data clearly highlighted that the epidemiological surveillance of Q fever should be reinforced and improved.

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