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. 2024 Jun 27;24(1):1717.
doi: 10.1186/s12889-024-19158-6.

Integrated surveillance systems for antibiotic resistance in a One Health context: a scoping review

Léo Delpy  1   2   3 Chloe Clifford Astbury  4   5 Cécile Aenishaenslin  6   7 Arne Ruckert  8 Tarra L Penney  4   5 Mary Wiktorowicz  5   9 Mamadou Ciss  3 Ria Benko  10 Marion Bordier  11   12   13
Affiliations

Integrated surveillance systems for antibiotic resistance in a One Health context: a scoping review

Léo Delpy et al. BMC Public Health. .

Abstract

Background: Antibiotic resistance (ABR) has emerged as a major threat to health. Properly informed decisions to mitigate this threat require surveillance systems that integrate information on resistant bacteria and antibiotic use in humans, animals, and the environment, in line with the One Health concept. Despite a strong call for the implementation of such integrated surveillance systems, we still lack a comprehensive overview of existing organizational models for integrated surveillance of ABR. To address this gap, we conducted a scoping review to characterize existing integrated surveillance systems for ABR.

Methods: The literature review was conducted using the PRISMA guidelines. The selected integrated surveillance systems were assessed according to 39 variables related to their organization and functioning, the socio-economic and political characteristics of their implementation context, and the levels of integration reached, together with their related outcomes. We conducted two distinct, complementary analyses on the data extracted: a descriptive analysis to summarize the characteristics of the integrated surveillance systems, and a multiple-correspondence analysis (MCA) followed by a hierarchical cluster analysis (HCA) to identify potential typology for surveillance systems.

Results: The literature search identified a total of 1330 records. After the screening phase, 59 references were kept from which 14 integrated surveillance systems were identified. They all operate in high-income countries and vary in terms of integration, both at informational and structural levels. The different systems combine information from a wide range of populations and commodities -in the human, animal and environmental domains, collection points, drug-bacterium pairs, and rely on various diagnostic and surveillance strategies. A variable level of collaboration was found for the governance and/or operation of the surveillance activities. The outcomes of integration are poorly described and evidenced. The 14 surveillance systems can be grouped into four distinct clusters, characterized by integration level in the two dimensions. The level of resources and regulatory framework in place appeared to play a major role in the establishment and organization of integrated surveillance.

Conclusions: This study suggests that operationalization of integrated surveillance for ABR is still not well established at a global scale, especially in low and middle-income countries and that the surveillance scope is not broad enough to obtain a comprehensive understanding of the complex dynamics of ABR to appropriately inform mitigation measures. Further studies are needed to better characterize the various integration models for surveillance with regard to their implementation context and evaluate the outcome of these models.

Keywords: Antibiotic resistance; Integrated; One Health; Review; Surveillance.

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Conflict of interest statement

The authors declare no competing interests.

Figures

Fig. 1
Fig. 1
PRISMA-ScR flow chart describing the study selection process for the scoping review
Fig. 2
Fig. 2
Information and structural integration in surveillance systems for antibiotic resistance. The figure describes the integration in surveillance systems. In the central part, the two structural integration levels are represented: the governance level and the operational level (data collection and management, data analysis and interpretation, communication and dissemination). Each circle represents a sector (human health, animal health, environment) where information may be integrated in terms of populations and commodities, collection points, resistances to other microorganisms, bacteria categories, antibiotic usage and consumption
See this image and copyright information in PMC

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