Salmonella Pullorum: Now You See Me, Now You Don’t — The Paradox of Detection in Chicken Infection Models

Daniel Monte

Authors

Daniel Monte * Department of Population Health and Pathobiology, North Carolina State University, College of Veterinary Medicine, Raleigh, North Carolina, USA. dfarias@ncsu.edu

Keywords:

Salmonella Pullorum; host adaptation; intracellular persistence; detection limits; culture-negative infection; poultry disease; surveillance gaps; viable but non-culturable

Abstract

Salmonella enterica serovar Pullorum (S Pullorum) presents a persistent paradox in avian infection biology: chickens often display pathological, immunological, and serological evidence of infection while viable bacteria remain undetectable by conventional culture. This “now you see me, now you don’t” phenomenon reflects biological adaptation rather than experimental failure. As a host-restricted pathogen, S Pullorum has evolved toward intracellular persistence, reduced inflammatory stimulation, and limited shedding, enabling long-term survival at levels below routine detection thresholds. Consequently, culture negativity does not necessarily indicate bacterial clearance. Reliance on bacteriological recovery alone may therefore lead to misinterpretation of infection dynamics in experimental models and underestimation of silent reservoirs in surveillance systems. Recognizing the disconnect between detectability and persistence is essential for accurate interpretation of host–pathogen interactions and for designing diagnostic and surveillance strategies suited to stealth, host-adapted bacterial pathogens.

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Author Biography

Daniel Monte, Department of Population Health and Pathobiology, North Carolina State University, College of Veterinary Medicine, Raleigh, North Carolina, USA.

My research expertise revolves around investigating the prevalence of foodborne pathogens, with a specific focus on Salmonella, in various food sources and examining their transmission pathways along the food chain. In these surveys, we utilize genomic data from the isolated strains to study both canonical AMR markers and virulence genes, which play a crucial role in the evolutionary adaptation of bacteria, enabling their widespread dissemination in One Health framework.