Abstract
Synanthropic cockroaches, especially Blattella germanica and Periplaneta americana, are persistent pests of human dwellings, healthcare facilities, food establishments, farms, and transport infrastructure. Accumulating field and laboratory studies indicate that synanthropic cockroaches carry clinically important bacteria, fungi, and parasites, including multidrug-resistant strains harbouring extended-spectrum β-lactamase, carbapenemase, and other antimicrobial-resistant determinants. Cockroaches acquire these organisms from sewage, waste, food residues, animal excreta, and contaminated clinical environments, and retain them on the cuticle and within a complex gut microbiota. Dissemination is predominantly mechanical, via contact transfer and deposition of regurgitate and faeces on food, equipment, and surfaces, but may be amplified by gut colonisation, microbial interactions, and horizontal gene transfer within the cockroach microbiome. In hospitals, cockroaches can connect high-burden reservoirs (drains, waste areas, kitchens) with vulnerable units, including intensive care units (ICUs), neonatal intensive care units (NICUs), burn units, and haemato-oncology wards. In food and livestock systems, they may contaminate housing, ingredients, and finished products, enabling spillover along supply chains and at ports. This review synthesises current evidence and highlights the following priorities: integrate cockroaches into infection prevention, food safety, and biosecurity; incorporate cockroach sampling into antimicrobial resistance (AMR) and genomic surveillance; and advance mechanistic research on cockroach-microbiota-pathogen interactions to improve pest management and safely explore cockroach-derived antimicrobial compounds. In this review, we distinguish external mechanical carriage (cuticular contamination) from internal gut carriage; we use "gut colonisation" only when persistence/replication or prolonged shedding is demonstrated.