Abstract
Cronobacter species, in particular C. sakazakii, is an opportunistic bacterial pathogen implicated in the development of potentially debilitating illnesses in infants (<12months old). The combination of a poorly developed immune system and gut microbiota put infants at a higher risk of infection compared to other age groups. Probiotics and prebiotics are incorporated in powdered infant formula and, in addition to strengthening gut physiology and stimulating the growth of commensal gut microbiota, have proven antimicrobial capabilities. Postbiotics in the cell-free supernatant of a microbial culture are derived from probiotics and can also exert health benefits. Synbiotics, a mixture of probiotics and prebiotics, may provide further advantages as probiotics and gut commensals degrade prebiotics into short-chain fatty acids that can provide benefits to the host. Cell-culture and animal models have been widely used to study foodborne pathogens, but sophisticated gut models have been recently developed to better mimic the gut conditions, thus giving a more accurate representation of how various treatments can affect the survival and pathogenicity of foodborne pathogens. This review aims to summarize the current understanding on the connection between Cronobacter infections and infants, as well as highlight the potential efficacy of probiotics, prebiotics, and synbiotics in reducing invasive Cronobacter infections during early infancy.
Highlights
Cronobacter sakazakii has been implicated in the development of neonatal infections including necrotizing enterocolitis (NEC), bacteremia, and meningitis with mortality rates ranging from 40 to 80% for premature (
A probiotic strain should have the following characteristics to confer benefits to the host (Food and Agriculture Organization of the United Nations/World Health Organization, 2002; Hill et al, 2014; Nagpal et al, 2018; Binda et al, 2020; Kaur et al, 2021; Rastogi et al, 2021): (1) isolated from a human, (2) lacking in putative virulence genes, (3) sensitive to common antibiotics, (4) tolerant to GI conditions, (5) catalase-negative, (6) able to adhere to the intestinal epithelial membrane, (7) able to compete with native gut microbiota, and (8) able to directly or indirectly inhibit the growth and colonization of potentially pathogenic bacteria
Cronobacter can cause severe illness in infants, especially those who are premature or of low-birthweight. Due to their ubiquity and resilience, current preventative measures to control invasive Cronobacter infections during early infancy would benefit from alternative approaches to minimize any potential risks to infants
Summary
Cronobacter sakazakii has been implicated in the development of neonatal infections including necrotizing enterocolitis (NEC), bacteremia, and meningitis with mortality rates ranging from 40 to 80% for premature (
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