Abstract
Donor human milk (HM) obtained at HM banks is exceptionally crucial for the feeding and treatment of preterm infants. Bacterial contaminations of HM in various stages of its handling are very common and can lead to disqualification of donations or severe infections in worse cases. Hence, HM donations are subject to strict bacteriological evaluations pre- and post-pasteurization. The main contaminating species vary between countries, banks and donors and even exhibit inter-individual variation. We initiated an assessment of the bacteriological composition of HM donated by women hospitalized in a neonatal intensive care unit in Israel. The most common bacterium identified was Staphylococcus epidermidis, found in all but one of the HM samples; the presence of several species of coagulase-negative Staphylococci was also noted. Next, we sought to develop a platform towards antibacterial treatment using Zn2+ ions that have recently been found to be potent against contaminants isolated from bovine milk. Zn2+ efficiently inhibited the growth of viable aerobic population and S. epidermidis in HM. Growth was also inhibited in other Gram-positive bacteria such as Bacillus cereus, a well-known food-borne pathogen. S. epidermidis and B. cereus cells grown in the presence of zinc were taken for microscopic evaluation, aiming to demonstrate zinc’s antimicrobial mode of action morphologically. Images obtained using scanning electron microscopy indicated leakage of cellular content and cell lysis in S. epidermidis. Besides, B. cereus cells showed abnormalities in their cell surface and complete loss of flagella upon treatment with zinc. Along with the above findings, it should be noted that this was a pilot study that tested how high doses of Zn2+ affect breast milk as a product. Further research is likely needed on the safety of consumption of Zn2+-treated HM in infants and older children.
Highlights
Exclusive human milk (HM) feeding for the first six months of life, with continued breastfeeding for one to two years or longer, is considered as the recommended standard for infant feeding [1]
13 strains were identified; S. epidermidis was the bacterial strain with the highest prevalence as it was present in out of the milk donations sampled. 16S rRNA sequencing results matched those received from the MALDI TOF assay
The ability of Zn2+ to mitigate microbial contaminations in HM was further tested against S. epidermidis and B. cereus
Summary
Exclusive human milk (HM) feeding for the first six months of life, with continued breastfeeding for one to two years or longer, is considered as the recommended standard for infant feeding [1]. The most recent policy statement from the American Academy of Pediatrics includes an explicit recommendation that all preterm infants should receive HM, with pasteurized donor HM being the preferred alternative in case the mother is unable to provide an adequate volume of milk [3]. The most vital benefits of this practice include decreased rates of late-onset sepsis and necrotizing enterocolitis (NEC) [4,5]. To offer these opportunities to preterm infants, HM should be obtained from milk banks. HM banks act to recruit and screen donors, collect and treat the milk donations (including bacteriologic screening, pasteurization and storage) and distribute the donated milk to the appropriate treatment units [6]
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