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Review
. 2024 Dec;15(12):100295.
doi: 10.1016/j.advnut.2024.100295. Epub 2024 Nov 8.

Tracing Zinc's Role in Preterm Infants' Health: A Narrative Review

Alessandra Consales  1 Carlo Agostoni  2 Roberta Cazzola  3 Roberta Ottria  3 Maria Lorella Giannì  4
Affiliations
Review

Tracing Zinc's Role in Preterm Infants' Health: A Narrative Review

Alessandra Consales et al. Adv Nutr. 2024 Dec.

Abstract

Zinc (Zn) is a trace element involved in numerous physiological processes, including enzyme function, gene transcription, and cell signaling. Its importance is especially pronounced in preterm infants, who are at high risk of Zn deficiency due to disrupted transplacental transfer, high nutrient demands, and medical complications. The inherent risk of Zn deficiency in this population is further increased by poor Zn dietary intake. Human milk from preterm mothers contains low concentrations of Zn, although it is highly bioavailable. Additionally, the Zn content steadily declines from colostrum (first few days postpartum) to mature milk (>10-14 d postpartum). Formula milk contains higher Zn concentrations to compensate for nutrient losses during production and storage, and lower bioavailability compared with human milk, which is further decreased in case of high phytate content, such as in soy milk-based formulas. Zn supplements may prove useful in meeting the preterm infant's needs, although caution is warranted regarding potential interactions with other nutrients within multinutrient supplements. Early detection of Zn deficiency is challenging due to the lack of reliable Zn status biomarkers, necessitating a high index of suspicion. Clinical signs of Zn deficiency can range from mild, nonspecific symptoms to severe, multisystem involvement. Chronic deficiency may lead to failure to thrive. Zn supplementation can support growth and mitigate comorbidities in preterm infants, although variability across studies complicates efforts to establish optimal dosing, and define safety and long-term effects. Although rare, Zn toxicity in preterm infants should not be overlooked, especially in infants on long-term parenteral nutrition. This narrative review aimed to consolidate existing knowledge and identify research gaps, highlighting the critical role of Zn in supporting preterm infants' health. Further research is needed to establish evidence-based practices to improve health outcomes in this vulnerable population.

Keywords: human milk; micronutrients; parenteral nutrition; preterm infants; supplements; zinc.

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Figures

FIGURE 1
FIGURE 1
Graphical representation of the main causes that may lead to Zn deficiency in preterm infants.
See this image and copyright information in PMC

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