Annual Research & Review in Biology

Background: Human milk is recognized as the optimal nutrition for infants, and its composition is often presumed to be stable due to potent maternal homeostatic mechanisms. However, this paradigm is challenged by physiological evidence that milk components are derived from the mother's diet and endogenous stores. This review examines the dichotomy between the intrinsic stability and dietary dependence of human milk composition to inform public health policies in nutritionally precarious contexts such as Togo.

Objective: This review aims to synthesize current scientific evidence on the influence of maternal nutrition on the biochemical composition of human milk. The primary goal is to distinguish between biochemically stable and plastic components to evaluate the rationale for targeted nutritional interventions for lactating women in the Togolese public health context.

Methods: A narrative review was conducted using a systematic bibliographic search of the PubMed/MEDLINE, Scopus, Cochrane Library, and Google Scholar databases between January and March 2024. The search included studies published from 2000 to 2024 that quantitatively assessed the relationship between maternal diet or nutritional status and nutrient concentrations in human milk. Data were organized by nutrient category and a narrative synthesis was employed to identify patterns of stability versus variability.

Results: The evidence reveals a differential homeostasis in human milk composition. The concentrations of energy-providing macronutrients are remarkably stable and preserved even at the expense of maternal tissue reserves. In contrast, the qualitative aspects of milk are highly plastic. The fatty acid profile, particularly the content of docosahexaenoic acid (DHA), is directly correlated with maternal dietary intake. Micronutrient concentrations are also highly dependent on maternal status and are classified into two groups: Type I nutrients, which have low maternal storage and directly reflect recent intake, and Type II nutrients, for which maternal reserves can buffer short-term dietary inadequacy but are depleted by chronic deficiency. The presence of bioactive components and environmental contaminants in maternal milk necessitates investigation due to their potential impact on pediatric health.

Conclusion: The nutritional stability of human milk is a nuanced concept rather than an absolute state. While robust homeostasis maintains energy content, the quality of milkis markedly vulnerable to maternal dietary intake. This plasticity is a critical public health concern in regions like Togo. Therefore, policies must extend beyond promoting breastfeeding to include active, evidence-based nutritional support for lactating women to ensure milk provides its full biological potential.