The composition and physico-chemical properties of human milk: A review

Abstract

BackgroundHuman milk is recommended as the optimal source of nutrition for babies up to six months of age, as it provides individualized, specific and abundant nutritional compounds, as well as immunological protection. Currently, there is wide interest in studying human milk because of this key role, as well as identification of biologically active compounds. In addition, human milk banks play an important role in supplying donor human milk to infants, especially premature infants, in hospitals, which involves processing and storage of such milk. Scope and approachThis review summarises recent studies on macronutrients in human milk, including their structure, levels, influencing factors, and contributions to the health benefits of infants. Physico-chemical properties of human milk are also reviewed, including pH, colour, stability of casein micelles, size and zeta-potential of fat globules, heat stability, freeze-thaw effect, dehydration and phase separation, and the impact of preservation processes on these. Key findings and conclusionsThe levels of human milk macronutrients and factors that influence these, such as lactation and gestational age, are ongoing research topics. Studies on physicochemical properties of some human milk components, such as caseins, are comparatively few, as research has mainly focused on bioactive peptides, milk fat globule membrane and human milk oligosaccharides. Processing and preservation are applied to human milk and the effects of these methods on the retention of human milk nutrients for use in human milk banks and hospitals must be considered. Some physico-chemical properties, such as milk pH, colour, and physical stability, may be possible indicators of milk quality.