Research by Arla Food for Health, a public-private research partnership between Arla Foods, Arla Foods Ingredients, University of Copenhagen and Aarhus University addresses dietary guidelines for type 2 diabetics.
It seems counterintuitive that breastmilk would be anything but sterile—human infants have a naïve and immature immune system and their first food should be free of potential pathogenic organisms, right? But study after study demonstrates that milk indeed contains microbes. Precisely where these microbes originate and how they make their way into human milk, however, is still being worked out. There are two, non-mutually exclusive hypotheses to explain their origins: one argues that milk microbes originate from the mother’s gut and are passed to the mammary gland (entero-mammary translocation) and the other that bacteria from the infant’s oral cavity move back into the mammary gland and influence the types and quantities of bacteria passed via milk (retrograde inoculation). Because not all milk microbes are equally beneficial for the infant, finding support for one or both of these hypotheses offers the potential of modifying the milk microbiome in ways that could improve infant outcomes.
Undernutrition is a pressing global health challenge and contributes to the deaths of more than three million children under the age of five every year. Children who are considerably shorter than the median for their age are defined as stunted, and so far, nutritional interventions have been mostly unsuccessful at reducing stunting.
Dairy foods are probably best known for their beneficial effects on bone health. But the same vitamins and minerals from dairy that help to build and maintain strong bones—calcium, phosphorus, magnesium, zinc, and riboflavin—may also have a positive influence on the symptoms of pre-menstrual syndrome (PMS). Expanding on previous research that found as association between increased calcium intake and decreased risk of PMS symptoms, a new paper from a team of Turkish researchers suggests the suite of micronutrients provided by dairy may be successful at alleviating both the emotional and physical symptoms of PMS.
When methane emissions that contribute to global warming are blamed on cows, they should, more precisely, be blamed on the microorganisms that live inside them. It stands to reason, therefore, that in seeking ways to reduce methane emissions from the dairy and beef industries, researchers’ primary target should be cows’ microbiomes. In line with this perspective, a group of researchers with teams in four countries recently carried out a detailed analysis of the microorganisms living in the rumens of different herds and breeds of cattle. These researchers have identified a population of bacteria, protozoa, anaerobic fungi and archaea that consistently form the core population of the rumen microbiome. By linking microbiome components to phenotypes such as methane emissions, they propose the establishment of microbiome-led breeding programs as a means to make livestock farming more climate-friendly.
Since inception in 2012, we have published an astonishing 93 issues featuring 372 articles on milk science in “SPLASH!â milk science update”, the scientific publication of the International Milk Genomics Consortium.
For some time, it has been known that women who have their first pregnancy in their twenties, who have many children, and who breastfeed for extended periods have a lower risk of developing breast cancer than other women. It has also been well-established that the link between breastfeeding and lower risk is strongest for triple-negative breast cancer, a particularly dangerous form of the disease. Until recently, however, science has been unable to explain why. In a series of experiments, researchers at the University of Manchester and the University of Edinburgh, in the UK, have now demonstrated that the production of a milk protein called alpha-casein confers protection in human cells.
Proteins in food often suffer from mistaken identity. Instead of being seen as the innocuous food items they are, immune systems instead take these proteins for harmful invaders and mount a response. To understand why some immune systems are sensitized to cow milk protein whereas others have an inappropriate reaction, researchers are turning to gut bacteria. In animal models and in humans, food allergies have been associated with a lack of diversity in gut bacteria species. And specific research on cow’s milk allergy (CMA) suggests that there might be particular species of gut bacteria that can prevent the development of allergy or allow for complete resolution of CMA in late infancy or early childhood.
Newborn babies lack a fully developed immune system, and the transfer of maternal antibodies and other immune molecules to babies via nursing is particularly important for early immune protection. However, it has so far been unclear whether maternal immune transfer might provide long-lasting immune protection that continues beyond when babies are nursing.
Often, dietary advice is given from singular perspectives. Public health professionals consider nutritional benefits first and foremost. Climate activists, concerned with the carbon footprints of modern lives, frequently lobby for vegetarianism. Few studies have sought to balance these, as well as other potentially competing demands. Yet, the United Nations’ Sustainable Development Goals (SDGs) require balance. They aim for both sustainable consumption patterns (Goal 12), and ending all forms of hunger and malnutrition by 2030 (Goal 2).