Posts Tagged: milk
Got milk? Got a question about tsetse flies? Yes? Then you'll want to attend the Science Café presentation on Wednesday, June 7, when medical entomologist and tsetse expert Geoffrey Attardo of the UC Davis Department of Entomology and Nematology...
Medical entomologist Geoffrey Attardo with some of his images he displayed at the UC Davis Picnic Day. (Photo by Kathy Keatley Garvey)
When it comes to nursing moms and their babies, an elegant web of cause and effect connects climate, breast milk, gut microbes and infant health.
That web was clearly illustrated by a recently published study involving 33 women and their babies in the West African nation of The Gambia. The research team, including scientists from UC Davis and UC Agriculture and Natural Resources, found that complex breast milk sugars called oligosaccharides helped protect nursing babies from illness and also influenced the mixture of microbes in the infants' guts.
The researchers also showed that changes in food availability from season to season could affect the composition of the women's breast milk and the protective quality of the babies' gut microbiota. And those changes, in turn, impacted the health and growth of the breastfed infants.
Composition of breast-milk sugars and infant health
Oligosaccharides occur abundantly as more than 200 different chemical structures in human breast milk. It's been known for some time that these complex sugars contribute to infant health by supporting the growth of beneficial bacteria in the baby's gut. And these gut bacteria have been shown to play a key role in fending off infectious illnesses.
But little has been known about how changes in the composition of the breast milk sugars might affect the health and growth of infants, especially those living in areas where infection rates are high.
To explore that relationship, the researchers monitored the composition of the oligosaccharides in the mothers' milk and examined the infants' gut microbiota at 4 weeks, 16 weeks and 20 weeks after the babies were born. Then they analyzed the data, looking for possible relationships to the health and growth of the babies and the status of their gut microbes.
They found that two of the oligosaccharides, lacto-N-fucopentaose and 3′-sialyllactose, had a direct relationship to the babies' health and growth. High levels of the former were associated with a decrease in infant illness and with improved growth, measured as height for age, while the latter proved to be a good indicator of infant growth, measured by weight per age.
“Our findings provide evidence that specific human milk oligosaccharides can alter the composition of breast milk, making it more protective against infection and allowing the infant to invest energy in growth rather than fending off disease,” said the study's corresponding author Angela Zivkovic, an assistant professor of nutrition at UC Davis.
Influence of wet and dry seasons
The researchers also were curious how seasonal shifts in food availability, which significantly impact the mothers' diets, might be reflected in breast milk composition and infant health.
The Gambia has two distinct seasons, the wet season from July to October and the dry season from November to June.
The wet season is also known as the “hungry” season because it is the time of year when food supplies tend to be depleted, infection rates rise and the farming workload is highest. In contrast, the dry, or “harvest,” season is characterized by plentiful food supplies as well as significantly higher energy stores and less illness among the local people.
The researchers found that mothers who were nursing during the wet or “hungry” season produced significantly less oligosaccharide in their milk than did those nursing during the dry season.
In examining the makeup of the babies' gut microbiota, the researchers noted that most of the bacteria belonged to the Bifidobacteria genus. They also discovered that higher levels of Dialister and Prevotella bacteria were accompanied by lower levels of infection.
In addition, higher levels of Bacteroides bacteria were present in the infants' guts that had abnormal “calprotectin” – a biomarker associated with intestinal infections.
“We are very interested in which specific dietary factors influence the oligosaccharide composition of mother's milk,” Zivkovic said. “If we can find the mechanisms that change the composition of breast milk sugars, we may have a new approach for modifying the infant microbiota and ultimately influencing the health and vigor of the nursing baby.”
The study by Zivkovic and colleagues appears online in the journal Scientific Reports. The research is part of a long-running, cross-disciplinary project at UC Davis examining milk and its role in nutrition.
Funding for the study was provided by the National Institutes of Health, UK Medical Research Council, Bill and Melinda Gates Foundation, Alfred P. Sloan Foundation, and Peter J. Shields Endowed Chair in Dairy Food Science at UC Davis.
Stacked high in the back corner were bags of California pistachios – a reminder of how prominent a producer the Golden State is and a sign of the marketing power of its largest pistachio processor, Paramount Farms. The United States is the world’s leading pistachio producer, and 99 percent of the country’s crop comes from California.
Pistachios are California’s third-biggest nut crop, behind almonds and walnuts, and the state’s sixth-leading agricultural export, with markets spanning from Canada to China.
To help continue to improve production, the pistachio industry is turning to the University of California. In January, the California Pistachio Research Board announced it will donate $1.5 million to support a UC Cooperative Extension specialist to conduct nut and fruit disease research. This specialist position will help UC Agriculture and Natural Resources fulfill its mission as well as serve the pistachio industry’s needs.
UC research plays a key role in keeping California the nation’s leading agricultural state. Partnerships such as the one with the Pistachio Research Board – and previous ones with the California Rice Research Board and California Table Grape Commission – represent a new funding model to extend that role.
On the dairy side, California is known for happy cows; eastern Canada is known for bagged milk. Yes, milk is sold in bags of three, each 1.33 liters. My sister-in-law likes the bags because the packaging is more environmentally friendly than plastic jugs. You even can purchase specially designed pitchers for dispensing bagged milk. The key is cutting the tip of the bag properly, so it can pour smoothly – not too slow and not too fast. It’s an interesting concept, but a little messy. Will milk bags catch on in California? I think that will be a tough nut to crack.
There has been much talk about flavored milk in recent months, and much of this debate has been fueled by Jamie Oliver who has a popular television show, Jamie Oliver’s Food Revolution, on ABC. His goal is simple: "To revolutionize school lunches to save the health of America’s next generation." Oliver launched a “sugary milk campaign” back in April, 2011. The purpose of the campaign is to ask schools to promote plain white milk instead of flavored milks. According to Oliver’s website, “chocolate milk has the same amount of sugar as a soft drink and just one additional soft drink per day increases a child’s obesity risk by 60 percent and is a major contributor to Type 2 diabetes.”
Well before Oliver emerged on the scene, people have debated the merits of offering flavored milk in the school lunch program. Chocolate (the most common), strawberry, vanilla and other interesting flavors are widely available in districts across the country. The milk provides essential nutrients, but with that comes added sugars that contribute extra calories to the diet – something most American children do not need.
Is there a place for flavored milk on the school lunch tray?
According to the American Dietetic Association, the Dairy Council and other health and nutrition organizations – the answer is yes.
Supporters of flavored milk in schools argue that it provides nine essential nutrients – unlike sodas and other sweetened beverages that offer no nutritional benefit besides extra calories.
According to the American Dietetic Association, leading health and nutrition organizations (including the American Academy of Family Physicians, American Academy of Pediatrics, American Heart Association, National Hispanic Medical Association, National Medical Association and School Nutrition Association) recognize the role that low-fat or fat free milk (including flavored milk) plays in helping kids achieve daily dairy serving recommendations. According to the ADA, kids will drink more milk when it’s flavored and kids drink less milk (and get fewer nutrients) when flavored milk is taken away.
The Diary Council offers an overview for school nutrition professionals in favor of flavored milk on the lunch tray. The Dairy Council of California argues that we cannot forget flavored milk has both natural sugars (lactose) and added sugar, and the amount of high-fructose corn syrup added to flavored milk is much less than the amount added to sugary beverages like soda or other processed foods. Additionally, some studies suggest that kids who drink flavored milk are less likely to consume soda and other sugary beverages, they consume more nutrients and are more likely to maintain a healthy body weight.
Where does LAUSD, the school district placed at the center of this debate, stand?
The burning question we all want to know the answer to now is, will LAUSD students switch over to low fat or fat free plain milk when chocolate or strawberry milk is no longer available in the fall? The answer will be very interesting and perhaps will put an end to the great flavored milk debate!
A new winery, brewery and food-processing complex began operations this fall at UC Davis. Part of the Robert Mondavi Institute for Wine and Food Science, the technologically sophisticated facilities will be used to teach students, conduct research, and solve practical problems related to foods, beverages and health.
The south wing of the new complex is home to the August A. Busch III Brewing and Food Science Laboratory, which includes the brewery, general foods-processing plant and milk-processing laboratory. The complex’s north wing houses a new teaching-and-research winery. The complex is adjacent to a 12-acre teaching-and-research vineyard and across a courtyard from the departments of Food Science and Technology, and Viticulture and Enology.
The new $20 million, 34,000-square-foot complex, funded entirely by private donations, will be the first winery, brewery and/or food-processing facility to earn LEED Platinum certification, the highest environmental rating awarded by the U.S. Green Building Council. (LEED stands for Leadership in Energy and Environmental Design.)
Features include onsite solar power generation and a system for capturing rainwater and conserving processing water. Stored rainwater will be used for landscaping and toilets.
Other features include maximum use of natural light, food-processing equipment that minimizes energy and water requirements, use of recycled glass in flooring, interior paneling recycled from a 1928 wooden aqueduct, and use of sustainably certified lumber.
The new brewery will showcase the latest in brewing technology, as well as a sophisticated laboratory for conducting research and training students. It also provides commercial brewers and suppliers with a small-scale facility to test new recipes or processes.
The general foods- and milk-processing laboratories have been built to meet state and federal food- and dairy-grade standards. Products processed there will be used in sensory and nutritional evaluations.
Research in the food-processing pilot plant will examine alternative food-processing methods and their nutritional effects, nutritional quality and shelf life of fresh-cut fruits and vegetables, nutritional enhancements from food-processing “waste” products, and improved food formulations.
The milk-processing laboratory will support research on separation of milk components into functional ingredients, processing of milk modified by different feed rations, and processing of milk from cows bred for specific characteristics.
Dozens of private donors helped make the complex a reality, including a $5 million contribution from the late winemaker, Robert Mondavi, and a $5 million pledge by the Anheuser-Busch Foundation.
Other major donations were made by Ronald and Diane Miller and by a group of winery partners led by Jess Jackson and Barbara Banke of Kendall-Jackson Wines, and Jerry Lohr of J. Lohr Vineyards & Wines. The Department of Viticulture and Enology’s Board of Visitors and Fellows also made significant contributions.
California tomato processors and growers contributed more than $2.5 million to the food-processing pilot plant. Morning Star Packing Company provided a lead gift of $1 million for the food-processing plant. Hilmar Cheese Company also stepped up with a $250,000 pledge.
In all, more than 150 individuals, alumni, corporations and foundations contributed funds for the new winery, brewery and food-processing complex.
(Thanks to Patricia Bailey, UC Davis News Service, who provided content for this post.)
Learn more at http://greenrmi.ucdavis.edu.