New infant formula ingredients boost babies’ immunity by feeding their gut bacteria
By Phyllis Picklesimer
Media/Communications Specialist, University of Illinois College of ACES News and Public Affairs
URBANA, Ill. — Adding prebiotic ingredients to infant formula helps colonize the newborn’s gut with a stable population of beneficial bacteria, and probiotics enhance immunity in formula-fed infants, two University of Illinois studies report.
“The beneficial bacteria that live in a baby’s intestine are all-important to an infant’s health, growth and ability to fight off infections,” said Kelly Tappenden, a U of I professor of nutrition and gastrointestinal physiology. “Breast-fed babies acquire this protection naturally. Formula-fed infants get sick more easily because the bacteria in their gut are always changing.”
The idea is to make formula more like breast milk by promoting the sorts of intestinal bacteria that live in breast-fed babies’ intestines, she added.
Prebiotics are carbohydrates that resist digestion by human enzymes and stimulate the growth and activity of beneficial bacteria in the gastrointestinal tract.
Probiotics are actual live bacteria that are beneficial to intestinal health, she said.
Infants have a special need for stimulation of their gut microbiota because they are born with a sterile intestine, Tappenden said.
“A strong, robust population of microbes in the gut provides colonization resistance, and pathogens can’t invade and infect an infant who has that resistance as easily,” she added.
The researchers compared the effects of feeding pre- and probiotics with infants fed breast milk and control formulas. They also compared the enhanced formulas’ effects in both vaginally and Caesarean-delivered babies.
“The probiotic formula significantly enhanced immunity in formula-fed infants,” Tappenden said.
Also, babies delivered by C-section had an especially improved immune response, an important finding because C-section babies are a more vulnerable group, she said.
Why? “Babies delivered naturally are exposed to the mother’s bacteria as they travel through the birth canal, and they develop a healthier population of gut bacteria as a result. Babies delivered by C-section enter a sterile environment, and their gut microbiota is quite different,” Tappenden noted.
In the probiotics study, scientists at five sites divided 172 healthy 6-week-old infants into two formula-fed groups and a breast-fed group. Beginning at six weeks of age, the formula-fed groups received either a control formula or a formula that contained the beneficial bacteria Bifidobacterium animalis subspecies lactis (Bb12) for a six-week period. The infants receiving the probiotic formula had increased concentrations of secretory, anti-rotavirus and anti-poliovirus-specific immunoglobulin A (IgA).
Fecal samples from babies receiving the probiotic formula revealed significantly heightened immunity, especially among Caesarian-delivered infants, Tappenden said.
Infants who consumed the formula containing the prebiotic ingredients also benefited. In that study, 139 healthy babies were divided into three groups. Breast-fed infants were compared with babies fed either a control formula or a formula supplemented with galacto- and fructo-oligosaccharides for six weeks.
Oligosaccharides, found in breast milk, contribute to the healthy population of bacteria found in the guts of breast-fed infants.
When fecal samples were tested, babies fed the prebiotic formula showed modest improvement in the number of beneficial bacteria and decreases in the types of bacteria that are often associated with illness.
Both articles were published in the January 2012 issue of the Journal of Parenteral and Enteral Nutrition. Co-authors of the probiotics paper are Hannah D. Holscher of the U of I; Laura A. Czerkies, Pamela Cekola, and José M. Saavedra of Nestlé Infant Nutrition; Richard Litov of Pedia Research; Marshall Benbow of Southwest Children’s Research Associates, San Antonio, Texas; Sheryl Santema of Scott & White Memorial Hospital in Temple, Texas; Dominik D. Alexander and Vanessa Perez of Exponent, Inc., Health Sciences Practice, Chicago; and Shumei Sun of Virginia Commonwealth University.
Co-authors of the prebiotics paper are Hannah D. Holscher and Kristin L. Faust of the U of I; Laura A. Czerkies of Nestlé Infant Nutrition; Richard Litov of Pedia Research; Ekhard D. Ziegler of the University of Iowa; Herschel Lessin of The Children’s Medical Group in Poughkeepsie, N.Y.; Terry Hatch of Carle Clinic in Urbana, Ill.; and Shumei Sun of Virginia Commonwealth University. Funding for both studies was provided by Nestlé Infant Nutrition.
From the March 7-13, 2012, issue
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