MOTHER'S SOOTHING PRESENCE MAKES PAIN GO AWAY , CHANGES GENE ACTIVITY IN INFANTS BRAIN
A mother's
"TLC" not only can help soothe pain in infants, but it may also
impact early brain development by altering gene activity in a part of the brain
involved in emotions, according to new study from NYU Langone Medical Center.
By carefully analyzing
what genes were active in infant rat brains when the mother was present or not
present, the NYU researchers found that several hundred genes were more, or
less, active in rat infants experiencing pain than in those that were not. With
their mothers present, however, fewer than 100 genes were similarly expressed.
According to senior
study investigator and neurobiologist Regina Sullivan, PhD, who is scheduled to
present her team's findings at the Society for Neuroscience annual meeting in
Washington, D.C., on Nov. 18, the research is believed to be the first to show
the short-term effects of maternal caregiving in a distressed infant pup's
brain. The study was also designed to support her research into the long-term
consequences of differences in how mammals, including humans, are nurtured from
birth.
"Our study shows
that a mother comforting her infant in pain does not just elicit a behavioral
response, but also the comforting itself modifies -- for better or worse --
critical neural circuitry during early brain development," says Sullivan,
a professor at the NYU School of Medicine and its affiliated Nathan S. Kline
Institute for Psychiatric Research.
For the study,
researchers performed genetic analyses on tissue from the almond-sized amygdala
region of the infant rat pups' brains that is responsible for processing
emotions, such as fear and pleasure.
Sullivan, whose
earlier research showed how the mother's presence controlled electrical
signaling in the infant pup's brain, says her latest findings shed insight on
the complexity of treating pain in newborns.
"Nobody wants to
see an infant suffer, in rats or any other species," says Sullivan.
"But if opiate drugs are too dangerous to use in human infants because of
their addictive properties, then the challenge remains for researchers to find
alternative environmental stimuli, including maternal presence, coddling, or
other cues, such as a mother's scent, that could relieve the pain."
Sullivan cautions,
however, that the long-term consequences of these genetic modifications must
also be compared to the short-term benefits for tying pain stimuli during
infancy to such a powerful symbol of safety and security as the infant's
mother.
"The more we
learn about nurturing the infant brain during infancy, the better prepared we
are to deal long-term with treating problems that arise from pain, and physical
and mental abuse experienced during infancy," says Sullivan.
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