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New research shows that chronic jet lag can cause
long-term brain changes that lead to memory and learning problems for at least
a month after return to a normal schedule
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As
expected, during the jet lag period, the hamsters had trouble learning simple
tasks that the hamsters in the control group aced. What surprised the
researchers was that these deficits persisted for a month after the hamsters
returned to a regular day-night schedule.
What's
more, the researchers discovered persistent changes in the brain, specifically
within the hippocampus, a part of the brain that plays an intricate role in
memory processing. They found that, compared to the hamsters in the control
group, the jet-lagged hamsters had only half the number of new neurons in the
hippocampus following the month long exposure to jet lag. New neurons are
constantly being added to the adult hippocampus and are thought to be important
for hippocampal-dependent learning, Kriegsfeld said, while memory problems are
associated with a drop in cell maturation in this brain structure.
"This
is the first time anyone has done a controlled trial of the effects of jet lag
on brain and memory function, and not only do we find that cognitive function
is impaired during the jet lag, but we see an impact up to a month
afterward," said Lance Kriegsfeld, UC Berkeley associate professor of
psychology and a member of the Helen Wills Neuroscience Institute. "What
this says is that, whether you are a flight attendant, medical resident, or
rotating shift worker, repeated disruption of circadian rhythms is likely going
to have a long-term impact on your cognitive behavior and function."
Kriegsfeld,
graduate student Erin M. Gibson and their colleagues reported their findings in
the online, open-access journal PLoS ONE.
"Other
studies have shown that chronic transmeridian flights increase deficits in
memory and learning along with atrophy in the brain's temporal lobe, suggesting
a possible hippocampal deficit," said Gibson. "Our study shows
directly that jet lag decreases neurogenesis in the hippocampus."
Jet
lag is a result of crossing several time zones in a short period of time, with
the worst effects occurring during eastward travel. Each of us has an internal,
24-hour clock that drives our so-called circadian rhythm, which is reset every
day by small amounts. When a person enters a time zone that is not synched with
his or her internal clock, it takes much longer to reset this daily rhythm,
causing jet lag until the internal clock gets re-synched.
This
acute disruption of circadian rhythms can cause general malaise as well as
gastrointestinal problems because the body's hunger cycle is out of sync with
meal times, Kriegsfeld said.
For
air travelers, jet lag is a minor annoyance from which most recover within a
few days, perhaps with the help of a melatonin pill. For people who repeatedly
cross time zones, such as flight attendants, the effects have been shown to be
more serious. Flight attendants and rotating shift workers -- people who
regularly alternate between day and night shifts -- have been found to have
learning and memory problems, decreased reaction times, higher incidences of
diabetes, heart disease, hypertension and cancer, and reduced fertility. The
World Health Organization lists shift work as a carcinogen.
To
date, these effects have been documented only in jet-lagged subjects, not after
recovery from jet lag, Gibson said. The UC Berkeley study is the first to look
at long-term effects as well as changes in brain anatomy.
"The
evidence is overwhelming that disruptions in circadian timing have a direct
impact on human health and disease," Kriegsfeld said. "We've now
shown that the effects are long-lasting, not only to brain function, but likely
to brain structure."
The
researchers used hamsters in their study because they are a classic model of
circadian rhythms. Their bodily rhythms are so precise, Kriegsfeld said, that
they will produce eggs, or ovulate, every 96 hours to within a window of a few
minutes.
Because
jet lag can increase stress hormones like cortisol and disrupt reproduction,
the researchers controlled for the effects of these by removing adrenal glands
or ovaries in some of the hamsters and injecting normal levels of hormone
supplements of corticosterone and estrogen, respectively. These hamsters showed
a similar reduction in new, mature hippocampal neurons in the brain.
"The
change was really dramatic and shows that the effect on behavior and the brain
is direct, not a secondary effect of increased stress hormones," Gibson
said. "They are not due to increased cortisol concentrations."
The
experiments also suggest that the low number of mature neurons in the
hippocampus in jet-lagged hamsters was not due to decreased production of new
cells, but rather, fewer new cells maturing into working cells, or perhaps new
cells dying prematurely. Further studies are planned to determine the root
cause of the reduction in mature neurons.
How
do you avoid jet lag problems? Kriegsfeld said that, in general, people should
allow one day of recovery for every one-hour time zone shift. Those, such as
night-shift workers, who cannot return to a normal day-night cycle should sleep
in a room with light-tight curtains shielded from outside noise in order to
properly adjust to an altered sleep schedule.
Other
authors of the paper are UC Berkeley undergraduate psychology students Connie
Wang, Stephanie Tjho and Neera Khattar.
The
work was supported by The Hellman Family Faculty Fund.
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