'Tickling' the ear with a small electrical
current appears to rebalance the autonomic nervous system for over-55s,
potentially slowing down one of the effects of ageing, according to new
research.
Scientists found that a short daily therapy delivered for two weeks
led to both physiological and wellbeing improvements, including a better
quality of life, mood and sleep.
The therapy, called transcutaneous vagus nerve stimulation, delivers a
small, painless electrical current to the ear, which sends signals to
the body's nervous system through the vagus nerve.
The new research, conducted at the University of Leeds, suggests the
therapy may slow down an important effect associated with ageing.
This could help protect people from chronic diseases which we become
more prone to as we get older, such as high blood pressure, heart
disease and atrial fibrillation. The researchers, who published their
findings today in the journal Aging, suggest that the 'tickle'
therapy has the potential to help people age more healthily, by
recalibrating the body's internal control system.
Lead author Dr Beatrice Bretherton, from the School of Biomedical
Sciences at the University of Leeds, said: "The ear is like a gateway
through which we can tinker with the body's metabolic balance, without
the need for medication or invasive procedures. We believe these results
are just the tip of the iceberg.
"We are excited to investigate further into the effects and potential
long-term benefits of daily ear stimulation, as we have seen a great
response to the treatment so far."
The study was conducted by scientists from the University of Leeds and funded by the Dunhill Medical Trust.
What is the autonomic nervous system?
The autonomic nervous system controls many of the body's functions
which don't require conscious thought, such as digestion, breathing,
heart rate and blood pressure.
It contains two branches, the sympathetic and the parasympathetic,
which work against each other to maintain a healthy balance of activity.
The sympathetic branch helps the body prepare for high intensity
'fight or flight' activity, whilst the parasympathetic is crucial to low
intensity 'rest and digest' activity.
As we age, and when we are fighting diseases, the body's balance
changes such that the sympathetic branch begins to dominate. This
imbalance makes us more susceptible to new diseases and leads to the
breakdown of healthy bodily function as we get older.
Clinicians have long been interested in the potential for using
electrical currents to influence the nervous system. The vagus nerve,
the major nerve of the parasympathetic system, has often been used for
electrical stimulation and past research has looked at the possibility
of using vagus nerve stimulation to tackle depression, epilepsy,
obesity, stroke, tinnitus and heart conditions.
However, this kind of stimulation needs surgery to implant electrodes
in the neck region, with associated expense and a small risks of side
effects.
Fortunately, there is one small branch of the vagus nerve that can be
stimulated without surgery, located in the skin of specific parts of
the outer ear.
In Leeds, previous research has shown that applying a small
electrical stimulus to the vagus nerve at the ear, which some people
perceive as a tickling sensation, improves the balance of the autonomic
nervous system in healthy 30-year-olds.
Other researchers worldwide are now investigating if this
transcutaneous vagus nerve stimulation (tVNS) could provide a therapy
for conditions ranging from heart problems to mental health.
Diane Crossley, aged 70, from Leeds, took part in the study and
received the tVNS therapy for two weeks. She said: "I was happy to be a
participant in this really interesting study, it helped me with my
awareness of my own health.
"It was a fascinating project and I was proud to be part of it."
In their new study, scientists at the University of Leeds wanted to
see whether tVNS could benefit over 55-year-olds, who are more likely to
have out-of-balance autonomic systems that could contribute to health
issues associated with ageing.
They recruited 29 healthy volunteers, aged 55 or above, and gave each
of them the tVNS therapy for 15 minutes per day, over a two week
period. Participants were taught to self-administer the therapy at home
during the study.
The therapy led to an increase in parasympathetic activity and a
decrease in sympathetic activity, rebalancing the autonomic function
towards that associated with healthy function. In addition, some people
reported improvements in measures of mental health and sleeping
patterns.
Being able to correct this balance of activity could help us age more
healthily, as well as having the potential to help people with a
variety of disorders such as heart disease and some mental health
issues.
Additionally, improving the balance of the autonomic nervous system
lowers an individual's risk of death, as well as the need for medication
or hospital visits.
Researchers found that individuals who displayed the greatest
imbalance at the start of the study experienced the most pronounced
improvements after receiving the therapy.
They suggest that in future it may be possible to identify who is
most likely to benefit from the therapy, so it can be offered through a
targeted approach.
tVNS therapy has previously been shown to have positive psychological
effects for patients with depression, and this study shows it could
also have significant physiological benefits.
Dr Susan Deuchars, one of the senior authors on the study, said: "We
believe this stimulation can make a big difference to people's lives,
and we're now hoping to conduct further studies to see if tVNS can
benefit multiple disorders."
Further studies are now needed to understand what the long-term
health effects of tVNS might be, as this study involved a small number
of participants over a short time period.
Journal Reference:
- Beatrice Bretherton, Lucy Atkinson, Aaron Murray, Jennifer Clancy, Susan Deuchars, Jim Deuchars. Effects of transcutaneous vagus nerve stimulation in individuals aged 55 years or above: potential benefits of daily stimulation. Aging, 2019; DOI: 10.18632/aging.102074
Courtesy: ScienceDaily
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