PHYSICISTS SOUND WARNING TO NAIL BEAUTY FANATICS
The daily trimming of
fingernails and toenails to make them more aesthetically pleasing could be
detrimental and potentially lead to serious nail conditions.
This is according to
researchers at the University of Nottingham who have devised equations to
identify the physical laws that govern nail growth, and used them to throw
light on the causes of some of the most common nail problems, such as ingrown
toe nails, spoon-shaped nails and pincer nails.
According to the
research, which has been published today, 17 October, in IOP Publishing's
journal Physical Biology, regular poor trimming can tip the fine
balance of nails, causing residual stress to occur across the entire nail.
This residual stress
can promote a change in shape or curvature of the nail over time which, in
turn, can lead to serious nail conditions.
Lead author of the
study Cyril Rauch said: "It is remarkable what some people are willing to
do to make their nails look good, and it is in this context that I decided to
look at what we really know about nails. Reading the scientific literature on
nails I quickly realised that very little physics or maths had been applied to
nails and their conditions."
"Looking at our
results, we suggest that nail beauty fanatics who trim their nails on a daily
basis opt for straight or parabolic edges, as otherwise they may amplify the
imbalance of stresses which could lead to a number of serious conditions."
In their study, the
researchers focused specifically on ingrown toe nails which, though recognised
for a long time, still lack a satisfactory treatment as the causes remain
largely unknown.
When devising their
equations, the researchers accounted for the strong adhesion of nails to their
bed through tiny, microscopic structures, which allow the nail to slide
forwards and grow in a "ratchet-like" fashion by continuously binding
and unbinding to the nail.
By also taking into
account the mechanical stresses and energies associated with the nail, the
researchers came up with an overall nail shape equation.
The equation showed
that when the balance between the growth stress and adhesive stress is broken
-- if a nail grows too quickly or slowly, or the number of adhesive structures
changes -- a residual stress across the entire nail can occur, causing it to
change shape over time.
The equations showed
that residual stress can occur in any fingernail or toenail; however, the
stress is greater for nails that are larger in size and have a flatter edge,
which explains why ingrown toe nails predominantly occur in the big toe.
Although a residual
stress can be brought about by age or a change in metabolic activity -- ingrown
toenails are often diagnosed in children and pregnant women -- the equations
also showed that bad trimming of the nails can amplify the residual stress.
Moving forward, Rauch
believes this research can be applied to farm animals and conditions associated
with their hooves, which can be life threatening.
"Animals such as
sheep, cattle, horses and ponies all suffer hugely from hoof conditions, which
can have direct effects on the human population. At a time when securing food
across the world is important, understanding the physics of hooves has never
been so essential to sustain agriculture and food production," Rauch
continued.
"I believe that
physics can make a difference by promoting a new type of evidence-based
veterinary medicine and help the veterinary and farrier communities by devising
trimming methods to alleviate pain and potentially remove the cause of serious
conditions."
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