ag真人娱乐ag旗舰官网，do you have calluses on your feet? don't fear them, though. new research has revealed that foot calluses — thickened skin that forms naturally when one walks barefoot — have evolved to protect the feet and provide for comfortable walking in perhaps ways that shoes can't match.
unlike shoes, foot calluses offer protection without compromising sensitivity or gait, according to a study published in june online in the journal nature. shoes, in contrast, reduce sensitivity in the foot and alter the way that the impact forces transfer from the foot to joints higher up the leg.
the researchers — from institutes in the united states, germany and africa — stressed that their findings don't demonstrate that walking barefoot is healthier than walking in shoes. at its core, the study is about human evolution.
yet the fact that we have evolved to walk barefoot, and that barefoot walking is mechanically different from walking in shoes, may imply that going barefoot can impart certain long-term health benefits worth investigating, the researchers said.
"it is fun to figure out how our bodies evolved to function," said daniel lieberman, professor of human evolutionary biology at harvard university, who co-led the study. "the sensory benefits of being barefoot might have health implications, but these need to be studied."
for most of human's 200,000-year existence, we walked barefoot. the oldest discovered footwear dates to about 8,000 years ago, although there is indirect evidence of sandals and moccasins tens of thousands of years before this, the researchers said. cushioned shoes are even more recent — only about 300 years old.
because calluses are the evolutionary solution to protecting the foot, lieberman's team set out to assess how these formations might differ from shoes in maintaining grounding and comfort. their study examined the foot calluses of more than 100 adults, the majority from kenya. about half of the subjects walked barefoot most of the time, and half mostly wore shoes.
among the barefoot walkers, the thickness of the calluses did not dampen tactile sensitivity, or the ability of the foot to feel the sensation of the ground while walking. shoes, with their cushioned bottoms, clearly mute this sensation.
however, very thick calluses don't simply act like shoe cushions. the callus thickness can protect against heat or sharp objects, providing comfort and safety, like shoes can. but the sensory receptors in the foot that detect ground surface differences still transmit signals to the brain.
this uninhibited signal — that sensation of feeling the earth — may help the barefoot walker keep balance, strengthen muscles and create a stronger neural connections between the feet and the brain.
"we suggest children to walk barefoot on humid grass with the purpose to stimulate the afferents (nerves traveling to the brain) for developmental reasons," said thomas milani, a professorship of human locomotion at the technische universität chemnitz in germany, who co-led the study.
the researchers also found that walking in shoes softens the initial impact of the footstep but ultimately delivers more force to the joints compared with what is seen in thick-callused individuals. this, too, may have health implications for the knees and hips, something that should be studied, the researchers said.
paul zehr, a professor of kinesiology and neuroscience at the university of victoria, british columbia, canada, added that one of the study's limitations is that tactile sensitivity was assessed at rest, with a device that sent vibrations into the sole, and so these results may not necessarily hold true for walking.
barefoot walking isn't the best idea for everyone, despite its evolutionary basis. people with diabetes and peripheral neuropathy can wound their feet and not realize it. lieberman's team would like to investigate the practicality of wearing thin sandals or moccasins, which might allow for a lot of tactile stimulation compared to cushioned shoes but offer added protection from abrasions.
editor: shang zhen
intern: hu sile