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Home / Health / Horns grow on the skulls of young people. According to research results, the telephone use is to blame.

Horns grow on the skulls of young people. According to research results, the telephone use is to blame.




Mobile technology has changed our lives – as we read, work, communicate, shop and date. But we already know that.

What we have not yet understood is the way the tiny machines in front of us are reshaping our skeletons and possibly changing not only our behavior but our bodies as well.


Recent research in biomechanics suggests that young people develop horn-like spines on the back of the head – bone spurs caused by the forward tilt of the head, shifting the weight from the spine to the back of the head and causing bone growth in the tendon ligaments and ligaments , The weight shift that causes the build-up can be compared to the thickening of the skin to a callus in response to pressure or abrasion.

The result is a hook or horn-like feature that sticks out of the skull just above the neck. [19659015] Researchers at the University of the Sunshine Coast in Queensland, Australia, have documented the prevalence of bone spurs on the back of the head in young adults. Photo: Scientific Reports / The Washington Post “/>

Researchers at the University of the Sunshine Coast in Queensland, Australia, have documented the prevalence of bone spurs on the back of the head in young adults.

Researcher at the University of the USA Sunshine Coast, Queensland, Australia, has documented the prevalence of bone spurs at the back of the skull in young adults.


Photo: Scientific Reports


Photo: Scientific Reports

Researchers at the University of the Sunshine Coast in Queensland, Australia, have documented the prevalence of bone spurs on the back of the head in young adults.

Researchers at the University of the Sunshine Coast in Queensland, Australia, have documented the prevalence of bone spurs on the back of the head in young adults.



Photo: Scientific Reports


In scientific papers, two researchers from the University of the Sunshine Coast in Queensland, Australia, argued that the prevalence of bone growth in younger adults suggests a change in posture through the use of modern technology. It is said that smartphones and other handheld devices distort the human form and require users to bend their heads forward to understand what is happening on the miniature screens.


The researchers said that their discovery represents the first documentation of a physiological or skeletal adaptation to the penetration of advanced technology into everyday life.

Health experts warn against the "Texthals" and doctors have begun to treat the "text thumb", which is not a well-defined condition, but has similarity to the Carpal Tunnel Syndrome. However, previous research has not linked telephone use to bone-deep changes in the body.



"An important question is what future does the young adult population have in our study, if the development of a degenerative process at such an early stage becomes obvious stage of their lives?" Ask the authors in their latest article, in the peer-reviewed scientific reports from Nature Research on Open Access. The study came out last year, but has received new attention following the release of a BBC story last week, on how modern life is changing the human skeleton.

Since then, the unusual formations have attracted the attention of the Australian media and have been variously referred to as "headphones," "telephone bones," "spikes," or "strange bumps."


Any description is accurate, said David Shahar, the newspaper's lead author, a chiropractor who recently earned a PhD in biomechanics from the Sunshine Coast.

"Anyone can imagine that," he told the Washington Post. "You could say it looks like a bird's beak, a horn, a hook."

Whatever it is, the formation is a sign of serious posture deformity that can cause chronic headaches and upper pains in the back and neck.

One striking feature of her findings is the size of the bone spores, which are considered large at a length of 3 to 5 millimeters. An outgrowth was included in their research only if it was 10 millimeters or about two fifths of an inch.

The danger is not the horn itself, said Mark Sayers, an associate professor of biomechanics on the Sunshine Coast, who served as a Shahar supervisor and co-author. Rather, the formation is a "sign that something else is going on elsewhere, a sign that the head and neck are not in the right configuration," he told the Washington Post.

Her work began about three years ago with a pile of neck x-rays taken in Queensland. The images captured part of the skull, including the area where the bony prominences called enthesophytes form at the back of the head.

Contrary to the conventional understanding of the horn-like structures that were believed to occur rarely and mostly among them. In older people who suffered from prolonged stress, Shahar found that in younger subjects, including those who did not Symptoms showed were clearly visible.

In the couple's first publication, published in the 2016 Journal of Anatomy, a sample of 218 X-ray exposures of subjects aged 18 to 30 years suggests that bone growth is observed in 41 percent of young adults could, far more than previously thought. The feature was more common in males than females.

The effect – known as the enlarged outer back of the head head – used to be so unusual, Sayers said that one of his early observers had objected towards the end of the 19th century. His title argued that there was no real head start.

That is no longer the case.

Another publication, published in Spring 2018 in Clinical Biomechanics, used a case study in which four teenagers participated to argue that they were horns not caused by genetic factors or inflammation but to mechanical stress indicating the muscles in the skull and neck.

In the previous month's article Scientific Reports, a sample of 1,200 radiographs of volunteers was enlarged in Queensland at the age of 18 to 86 years. The researchers found that the size of bone growth that occurs in 33 percent of the population actually decreases with age. This discovery was in sharp contrast to the existing scientific evidence that the slow, degenerative process was associated with aging.

They found instead that the bone spurs were larger and more common in young people. To understand what drove the effect, they looked at recent developments – the circumstances in the last 10 or 20 years that changed the attitude of young people towards their bodies.

"These formations take a long time to develop. Englisch: bio-pro.de/en/region/stern/magazin/…3/index.html The strain that bones require to infiltrate the tendon He points to hand-held devices that move his head forward and down, and which require the use of the back of the skull to prevent the head from falling to his chest. "What happens to technology?" he said. "People are sedentary; They turn their heads to look at their devices. This requires an adjustment process to distribute the load. "

The fact that bone growth develops over a long period of time suggests that the posture can improve sustainably and even lessens the associated effects. [19659012] The answer is not necessarily to renounce technology, Sayers said, at least there are fewer drastic interventions.

"What we need are coping mechanisms that reflect how important technology has become in our lives," he said on dental hygiene Brushes and flossing were needed daily for body care, and schools should teach simple posture strategies, he said, and anyone using technology during the day should get used to recalibrating his posture at night

. a hand to the lower back of the head.Those who have the horn-like feature can do it probably feel.


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