According to small, exploratory studies, teenage soccer players suffer more head hits during training, but have more severe head injuries during games. According to the scientists, the results can help develop methods to increase head shape protection in children’s football.

“Heading is an essential part of football. So it’s important to understand the differences in header frequency and size between exercise and gaming environments, ”said lead researcher Jillian Urban of the Wake Forest School of Medicine in Winston-Salem, NC

“Practices are easier to change than games. Therefore, it is crucial to understand how we can restructure the practice to reduce head impact exposure while teaching basic skills needed to practice the sport safely to improve head impact safety in sport ”, added Urban in a press release from the American Academy of Neurology.

When do young soccer players risk head injuries?

The players have to move quickly on the ground due to the game and such head injuries are quite common. However, in some cases, players have to suffer from injuries that can lead to problems with the brain and other parts. In most cases, players recover easily from such injuries, but in some cases it also results in players being hospitalized, which can result in them living the game as well.

Her research group followed 8 soccer players between the ages of 14 and 15 over two seasons. For all exercises and sports, each playmaker wore a customized mouthpiece sensor, and the scientists used a time-synchronized webcam to document all actions on the ground and identify head effects.

The study researchers kept a record of the number of hits each participant scored per hour and the time the soccer players spent doing various activities during practice sessions and games. The head shape levels varied depending on the activity from 0.5 per participant to 13.7 per player per hour.

Professional exercises such as hitting the foot, ball handling and dribbling are associated with a median of 13.7 head shape rates per participant hour. In practice, small-field games resulted in an average of 0.5 head collisions per participant and hour, while games resulted in 1.3 head hits per participant and hour.

The scientists also looked at the mean rotating head movement recorded by the scientists in radians per short sleeves. The occupational training had an average amplitude of 550 rad / s2, while the group engagement had a mean size of 910 rad / s2 and the sport had a mean intensity of 1,490 rad / s2.

The results would be discussed at the American College of Neurology’s Sports Concussion Conference July 30-31. Such work is considered preliminary until it is published in a peer-reviewed journal.

“If the goal is to reduce the number of head-butts a young football player takes on the field, our results suggest that the best way is to have technical training drills and their distribution within a season,” said Urban. “However, if the goal is to reduce the likelihood of players experiencing major head impacts, then it may be best to study the factors associated with large head impacts that can occur during scrimmages and games.”

Also read: MetaboFix Pro customer reviews

The aim of this research is to determine the frequency, risk, or relative likelihood of concussions in middle and high school players who have participated in a variety of sports. Concussion risk has been shown to be widespread in tall adolescents, women, those diagnosed with trauma, and those who did high-contact sports. The results highlight concerns about preventive methods and treatment for concussions in youth sports and instill confidence in brain trends in young athletes.