Football players who 'head' the ball with high frequency demonstrate poorer performance on memory tests and have brain abnormalities similar to those found in traumatic brain injury patients, according to a study published online in the journal Radiology.
"We chose to study soccer players, because soccer is the most popular sport worldwide," said Michael L. Lipton, M.D., Ph.D., associate director of the Gruss Magnetic Resonance Research Center at the Albert Einstein College of Medicine and medical director of MRI at Montefiore Medical Center in New York City. "It is widely played by people of all ages, including children, and there is significant concern that that heading the ball—a key component of soccer—might cause damage to th
Heading, in which players field the soccer ball with their head, is an essential part of the game. Players head the ball, on average, six to 12 times during competitive games, where balls can travel at velocities of 50 miles per hour or more. During practice sessions, heading drills, where the ball is headed repeatedly up to 30 or more times, are commonplace.
Recently, the lasting effects of concussion have received widespread attention and caused growing concern among amateur and professional athletes and organizations involved in several sports. While heading may be a cause of concussion and post-concussive symptoms, studies indicate that this is not common. The clinical significance of subconcussive heading as a cause of brain injury, however, remains largely unexplored.
"Heading a soccer ball is not an impact of a magnitude that will lacerate nerve fibers in the brain," Dr. Lipton said. "But repetitive heading could set off a cascade of responses that can lead to degeneration of brain cells over time."
Diffusion tensor imaging (DTI), an advanced MRI technique, allows researchers to assess microscopic changes in connecting various regions of the brain. DTI produces a measurement, called fractional anisotropy (FA), which characterises the movement of water molecules along axons. In healthy white matter, the direction of water movement is fairly uniform and measures high in FA. When water movement is more random, FA values decrease. Abnormally low FA within white matter has been associated with cognitive impairment in patients with traumatic brain injury.
Dr. Lipton and colleagues conducted DTI on 37 amateur adult soccer players (median age 31 years). Twenty-nine of the study participants were men. Participants reported having played soccer for an average of 22 years and played an average of 10 months over the past year. The researchers estimated how often each player headed the ball on an annual basis and identified regions in the brain where FA changed in relation to prior heading. This analysis identified areas of the brain where FA values were significantly lower in players who headed more. The players also underwent cognitive testing.
“The brain findings of the most frequent headers in our study showed abnormalities of white matter similar to what we’ve seen in patients with concussion,” Dr. Lipton said. “Soccer players who headed the ball above a threshold of 885 to 1,550 times a year had significantly lower FA in three areas of the temporal-occipital white matter.”
Players with more than 1,800 headings per year were more likely to demonstrate poorer memory scores.
“What we’ve shown here is compelling initial evidence that there are brain changes that look like traumatic brain injury which are associated with heading a soccer ball with high frequency,” Dr. Lipton said. Further research should be a priority. In the meantime, controlling the amount of heading that people do may provide an approach for preventing brain injury as a consequence of heading.”
Soccer is the world’s most popular sport, with more than 265 million active players.
Figure 1 (a, b) Three ROIs in the temporo-occipital white matter detected by the initial voxelwise linear regression of estimated prior 12 months of heading on FA, shown as color regions rendered in threedimensional images (a) and superimposed on T1-weighted axial (left), coronal (middle), and sagittal (right) images from the Montreal Neurological Institute template (b). FA at each ROI was significantly lower as a function n of greater heading exposure. R = right.