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‘Profound abnormalities’ found in footballers’ brains

by Mariette Le Roux

AFP-JIJI

Scans have revealed “profound abnormalities” in the brain activity of retired American football players, a study into the long-term risks of the combative sport said.

Unusual activity in the frontal lobe, observed in former National Football League (NFL) players as they carried out a cognitive test, matched records for heavy blows they had received to the head while on the field.

“The NFL alumni showed some of the most pronounced abnormalities in brain activity that I have ever seen,” said author Adam Hampshire, a neuroscientist at Imperial College London. “(The) level of brain abnormality correlates strongly with the measure of head impacts of great enough severity to warrant being taken out of play. It is highly likely that damage caused by blows to the head accumulate toward an executive impairment in later life.”

NFL games have come under growing scrutiny for what critics say is a dangerous rate of concussions after hard blows to the head.

Some have drawn links between the onfield physical traumas and later neurological problems such as Alzheimer’s or Parkinson’s, which in turn have been blamed for depression and suicide.

The new study does not find evidence of disease, but highlights brain areas that may have been affected by repeated, severe impacts.

And it says standard tests do not pick up this subtle damage.

The experiment entailed asking 13 former NFL players and a comparison group of 60 volunteers to rearrange colored balls in a series of tubes in as few steps as possible.

The test, called a spatial planning task, is a routine assessment of brain function.

For the first time, researchers scanned the participants’ brain activity with magnetic resonance imaging (MRI) as they performed the test.

None of the 13 players had been diagnosed with a neurological condition, although all felt they were suffering neurological problems that affected their everyday lives.

The NFL group performed worse at the task than the volunteers, but only marginally so, said the scientists.

The MRI scans, though, showed huge differences in activity in the frontal lobe of the brain — the part that is responsible for “executive,” or higher-order functions.

The scans revealed “hyperactivation” in parts of the frontal lobe among the NFL players, which led the researchers to conclude that the damaged brain was having to work harder, bringing extra areas online in order to process the task.

“The differences seen in this study reflect deficits in the executive function that might affect the person’s ability to plan and organize their everyday lives,” Imperial College said in a statement.

The findings show the usefulness of MRI in revealing neurological problems that are missed by standard tests, the scientists said.

“Brain imaging tests could be useful to retired players who are negotiating compensation,” they said.

“Players could also be scanned each season to detect problems early,” the scientists said.

The study, published in the journal Scientific Reports, quoted U.S. Centers for Disease Control and Prevention data that between 1.6 million and 3.8 million sports concussions occur annually in the United States alone.

  • DonKrieger

    Take it “with a grain of salt.”

    Here is a link to the article which is open access:

    http://www.nature.com/srep/2013/131017/srep02972/full/srep02972.html

    It’s important to understand that the evidence of increased activation and connectivity was found using function MR Imaging. This is a method which is sensitive to tissue oxygenation. Although suggestive, and increase in tissue oxygenation does not imply that the brain tissue is more active or that the neurons in the tissue are more active. In normal volunteers, there is a link between local tissue oxygenation and neuroelectric activity, this is not a firm link which is necessarily always present.

    While the study does show that there is something different in the neurovascular behavior of the frontal lobes of these retirees compared with others, it provides us with very limited information regarding putative alterations in the neurologic function of the tissue.

    Don Krieger
    Pittsburgh, PA