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A nonconcussive impact is simply a hit to the head that does not result in a diagnosed concussion. A concussion is a type of traumatic brain injury that results in signs that are observable (loss of consciousness, loss of balance, disorientation) or symptoms that are felt (headache, dizziness, double vision, amnesia, feeling foggy). Most head impacts do not cause signs or symptoms of concussion, and therefore are nonconcussive. 

Examples of these types of impacts include most tackles and collisions on the football field; headers in soccer; checks or collisions with the boards or other players in ice hockey; and body checks in lacrosse.

In the last several years, research groups using helmet-mounted accelerometer devices have helped us understand how nonconcussive impacts add up to brain damage. This technology allows scientists to count how many hits an athlete takes over a period of time, how hard the hits are, and how much rest an athlete gets between hits. Scientists can use this information to compare athletes with lots of hits to athletes with fewer hits, or to people who haven’t been hit at all.

Another benefit of this type of research is that it allows scientists to take out athletes who have had concussions, allowing them to focus only on the effects of nonconcussive impacts. By comparing athletes with lots of hits to athletes without hits, scientists can isolate the effect that hits have on a variety of different things, from an athlete’s memory and thinking ability to the strength of the physical connections in the brain. The picture is pretty clear: too many hits is not a good thing. Here’s what we have learned:

Nonconcussive head impacts are correlated with the presence and severity of CTE.
A study of 631 deceased football players revealed that the odds of having CTE was related to the estimated number and strength of impacts to the head, but not related to the number of diagnosed, self-reported or family-estimated concussions.

Nonconcussive hits hurt our memory and attention.
Several studies have shown that athletes who suffer more nonconcussive impacts do worse on memory and attention tests than their teammates who suffer fewer hits.

Nonconcussive hits damage the connections in our brain.
Different areas of the brain are interconnected by bundles of wire-like brain cells, allowing them to seamlessly communicate. Using a technique called Diffusion Tensor Imaging (or DTI), scientists can see these connections, and measure their structural strength. Too many nonconcussive impacts can damage the structure of these wiry connections, making it harder for brain areas to communicate.

Nonconcussive hits suppress brain function.
Using a technique called functional magnetic resonance imaging, scientists can see how active different brain areas are during thinking or memory tasks. Studies in contact athletes have shown that athletes with more nonconcussive impacts have less brain activity than athletes with fewer impacts.