The sickness will be rooted in football's tragic flaw, which is that it inflicts concussions on its players with devastating frequency. Although estimates vary, several studies suggest that up to 15 percent of football players suffer a mild traumatic brain injury during the season. (The odds are significantly worse for student athletes — the Centers for Disease Control and Prevention estimates that nearly 2 million brain injuries are suffered by teenage players every year.) In fact, the chances of getting a concussion while playing high school football are approximately three times higher than the second most dangerous sport, which is girls' soccer. While such head injuries have long been ignored — until recently, players were resuscitated with smelling salts so they could re-enter the game — it's now clear that these blows have lasting consequences.
The consequences appear to be particularly severe for the adolescent brain. According to a study published last year in Neurosurgery, high school football players who suffered two or more concussions reported mental problems at much higher rates, including headaches, dizziness, and sleeping issues. The scientists describe these symptoms as "neural precursors," warning signs that something in the head has gone seriously wrong.
This research builds on previous work documenting the hazards of football for the teenage brain. In 2002, a team of neurologists surveying several hundred high school football players concluded that athletes who had suffered three or more concussions were nearly ten times more likely to exhibit multiple "abnormal" responses to head injury, including loss of consciousness and persistent amnesia. A 2004 study, meanwhile, revealed that football players with multiple concussions were 7.7 times more likely to experience a "major drop in memory performance" and that three months after a concussion they continued to experience "persistent deficits in processing complex visual stimuli." What's most disturbing, perhaps, is that these cognitive deficits have a real-world impact: When compared with similar students without a history of concussions, athletes with two or more brain injuries demonstrate statistically significant lower grade-point averages.
What causes these long-term mental problems? Why are concussions so dangerous? The answer returns us to the mechanics of head trauma. Because a concussion is not a bruise. It is not a sprain. There is no bodily metaphor for what happens when the Jell-O of cortex accelerates into the skull. Although the brain is surrounded by a cushion of cerebrospinal fluid, a severe impact or abrupt change in head speed can push those three pounds of meat straight through the fluid, so that it crashes into the cranium. (The brain has no pain receptors, which means the impact can only be perceived indirectly, as a throbbing headache or loss of consciousness.)
In recent years, it's become clear that the severity of a concussion is only indirectly related to the physical force of the impact. Sometimes, players walk away from savage hits. And sometimes they are felled by incidental contact. While data compiled from the Head Impact Telemetry System, or HITS, captures the extreme physical forces at work during a football game — it's not uncommon for a player to sustain hits equivalent to the impact of a 25 mph car crash — there is no clear threshold for injury. The mind remains a black box; nobody really understands why it breaks.
But we do know what happens once it's broken. In the milliseconds after a concussion, there is a sudden release of neurotransmitters as billions of brain cells turn themselves on at the exact same time. This frenzy of activity leads to a surge of electricity, an unleashing of the charged ions contained within neurons. It's as if the brain is pouring out its power.
The worst part of the concussion, however, is what happens next, as all those cells frantically work to regain their equilibrium. This process takes time, although how long is impossible to predict: sometimes hours, sometimes weeks, sometimes never. (The latest guidelines suggest that most concussed subjects require at least 10 days to recover, with adolescents generally needing a few days more.) While the brain is restoring itself, people suffer from a long list of side effects, which are intended to keep them from thinking too hard. Bright lights are painful; memory is fragile and full of holes; focus is impossible.
The healing also has to be uninterrupted. In the aftermath of a traumatic brain injury, the brain remains extremely fragile. Because neurons are still starved for energy, even a minor "secondary impact" can unleash a devastating molecular cascade. All of a sudden, brain cells that seemed to be regaining their balance begin committing suicide. The end result is a massive loss of neurons. Nobody knows why this loss happens. But the loss is permanent.
Teenagers are especially susceptible to these mass cellular suicides. This is largely because their brains are still developing, which means that even a slight loss of cells can alter the trajectory of brain growth. Football concussions are also most likely to affect the parts of the brain, such as the frontal lobes, that are undergoing the most intense development. (The frontal lobes are responsible for many higher cognitive functions, such as self-control and abstract reasoning. The immaturity of these areas helps explain the immaturity of teenagers.)
In recent years, neuroscientists have documented the effect of these blows over time. The worst possible outcome is a disease known as chronic traumatic encephalopathy, or CTE.1 Although CTE is often clinically indistinguishable from Alzheimer's — patients suffer from memory loss, mood disorders, and depression — this degenerative illness has a very different cause. CTE is a disease of violence. It is what happens when the brain is smashed into the skull again and again.
How common is CTE among former football players? Nobody knows. At the moment, CTE can only be diagnosed postmortem, after the cortex is dissected. However, there is disturbing evidence that CTE is occurring among players at rates many times higher than normal. For instance, a 2009 study commissioned by the NFL found that former players between the ages of 30 and 49 were being diagnosed with severe memory-related diseases at approximately nineteen times the rate of the general population.
Another disturbing clue comes from the initial results of an autopsy analysis led by Ann McKee at Boston University. Over the last five years, she has autopsied the brains of fifteen former players who suffered from various mental conditions, including memory loss and depression. Fourteen of these players had CTE.
Although McKee has only studied a single teenage brain, she found that brain damage was already detectable, with the multiple-concussed 18-year-old football player showing irreversible signs of CTE in parts of the frontal cortex. According to McKee, this is the earliest evidence of CTE ever recorded.
Needless to say, this disturbing data has not dissuaded anyone from playing in the NFL: The tremendous rewards offered to professional athletes help compensate for the potential risk. We understand why they play on Sunday.
But this same calculus doesn't apply to high school athletes, that pipeline of future talent. Although these teenagers are suffering concussions at higher rates and with worse consequences — the head trauma of football targets the most vulnerable areas of the developing brain — the overwhelming majority of these kids will never play the sport competitively again. They are getting paid nothing and yet they are paying the highest cost.
Mater Dei High School is a football powerhouse, with two national championships and nine California state titles. Set amid the suburban grid of Orange County, the school has drawn talented recruits for decades, including two Heisman trophy winners. (In 2008, Sports Illustrated ranked Mater Dei as the second best high school athletic program in the country.) All this success has generated a loyal fan base: It's not unusual for Mater Dei football games to draw 25,000 fans on a Friday night. The school is regularly forced to rent out Angels stadium.2
Because of its national reputation — and extremely well-funded athletic department — Mater Dei has been on the leading edge of concussion prevention and treatment for high school football players. The coaches are vigilant; the equipment is top of the line; the latest medical recommendations are exactingly followed.
And yet, even when a football program does everything right, it's still not clear if it's enough. This uncertainty haunts the Mater Dei coaching staff, who struggle on a daily basis to effectively manage the risk of concussions among their players. The new research on concussions has allowed them to prevent many of the worst injuries, but it has also made them increasingly aware of the ubiquity of injury. They know better than anyone that if an elite program like Mater Dei can't solve the problem of head trauma, it seems unlikely the problem can be solved. The sport may simply be too dangerous for teenagers.
The first thing you learn when you ask high school football coaches about concussions is that the single biggest challenge is honest reporting. Although more than 60,000 concussions are diagnosed among precollegiate players every year, it's estimated that the true incidence is approximately 50 percent higher. "These kids want to fight through it," says Mike Fernandez, the full-time trainer for the Mater Dei football team. (Fernandez previously worked as a trainer for the U.S. Track & Field team.) "They want to be brave for their friends. They also want to stay in the game."
The Mater Dei coaches deal with the problem of underreporting by insisting that players monitor each other and, if necessary, tell the staff when they suspect a teammate has suffered a concussion. "I'm not going to be able to see every hit," Fernandez says. "It's a crowded field with lots of contact. That's why we make it clear that monitoring concussions is the responsibility of the entire team. If a buddy is out of it and you don't tell us, then that's on you." Although the "team responsibility" approach hasn't eliminated underreporting, it has reduced it. According to the Mater Dei staff, the varsity team averages three to four concussions a month; the JV squad a few more.
Once a concussion is diagnosed, the team has an elaborate protocol to ensure proper treatment amid the chaos of the game. The medical staff on the sideline immediately performs a quick assessment using the second version of the Sport Concussion Assessment Tool (SCAT), which consists of a checklist for a wide variety of symptoms. Players are asked, for instance, if they feel "as if they are in a fog," and whether they know what year it is. They are told to balance on one foot and repeat a random list of numbers backward. The protocol takes about ten minutes and provides a rough assessment of concussion severity. "Once you've seen a few concussions, you know pretty quickly when it happens," Fernandez says. "You can see it in their unfocused eyes. When they come to, their first question is usually: 'When can I go back in?' That's why we take away their helmet. They need to know that their night is over."
The next day, the player is assessed using the imPACT method, a tool invented by the psychologist Mark Lovell and neurosurgeon Joseph Maroon in the early 1990s. (The imPACT method is currently used by every team in the NHL and most teams in the NFL. Lovell and Maroon originally developed the test for the Steelers.) The concussed subject is set in front a computer and, for the next twenty minutes, run through a battery of cognitive tests. Because every player is also assessed before the start of the season — this is the baseline metric — the medical staff is able to measure the decline in performance triggered by the injury. (It's not unusual for scores to fall by 40 or 50 percent in the days after a concussion.) In many instances, the decline is dramatic enough that the medical staff will inform a player's teachers about the injury. "We tell the teaching staff what to expect," Fernandez says. "[Concussed players] probably aren't going to ace their math tests."
The imPACT test also allows the Mater Dei coaches to estimate when a player is ready to return to "contact status." According to Fernandez, the minimum a concussed player is going to be out is one week, even if their imPACT scores return to normal.
Unfortunately, not every high school football program is as strict about secondary impacts as Mater Dei. According to a 2009 survey of 1,308 concussion incidents reported by school trainers, more than 40 percent of athletes return to the field too quickly. What's worse, the most severe concussions are often ignored: The same survey found that 16 percent of football players who lost consciousness after being hit returned to the field the very same day.
While Mater Dei has radically altered its response to concussions — "I look back and I can't believe the way it used to be," Fernandez says — the school is increasingly focused on concussion prevention, if only because there is little to do in the aftermath of a brain injury but wait. "I think there used to be an attitude that concussions were an inevitable part of football, like ankle sprains," Fernandez says. "And maybe they are. But we still need to do everything possible to keep them from happening."
This drive to prevent brain injuries has dramatically reshaped football at Mater Dei. The first thing that changed was practice. There's a scene in the pilot of Friday Night Lights in which a hungover Tim Riggins is battered relentlessly during warmups, repeatedly exposed to helmet-on-helmet collisions. That would never happen now.
"Heck, we don't even wear pads in the summer anymore," says Bruce Rollinson, the head football coach at Mater Dei. Rollinson looks like a coach from central casting — his skin is leathered from afternoons on the field and his thick, wiry mustache has gone white. Because he's been coaching at Mater Dei for the last 22 years — and was a player at the school in the 1960s — Rollinson has personally witnessed the ways in which the specter of concussions has changed the high school game. "Without a doubt, practice has gotten a lot less physical," he says. "More soft helmets, less tackling. You can see these boys wanna go at it, but we tell them to save it for the game." The only downside of this approach is that the players get less experience learning how to tackle, which means they are more likely to tackle the wrong way. "It's not an ideal solution," Rollinson admits. "But what else can we do? The doctors tell us there have to be fewer hits."3
When people talk about concussions in football, it doesn't take long before they start talking about helmets. There is an unmistakable optimism to such conversations, a persistent hope that technology will somehow save the sport. Nobody knows what this technology will be — a harder plastic cap, a softer foam, a better chin strap — but everybody knows what it will do: keep the brain from slamming into its shell. The violence will continue, but the carnage will stop, because players will finally be protected from head trauma.
This faith is rooted in history. In the 1960s, the sport of football faced a similar crisis, as dozens of high school players were dying every year of skull fractures. These deaths led to the formation of NOCSAE, an agency in charge of establishing guidelines for athletic equipment. In 1973, NOCSAE issued their first football helmet requirements, insisting that every helmet had to buffer the skull from the impact of a 60-inch free fall. The standard worked, helping to reduce head-injury fatalities in high school football by 74 percent.
But here's the bad news: These old regulations provide scant protection against concussions. While a hard plastic helmet lined with cushioning can protect the skull from fracturing, a concussion occurs on the inside of the head, when the brain quickly decelerates and impacts bone. This means that helmet designers face an inevitable tradeoff: If the head isn't shielded from the strongest physical impacts — and this is best done with soft, pliable materials — then it can break and bleed. But the very act of protecting players from those severe collisions means that the head will bounce around the cushioned helmet, thus allowing the brain to move within its bony cage. The worst impact will be internal.
The compromises of helmet design help explain why there will be no quick technological fix for football concussions. Last October, Jeffrey Kutcher, chairman of the American Academy of Neurology's sports section, told a committee of United States senators that all of the current concussion-prevention products being sold were largely useless. "I wish there was such a product [that could prevent concussions] on the market," he said. "The simple truth is that no current helmet, mouth guard, headband, or other piece of equipment can significantly prevent concussions from occurring It is extremely unlikely that helmets can prevent concussions the way they prevent skull fractures." He went on to criticize numerous claims by helmet manufacturers suggesting otherwise, noting that even Riddell's specialized anti-concussion helmet has only been shown to reduce the rate of concussions by 2.6 percent.
Coach Rollinson echoes the skepticism. "Every year, we get more and more parents showing up with some fancy helmet and telling us that this is the one their kid has to use," he says. "I'm sure they spent a lot of money on that helmet. I know it makes them feel better. So we always say, sure, your kid can use that helmet, but we have to do the fitting. And you know what happens? The helmet doesn't fit. They spend a thousand dollars on it because the manufacturer makes some crazy claim, but it's way too big. And then when you fit it properly, the kid always says it's too tight, that it's not comfortable anymore. But that's the way it needs to be."
This is a recurring theme among the coaches and trainers at Mater Dei. According to the football staff, the most important helmet factor has little to do with the helmet itself. Instead, it has to do with the way the helmet fits the head. In theory, this is an easy problem to solve: Every NOCSAE-approved helmet is fully adjustable. Teenagers, however, make the fitting process surprisingly difficult. "Most of the time, the problem is forgetfulness," says Fernandez. "That's why we are always reminding the players to check air levels.4 We tell them that before every single game. But sometimes they leave it loose on purpose, just because it can get hot and sticky in there."
Rollinson tells a story about a former running back on his team that illustrates the problem. "This kid was real bright, a really good player," he says. "And he gets whacked during a game. Just laid out. So I run out on the field and I see those glazed eyes. I know immediately what happened. And then I go to help him out of his helmet and as we take it off I see this sock fall out. At first, I'm totally confused. Where the hell did that sock come from? Well, it turns out the kid had removed the front cushion from his helmet and replaced it with a tube sock because he thought the cushion was giving him pimples. Can you believe that? He took out the thing that was protecting his brain because of pimples."
But even if a better helmet were technically possible, and even if the high school players were forced to use it properly, it's still unclear whether it would significantly reduce the risk of concussions. That's because people typically react to improved safety gear by increasing the riskiness of their behavior, a peculiar phenomenon known as the risk compensation effect.
Consider the long-term impact of antilock brakes. While the technology should make cars much safer to drive — the computerized system automatically controls the speed of each tire, helping to prevent uncontrolled skids — it has not resulted in any measurable improvement in road safety.
Why not? Numerous studies have demonstrated that drivers with antilock braking systems drive faster and brake later. A similar pattern has been observed for ski helmets — skiers wearing the protective gear ride more difficult courses, which is why ski deaths have not fallen — and skydiving equipment, which has become much more reliable without reducing fatalities. (Divers now open the parachute closer to the ground.) The frustrating lesson of the risk compensation effect is simple: When people feel safer, they take more chances. As a result, the total level of safety remains constant.
There is already suggestive evidence that the risk compensation effect applies to football. Despite tremendous improvements in football gear and helmet technology, the rate of concussions among high school athletes has not significantly decreased in recent decades. There are many factors behind this lack of improvement, but the most important variable is the dramatic increase in both the size and speed of players. "I've seen these changes firsthand," Rollinson says. "The players I'm coaching now have muscles that you almost never saw fifteen years ago. They work out more, they drink their protein shakes, they know how to bulk up. This also means that these kids are dishing out some very big hits."
The coach continues: "Look, this is always going to be a rough sport. I played this game for a long time and I played it when nobody worried about head injuries. I know it can hurt. Now I'm 62 and I'm still hurting. The game sticks with you like that. Sometimes, when I can't remember where my keys are, I wonder if I can't remember because of the way I played. I don't want these kids to be thinking the same thoughts when they're my age."
Rollinson then leans forward in his chair, as if he's about to tell me a secret. "Look, most of my players aren't going to play ball for a living," he says. "I know they don't want to hear that, but it's the truth. So there's really no reason they should risk messing up their brain."
If the sport of football ever dies, it will die from the outside in. The only question now is whether the death has begun.
Jonah Lehrer is a contributing editor at Wired and the author of How We Decide.
Previously from Jonah Lehrer:
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For decades, this disorder was only associated with former boxers — its original name was "dementia pugilistica," or "punch drunk" disease.
The school retains a strong Catholic identity. There are religious reminders everywhere: little sculptures of Jesus in the doorway, triptychs of saints in the hallway, holy slogans in the weight room. God will determine the outcome. He suffered for your sins. Jesus!
To make practice even safer, the school has replaced its field. Instead of standard grass, Mater Dei plays on a cushioned cork surface covered with artificial turf. The spongy material is easier on the joints and the head, muting the "snap back" effect that can occur when the skull bounces off the ground
Mater Dei uses the Riddell Revolution Speed, which features inflatable pads.