Helmet Reveals Data About High School Football Player's Broken Neck

Click image to hear Prof. Broglio talk about HITS (courtesy DailyIlini.com)For the crowd watching an Illinois high school football game last fall, it was a sickening feeling watching one of their Unity Rockets' cornerbacks collapse to the ground after delivering a heads-down tackle on an opposing running back (see video here.) 

For Steven Broglio, an assistant professor of kinesiology at the University of Michigan, it was a mixed feeling of concern and curiosity as to the extent of the injury.  Since 2007, Broglio has been collecting data on the violent collisions that occur in high school football and their contribution to concussions and other head injuries.

Unity players use helmets with padded sensors called the Head Impact Telemetry System.
Using a sensor similar to what is used in car air bags, the HITS helmets record and transmit the magnitude of each impact and its location on the helmet to a computer located on the sideline within about 10-20 seconds.  Broglio is able to monitor these collisions and alert the coaching staff if an impact exceeds the threshold known to cause concussions, about 90-100 g-force. Listen to Broglio describe the HITS research.

In the last four years, Broglio has recorded over 120,000 football collisions with 25 resulting in a concussion for the player.  However, on this night, he would record data on a much more rare injury - a broken neck.  After briefly losing consciousness on the field, the Unity cornerback was taken to a hospital emergency room and was diagnosed with a concussion and a stable left C6 facet fracture, otherwise known as a broken neck.  Data from the collision showed the hit occurred at the top right side of the helmet at a amazing 114 g-force.  Just for comparison, a shuttle launch is about 3 g-force while a rolling fighter pilot sustains about 5-10 g-force.

Thankfully, the player was released from the hospital 48 hours later with a hard neck collar.  While his football season was over, he returned to play basketball twelve weeks later.

Broglio describes the encounter in a letter to the New England Journal of Medicine.

The goal of the research is to perfect the technology so that similar, less expensive systems can be used on many more football sidelines.  Broglio said a number of other researchers at universities across the nation, including Virginia Tech, the University of North Carolina and Dartmouth, also are using the system as the basis for studies of biomechanical processes caused by concussions and traumatic brain injuries. The current system has a price tag of about $60,000 while the customization to each helmet costs an additional $1,000.  "Ultimately, we're trying to use these measures to predict concussion," Broglio said. "If someone exceeds a certain level then we would know they have a concussion and we could pull them."

With the recent attention to concussions at the NFL level, there is hope that research will also benefit high school and college players. "To us, the larger public health issue is with the 1.5 million high school kids that play football each year. Not the 1,500 that play in the NFL," Broglio said.

Related Articles: New Return-To-Play Guidelines For Sports Concussions and NFL Concussions Taking Bigger Toll On Players

Running Out Of Memory

Diane Van Deren
While the idea of running a marathon seems life-changing in a “bucket list” kind of way, the drudgery of a serious training plan can generate some second thoughts.  Even though the details of the weekday workouts vary, the one staple of most plans is the weekend “long run.”  

Consisting of progressively more miles as race day nears, these runs of 15+ miles train not only the legs and heart but also the brain.  Breaking through mental barriers and learning how to deal with fatigue helps the marathoner talk back to his or her body and helps them get over the inevitable psychological wall during the race.  

In fact, our brains can offer us too much information during those hours on the road.  Knowing that you just started mile three of an 18 mile training run can be just as difficult as approaching mile 15 exhausted but having to dig deep for three more.  What if you could turn your brain off and just deal with the current moment; no looking back or forward?  It is something Diane Van Deren lives with every day.

One of the world’s best ultra-runners (as in races of 50 miles or more), Van Deren puts in more miles on her feet during a week than many cyclists do in the saddle.  She is a veteran and champion of some of the world’s toughest 50 mile, 100 kilometer and 100 mile races.

But Van Deren fights her own personal battle every day.  In 1997, after suffering for years from epileptic seizures, she made the tough decision to undergo a lobectomy.  By isolating and removing a damaged kiwi-size portion of the right temporal lobe of her brain, the seizures stopped but so did significant pieces of her short term memory.  Beyond just embarrassing lapses of names and faces, Van Deren would lose keys, directions and experiences before they could be filed away into her long term memory archive.

During her struggles with seizures, the former pro tennis player would escape to running in the foothills of the Rockies as this would ward off an oncoming episode.  Now, she no longer runs from the attacks and instead runs for the joy of competition against the best in the world. Yet, her new battle is navigation and making her way home since any recollection of her path is gone after a few more strides.  She uses a system of “bread crumbs” and clues to find her way back.

The fascinating aspect of her new memory condition is the lack of awareness of distance traveled and distance to go.  There are no pre-planned workout distances that she dutifully fulfills until she’s reached that day’s goal.  Of course, a GPS or pedometer could tell her how far she has gone, but she prefers the blissful ignorance of running only to the sound of her feet on the ground.

“It’s a kinesthetic melody that she hits,” Don Gerber, a clinical neuropsychologist at Craig Hospital, a rehabilitation hospital in Englewood, Colo said in a New York Times piece. “And when she hits it, she knows she’s running well.”

But does her lack of memory provide some type of advantage to her perception of fatigue?  If you were on a 20 mile run, but did not know how far you had gone or how far you had to go, would your brain sense the same fatigue signals from your muscles?

In an in-depth Runner’s World article, several neuroscientists debated whether Diane’s lack of awareness of her effort increases her tolerance of pain.  "It's a mental state," Gerber says. "You become enmeshed in what you're doing. It's almost Zen. She can run for hours and not know how long she's been going."  Others argue that its not that simple. Dr. William Theodore, chief of the clinical epilepsy division at the National Institute of Health commented, "Certain parts of the brain are related to pain, but they're very deep structures. They're almost never involved in epilepsy surgery."

Still, imagine your peace if you were able to tune out the constant jabber of your inner voice telling you how you should feel based on objective data like miles or hours endured.  For those that grew up in the Great White North, you might remember playing for hours in the winter snow, only to be told when you finally come in the house that it was -15 degrees outside.  Without that data, you’re left to just your body’s messages about how you feel.

To get a sense of that peace, the incredible Radiolab podcast caught up with Van Deren last month for an interview but also to capture the soothing sound of her feet padding along a trail with a matching rhythm of breaths.  Sometimes its worth it to turn off the iPod, the heart monitor and the GPS and just run, focused only on yourself.



Body Checking In Youth Hockey Causes More Brain Injuries

Youth hockey players in the Atom division of Hockey Canada are more than 10 times likely to suffer a brain injury since bodychecking was first allowed among the 9 and 10-year-olds, says a study led by St. Michael's Hospital neurosurgeon Dr. Michael Cusimano.

The findings, published online in the journal Open Medicine, add to the growing evidence that bodychecking holds greater risk than benefit for youth and support widespread calls to ban the practice.

According to the researchers, led by Cusimano, director of the Injury Prevention Research Centre at St. Michael's Hospital in Toronto, the odds of visiting an emergency department due to a brain injury from bodychecking increased significantly among all minor hockey players after Hockey Canada relaxed bodychecking rules in the 1998/1999 season. At that time, the organization allowed, for the first time, body contact among 9 and 10 year-olds in the Atom division.

The team examined the records of 8,552 male youth 6-17 years-old who attended one of five emergency departments in Ontario for hockey related injuries that occurred before and after the rule change. Researchers found more than half of hockey-related injuries were a result of bodychecking. What's more, the risk of a head or neck injury, including concussions, increased across all minor hockey divisions.
"Our work confirmed the fact that body checking is the most common cause of injury in hockey. While proponents argue lowering the age for bodychecking helps players learn how to properly bodycheck and reduces injuries at older ages, our study clearly showed the opposite ― the risk of all injuries and especially, brain injuries, increases with exposure to bodychecking," Cusimano said. "While all age groups showed increases in injuries, the youngest were the most vulnerable and that bodychecking puts youth unnecessarily at the risk of the long-term effects of brain injuries, such as cognitive and social-behavioural problems."

For some time, researchers like Dr. Cusimano have called on organizations like the NHL to take more leadership in reducing the incidence of brain injuries. In recent weeks, pressure has mounted on the NHL after Pittsburgh Penquins captain Sidney Crosby and Montreal Canadiens' Max Pacioretty suffered serious concussions that sidelined both players.

"Ice hockey is a sport with great potential to increase the health of individuals but practices that increase the risk for the vast majority of players must be minimized," Cusimano adds. "It is now very clear that there is no benefit to any one or any group to continue to allow bodychecking. Hockey organizers, sponsors, the media, coaches, trainers, and players and parents must come together to advocate for multifaceted approaches that include changes to the rules to reduce the risk of injury."

Source: St. Michael's Hospital and Michael D Cusimano, Nathan A Taback, Steven R McFaull, Ryan Hodgins, Tsegaye M Bekele, Nada Elfeki; Canadian Research Team in Traumatic Brain Injury and Violence. Effect of bodychecking on rate of injuries among minor hockey players. Open Medicine, Vol 5, No 1 (2011)

See also: New Return-To-Play Guidelines For Sports Concussions and Youth Sports Concussions Double In Last Ten Years

Computerized Concussion Testing Yields More Cautious Return To Play Timeline

When computerized neuropsychological testing is used, high school athletes suffering from a sports-related concussion are less likely to be returned to play within one week of their injury, according to a study in The American Journal of Sports Medicine. Unfortunately, concussed football players are less likely to have computerized neuropsychological testing than those participating in other sports.

A total of 544 concussions were recorded by the High School Reporting Information Online surveillance system during the 2008-2009 school year. Researchers looked at each of those instances to see what caused the injury, what sport was being played, what symptoms were experienced, what type of testing was used, and how soon the athletes returned to play.

When looking at the causes and duration of concussions, the research found that:

* 76.2% of the concussions were caused by contact with another player, usually a head-to-head collision
* 93.4% of concussions caused a headache; 4.6% caused loss of consciousness
* 83.4% experienced resolution of their symptoms within a week, while 1.5% had symptoms that lasted longer than a month.

Computerized neuropsychological testing was used in 25.7% of concussions, and in those cases, athletes were less likely to return to play within one week, than those athletes for whom it was not used. Interestingly, however, researchers found that injured football players were less likely to be examined using the computerized neuropsychological testing than injured athletes participating in other sports.

"Although it is now recognized as one of 'the cornerstones of concussion evaluation,' routine neuropsychological testing in the setting of sports-related concussion is a relatively new concept," write the authors, William P. Meehan III, MD, Pierre d'Hemecourt, MD, and R. Dawn Comstock, PhD. "This is the first study, of which we are aware, to query the use of computerized neuropsychological testing in high school athletes using a large, nationally representative sample."

Source: High School Concussions in the 2008-2009 Academic Year: Mechanism, Symptoms, and Management. The American Journal of Sports Medicine, 2010; 38 (12): 2405 DOI: 10.1177/0363546510376737

See also: NFL Concussions Taking Bigger Toll On Players and Football Players May Still Injure Brain Even Without A Concussion

New Return-To-Play Guidelines For Sports Concussions

The American Academy of Neurology (AAN) is calling for any athlete who is suspected of having a concussion to be removed from play until the athlete is evaluated by a physician with training in the evaluation and management of sports concussion.

The request is one of five recommendations from a new position statement approved by the AAN's Board of Directors that targets policymakers with authority over determining the policy procedures for when an athlete suffers from concussion while participating in a sporting activity.

According to the Centers for Disease Control, sports-related concussions occur in the United States three million times per year, and among people ages 15 to 24 are now second only to motor vehicle accidents as a leading cause of traumatic brain injury.


"While the majority of concussions are self-limited injuries, catastrophic results can occur and we do not yet know the long-term effects of multiple concussions," said Jeffrey Kutcher, MD, MPH, chair of the AAN's Sports Neurology Section, which drafted the position statement. "We owe it to athletes to advocate for policy measures that promote high quality, safe care for those participating in contact sports."

According to the new statement, no athlete should be allowed to participate in sports if he or she is still experiencing symptoms from a concussion, and a neurologist or physician with proper training should be consulted prior to clearing the athlete for return to participation.

In addition, the AAN recommends a certified athletic trainer be present at all sporting events, including practices, where athletes are at risk for concussion. Education efforts should also be maximized to improving the understanding of sports concussion by all athletes, parents and coaches. "We need to make sure coaches, trainers, and even parents, are properly educated on this issue, and that the right steps have been taken before an athlete returns to the field," said Kutcher, who is also director of the University of Michigan's Neurosport program.

In 1997, the AAN published a guideline on the management of sports concussion that defines concussion grade levels and provides recommendations. The guideline is currently being updated.

Source: American Academy of Neurology

See also: NFL Concussions Taking Bigger Toll On Players and Youth Sports Concussions Double In Last Ten Years

NFL Concussions Taking Bigger Toll On Players

NFL players with concussions now stay away from the game significantly longer than they did in the late 1990s and early 2000s, according to research in Sports Health (owned by American Orthopaedic Society for Sports Medicine and published by SAGE). The mean days lost with concussion increased from 1.92 days during 1996-2001 to 4.73 days during 2002-2007.

In an effort to discover whether concussion injury occurrence and treatment had changed, researchers compared those two consecutive six-year periods to determine the circumstances of the injury, the patterns of symptoms, and a player's time lost from NFL participation. Those time periods were chosen because concussion statistics were recorded by NFL teams using the same standardized form. It recorded player position, type of play, concussion signs and symptoms, loss of consciousness and medical action taken.

Researchers found that in 2002-2007 there were fewer documented concussions per NFL game overall, especially among quarterbacks and wide receivers. But there was a significant increase in concussions among tight ends. Symptoms most frequently reported included headaches, dizziness, and problems with information processing and recall.

Significantly fewer concussed players returned to the same game in 2002-2007 than in 1996-2001 and 8% fewer players returned to play in less than a week. That number jumped to 25% for those players who lost consciousness as a result of the injury.

"There are a number of possible explanations for the decrease in percentages of players returning to play immediately and returning to play on the day of the injury as well as the increased days out after (a concussion) during the recent six year period compared to the first six year period," write authors Ira R. Casson, M.D.; David C. Viano, Dr. med.; Ph.D., John W. Powell, Ph.D.; and Elliot J. Pellman, M.D. "These include the possibility of increased concussion severity, increased player willingness to report symptoms to medical staff, adoption of a more cautious conservative approach to concussion management by team medical personnel and a possible effect of changes in neuropsychological (NP) testing."

Source:  SAGE Publications and I. R. Casson, D. C. Viano, J. W. Powell, E. J. Pellman. Twelve Years of National Football League Concussion Data. Sports Health: A Multidisciplinary Approach, 2010; DOI: 10.1177/1941738110383963

See also: Football Players May Still Injure Brain Even Without A Concussion and Youth Sports Concussions Double In Last Ten Years

Football Players May Still Injure Brain Even Without A Concussion

Thomas Talavage, co-director of the Purdue MRI Facility,
prepares to test a Jefferson High School football player.
(Credit: Purdue University photo/Andrew Hancock)
A study by researchers at Purdue University suggests that some high school football players suffer undiagnosed changes in brain function and continue playing even though they are impaired.
"Our key finding is a previously undiscovered category of cognitive impairment," said Thomas Talavage, an expert in functional neuroimaging who is an associate professor of biomedical engineering and electrical and computer engineering and co-director of the Purdue MRI Facility.

The findings represent a dilemma because they suggest athletes may suffer a form of injury that is difficult to diagnose.

"The problem is that the usual clinical signs of a head injury are not present," said Larry Leverenz, an expert in athletic training and a clinical professor of health and kinesiology. "There is no sign or symptom that would indicate a need to pull these players out of a practice or game, so they just keep getting hit."

Findings are detailed in a research paper appearing online this week in the Journal of Neurotrauma.
The team of researchers screened and monitored 21 players at Jefferson High School in Lafayette, Ind.
"The athletes wore helmets equipped with six sensors called accelerometers, which relay data wirelessly to equipment on the sidelines during each play," said Eric Nauman, an associate professor of mechanical engineering and an expert in central nervous system and musculoskeletal trauma.

Impact data from each player were compared with brain-imaging scans and cognitive tests performed before, during and after the season. The researchers also shot video of each play to record and study how the athletes sustained impacts.

Whereas previous research studying football-related head trauma has focused on players diagnosed with concussions, the Purdue researchers tested all of the players. They were surprised to find cognitive impairment in players who hadn't been diagnosed with concussions.

The research team identified 11 players who either were diagnosed by a physician as having a concussion, received an unusually high number of impacts to the head or received an unusually hard impact. Of those 11 players, three were diagnosed with concussions during the course of the season, four showed no changes and four showed changes in brain function.

"So half of the players who appeared to be uninjured still showed changes in brain function," Leverenz said. "These four players showed significant brain deficits. Technically, we aren't calling the impairment concussions because that term implies very specific clinical symptoms, such as losing consciousness or having trouble walking and speaking. At the same time, our data clearly indicate significant impairment."

The findings support anecdotal evidence that football players not diagnosed with concussions often seem to suffer cognitive impairment.

Researchers evaluated players using a GE Healthcare Signa HDx 3.0T MRI to conduct a type of brain imaging called functional magnetic resonance imaging, or fMRI, along with a computer-based neurocognitive screening test.

"We're proud of our association with Purdue and feel longitudinal studies will provide a valuable platform to better study brain injuries," said Jonathan A. Murray, general manager of cross business programs for GE Healthcare.

The research could aid efforts to develop more sensitive and accurate methods for detecting cognitive impairment and concussions; more accurately characterize and model cognitive deficits that result from head impacts; determine the cellular basis for cognitive deficits after a single impact or repeated impacts; and develop new interventions to reduce the risk and effects of head impacts.

"By integrating the fMRI with head-based accelerometers and computer-based cognitive assessment, we are able to detect subtle levels of neurofunctional and neurophysiological change," Nauman said. "These data provide an opportunity to accurately track both the initial changes as well as the recovery in cognitive performance."

(Credit: iStockphoto/Bill Grove
The ongoing research may help to determine how many blows it takes to cause impairment, which could lead to safety guidelines on limiting the number of hits a player receives per week.  "We're not yet sure exactly how many hits this is, but it's probably around 50 or 60 per week, which is not uncommon," Nauman said. "We've had kids who took 1,600 impacts during a season."

The research paper was written by Nauman, Leverenz, Talavage, Katie Morigaki, a graduate student in the Department of Health and Kinesiology, biomedical engineering graduate student Evan Breedlove, mechanical engineering graduate student Anne Dye, electrical and computer engineering graduate student Umit Yoruk, and Henry Feuer, a physician and neurosurgeon in the Department of Neurosurgery at the Indiana University School of Medicine.

Feuer is a neurosurgical consultant to the National Football League's Indianapolis Colts and a member of NFL subcommittees assessing the effects of mild traumatic brain injury.

The researchers studied the football players last season and are continuing the work this season.
The helmet-sensor data demonstrated that undiagnosed players who didn't show impairment received blows in many areas of the head, but the undiagnosed players who showed impairment received a large number of blows primarily to the top and front. This part of the brain is involved in "working memory," including visual working memory, a form of short-term memory for recalling shapes and visual arrangement of objects such as the placement of furniture in a room, Nauman said.
"These are kids who put their head down and take blow after blow to the top of the head," said Nauman, who also is an associate professor of biomedical engineering and basic medical sciences and leads Purdue's Human Injury Research and Regenerative Technologies Laboratory. "We've seen this primarily in linebackers and linemen, who tend to take most of the hits."

Helmet sensor data indicate impact forces to the head range from 20 to more than 100 Gs.
"To give you some perspective, a roller coaster subjects you to about 5 Gs and soccer players may experience up to 20 G accelerations from heading the ball," Nauman said.
Head impacts cause the brain to bounce back and forth inside the skull, damaging neurons or surrounding tissue. The trauma can either break nerve fibers called axons or impair signaling junctions between neurons called synapses.

The findings suggest the undiagnosed players suffer a different kind of brain injury than players who are diagnosed with a concussion.

"To be taken out of a game you have to show symptoms of neurological deficits -- unsteady balance, blurred vision, ringing in the ears, headaches and slurred speech," Leverenz said. "Unlike the diagnosed concussions, however, these injuries don't affect how you talk, whether you can walk a straight line or whether you know what day it is."

The fMRI reveals information about brain metabolism and blood flow, showing which parts of the brain are most active during specific tasks, Talavage said.

"One of the most challenging aspects of treating concussions is diagnosing the part of the brain that has been damaged," he said.

The fMRI data from before, during and after the season were compared to see whether there was any difference in brain activity that indicated impairment. The players also were studied using a standard cognitive test to show how well they were able to remember specific letters, words and patterns of lines.

The work may enable researchers to learn whether high school players accumulate damage over several seasons or whether they recover fully from season to season. The researchers have found that players diagnosed with concussions or who showed marked cognitive impairment had not yet recovered by the end of the season.

New preliminary data, however, suggests the players might recover before the start of the next season, but additional research is needed to determine the extent of recovery, Talavage said.
The work brings together faculty members from Purdue's College of Engineering and the new College of Health and Human Sciences along with research partners at GE Healthcare. The multidisciplinary team includes researchers specializing in neuroimaging, brain health, biomechanics, clinical sports medicine and analytical modeling.

The research group, called the Purdue Acute Neural Injury Consortium, also is studying ways to reduce traumatic brain injury in soldiers who suffer concussions caused by shock waves from explosions.  "There are numerous parallels between head injuries experienced by soldiers and football players," Nauman said.

Other researchers in the consortium are Dennis A. Miller, a sports medicine expert; Charles A. Bouman, the Michael J. and Katherine R. Birck Professor of Electrical and Computer engineering and co-director of the Purdue MRI Facility; and Alexander L. Francis, an expert in learning and cognitive processing and an associate professor of speech, language and hearing sciences.

The work has been funded by the Indiana Department of Health and GE Healthcare. The researchers would like to extend their study to more high schools and are seeking additional funding for the work.
Researchers are working to create a helmet that reduces the cumulative effect of impacts, said John C. Hertig, executive director of the Alfred Mann Institute for Biomedical Development at Purdue.

"We're funding the development of a novel injury mitigation system created by researchers at Purdue for use in sports or military helmets," Hertig said. "This technology is targeted at mitigating the collective impacts absorbed by the brain in such a way as to dissipate the harmful energy that occurs during repeated impacts. Football linemen, soccer and hockey players, and others will benefit from the re-engineering of a sports helmet design created by Eric Nauman and his team."

Source:  Purdue University and Thomas M. Talavage, Eric Nauman, Evan L. Breedlove, Umit Yoruk, Anne E Dye, Katie Morigaki, Henry Feuer, Larry J. Leverenz. Functionally-Detected Cognitive Impairment in High School Football Players Without Clinically-Diagnosed Concussion. Journal of Neurotrauma, 2010; : 101001044014052 DOI: 10.1089/neu.2010.1512

See also: Hockey Hits Are Hurting More and Lifting The Fog Of Sports Concussions

Hockey, Concussions and TBI

Photo by Yong Kim/Philly.com Staff Photographer
Dan's note: I am very pleased to publish this guest post from Chelsea Travers. She is an outreach representative for CareMeridian, a subacute care facility, with locations throughout the Western United States for patients suffering from traumatic brain injury, spinal cord injury or medical complexities, such as neuromuscular or congenital anomalies.

Hockey is arguably one of the most physical professional sports. Hockey players are constantly getting body checked, slammed into boards, falling to the ice, slapped by a stick, hit by a dense, speeding puck or getting punched during a fight. If that isn’t bad enough, hockey players take part in one of the longest regular seasons of any sport, effectively taking on harsher pain for a longer amount of time throughout the year.    

Risk of injury couldn’t be clearer as it is common to see hockey players missing their front two teeth. With all of the injuries that can occur, one of the most dangerous is a traumatic brain injury (TBI). A TBI is a silent injury that can cause harm to the mind and body of an individual. An injury to the head or brain can alter someone’s life and can even require long-term rehabilitation and care from a skilled nursing facility. These injuries are often far too common in the sport of hockey and if not properly treated can permanently leave a hockey player's life more challenging than the game they play.

TBI is an injury that Philadelphia Flyers player Ian Laperriere knows all too well. Last month, in an NHL playoff game with the New Jersey Devils, Laperriere took a slap shot to the face that immediately caused him to bleed excessively from the wound above his eye and lose sight. Laperriere was diagnosed with a brain contusion after having a MRI a few days later. While Laperriere may have originally thought that losing sight in one of his eyes was the worst of the two injuries, in reality the bigger concern could wind up being the long-term effects of the brain injury.

Concussions may sometimes be dismissed as minor injuries because the physical nature of most sports causes them to occur regularly. However, they are still head injuries where the brain is forced to move violently within the skull, possibly changing its function permanently. When the brain moves in such a manner, it can bruise, bleed, and even tear, which can cause irreversible damage to the victim. 

For a sport like hockey this type of injury is very common and unfortunately at times ignored. Many hockey players don't take into account the possible effects of the injury. As it might not seem like a serious problem exists at first, they keep on skating as if nothing occurred. Being unaware of the injury makes it much more dangerous because a mild brain injury can turn into a life threatening injury in a very short period of time without immediate medical treatment.

Studies by the National Academy of Neuropsychology's Sports Concussion Symposium in New York have shown that since 1997, 759 NHL players have been diagnosed with a concussion. Broken down, that averages out to 76 players per season and 31 concussions per 1,000 games of hockey. That is far too frequent of an occurrence for such a serious injury. It's a frightening statistic that should send up a red flag to hockey officials that actions need to be taken to further prevent this type of injury.

The best, and sometimes only, treatment for TBI is prevention. For the National Hockey League, new rules are being considered that preserve the game but also help protect the players. Rule changes concerning blindside hits, rink size (which effects players space from each other and their proximity to walls), and stronger helmet requirements all have been considered to help curb TBI and its effects. This demonstrates that the NHL is aware of the seriousness of the injury and is taking proactive steps to help prevent it from happening.

Hockey is one of the most popular sports in North America and has millions of people participating in it every year. Unfortunately, the sport comes with the risk of a TBI.  With the right awareness of the injury and the necessary precautions in place, the game should be able to continue with players excited to lace up their skates and enjoy it. 


See also: Lifting The Fog Of Sports Concussions and Hockey Hits Are Hurting More

Science Fair Project Leads To New Sports Concussion Test

A simple test of reaction time may help determine whether athletes have sustained a concussion (also known as mild traumatic brain injury) and when they are ready to play again, according to a study released February 15 that was presented at the American Academy of Neurology's 62nd Annual Meeting in Toronto last month.

According to a story by NPR; "The test is the idea of Ian Richardson, a Michigan high-school student. The teenager devised it as a quick and simple way to test reaction time for a science fair project.  Richardson's device looks like something out of a 19th-century medical text. It's a hockey puck, with a long rod embedded in the middle. The stick is marked off in centimeter increments.  Turns out Ian Richardson's father, James, is on the faculty of the University of Michigan Medical School. He thought Ian's idea might be a pretty cool on-the-spot way to screen for concussions among athletes"

Dr. Richardson forwarded the idea to James Eckner, MD, of the University of Michigan Department of Physical Medicine and Rehabilitation in Ann Arbor.  Eckner and his colleagues developed a simple, inexpensive device to measure reaction time: a cylinder attached to a weighted disk. The examiner releases the device and the athlete catches it as soon as possible.


For the study, the researchers gave the test to 209 Division I college football, wrestling and women's soccer athletes during their preseason physicals. Then any athlete who had a concussion diagnosed by a physician during the season took the test again within three days of the concussion.

"Research has shown that reaction time is slower after a concussion -- even as long as several days after other symptoms are gone," said Eckner. "But the tests currently used to measure reaction time require computers and special software."

Eight athletes had concussions during the study. Of those, seven of the athletes had a prolonged reaction time after the concussion compared to the preseason time. Catching the object took about 15 percent longer.

"Because of its simplicity and low cost, this test may work well with youth athletes, where there is limited access to computerized testing of reaction time," Eckner said.

Source: American Academy of Neurology

See also: Lifting The Fog Of Sports Concussions and Hockey Hits Are Hurting More