World Library  
  
Flag as Inappropriate
Email this Article

Chronic traumatic encephalopathy

Article Id: WHEBN0007251223
Reproduction Date:

Title: Chronic traumatic encephalopathy  
Author: World Heritage Encyclopedia
Language: English
Subject: Concussions in American football, Health issues in American football, Chris Henry (wide receiver), Encephalopathy, Post-concussion syndrome
Collection: Motor Neurone Disease, Neurotrauma, Overuse Injuries, Sports Controversies
Publisher: World Heritage Encyclopedia
Publication
Date:
 

Chronic traumatic encephalopathy

Chronic traumatic encephalopathy
Classification and external resources
Specialty Neurology, sports medicine
eMedicine sports/

Chronic traumatic encephalopathy (CTE), a form of encephalopathy, is a progressive degenerative disease found in people with a history of repetitive brain trauma, including symptomatic concussions as well as sub-concussive hits to the head that do not cause symptoms. The disease was previously called dementia pugilistica (DP), i.e. "punch-drunk", as it was initially found in those with a history of boxing. In the case of blast injury, a single exposure to a blast and the subsequent violent movement of the head in the blast wind can cause the condition.[1] CTE has been most commonly found in professional athletes participating in American football, Association football, ice hockey, professional wrestling and other contact sports who have experienced repetitive brain trauma. In both cases resulting in characteristic degeneration of brain tissue and the accumulation of tau protein. Individuals with CTE may show symptoms of dementia, such as memory loss, aggression, confusion and depression, which generally appear years or many decades after the trauma. Baseline testing has been created to assess potential cognitive impairment in athletes in contact sports, but a test to determine the presence of CTE while the person is alive is not yet available.[2]

Contents

  • Signs and symptoms 1
  • Pathology 2
  • Diagnosis 3
  • Prevention 4
  • Epidemiology 5
  • History 6
    • American football 6.1
      • Early retirements 6.1.1
    • Ice hockey 6.2
    • Professional wrestling 6.3
    • Mixed martial arts 6.4
    • Association football 6.5
    • Rugby 6.6
    • Australian Rules Football 6.7
    • Major League Baseball 6.8
  • Research 7
  • Notable cases 8
    • Ice hockey 8.1
    • American football 8.2
    • Association football 8.3
    • Arena Football 8.4
    • Canadian football 8.5
    • Baseball 8.6
  • References 9
  • External links 10

Signs and symptoms

Other than repeated brain trauma, the risk factors for CTE remain unknown.[3] So far, CTE can only be diagnosed posthumously. Research studies are looking into possible genetic, exposure level, and other risk factors.

Researchers who conducted a CTE pilot study at UCLA described the findings as a significant step toward being able to diagnose CTE in living patients.[4]

Research performed at the Cleveland Clinic and at the University of Rochester[5] has shown that in addition to concussions, sub-concussive head hits also produce measurable changes in athletes' MRI. Bazarian (University of Rochester) demonstrated persistent changes in white matter properties in athletes who did not experience a concussion during a season but had several blows to the head. This finding is consistent with the hypothesis that a number of sub-concussive events may be as damaging as a frank concussion. The MRI changes reported in this study were causally related to the presence in serum of players of auto-antibodies against the brain protein S100B. The sequence of events proposed by Janigro at the Cleveland Clinic links sub-concussion to leakage of the blood-brain barrier, extravasation of brain S100B in blood,[6] activation of an immune response due to antigen unmasking and production of auto-antibodies. These auto-antibodies maybe pathogenic as shown for example in epileptic human brain.[7] The link between S100B auto-antibodies and CTE needs experimental confirmation; however, antibodies against S100B or other brain protein have been found in patients affected by Alzheimer's disease.

Clinical symptoms of CTE are only beginning to be understood. They are thought to include changes in mood (i.e. depression, suicidality, apathy, anxiety), cognition (i.e. memory loss, executive dysfunction), behavior (short fuse, aggression), and in some cases motor disturbance (i.e. difficulty with balance and gait). While the pathology of CTE has been broken up into stages,[8] the clinical symptoms and clinical progression of CTE are not yet fully understood.

Pathology

The primary physical manifestations of CTE include a reduction in brain weight, associated with atrophy of the frontal and temporal cortices and medial temporal lobe. The lateral ventricles and the third ventricle are often enlarged, with rare instances of dilation of the fourth ventricle.[3] Other physical manifestations of CTE include anterior cavum septi pellucidi and posterior fenestrations, pallor of the substantia nigra and locus ceruleus, and atrophy of the olfactory bulbs, thalamus, mammillary bodies, brainstem and cerebellum.[9] As CTE progresses, there may be marked atrophy of the hippocampus, entorhinal cortex, and amygdala.[10]

On a microscopic scale the pathology includes neuronal loss, tau deposition, TAR DNA-binding Protein 43 (TDP 43)[8] beta-amyloid deposition, white matter changes, and other abnormalities. The tau deposition occurs as dense neurofibrillary tangles (NFT), neurites, and glial tangles, which are made up of astrocytes and other glial cells[3] Beta-amyloid deposition is a relatively uncommon feature of CTE.

A small group of individuals with CTE have chronic traumatic encephalomyopathy (CTEM), characterized by motor neuron disease symptoms and mimics Amyotrophic Lateral Sclerosis (ALS) (known in the United States as Lou Gehrig’s disease). Progressive muscle weakness and balance and gait problems seem to be early signs of CTEM.[3]

In March 2014, researchers announced the discovery of an exosome particle created by the brain which has been shown to contain trace proteins indicating the presence of the disease.[11]

Diagnosis

The lack of in-vivo techniques to show distinct biomarkers for CTE is the reason CTE cannot be diagnosed during lifetime. The only known diagnosis for CTE occurs by studying the brain tissue after death. Concussions are non-structural injuries and do not result in brain bleeding, which is why most concussions cannot be seen on routine neuroimaging tests such as CT or MRI.[12] Acute concussion symptoms (those that occur shortly after an injury) should not be confused with CTE. Differentiating between prolonged post-concussion syndrome (PCS, where symptoms begin shortly after a concussion and last for weeks, months, and sometimes even years) and CTE symptoms can be difficult. Research studies are currently examining whether neuroimaging can detect subtle changes in axonal integrity and structural lesions that can occur in CTE.[10] Recently, more progress in in-vivo diagnostic techniques for CTE has been made, using DTI, fMRI, MRI, and MRS imaging; however, more research needs to be done before any such techniques can be validated.[3]

Positron Emission Tomography(PET) using a newly developed radiopharmaceutical [18F]FDDNP is being investigated as a tool to allow in-vivo diagnosis of CTE.[13] In late 2013, breaking research was completed by the University of California Los Angeles in which for the first time ever, Chronic Traumatic Encephalopathy was found in living-retired National Football League players. Prior to this breakthrough study conducted by UCLA, Chronic Traumatic Encephalopathy could only be found posthumously through autopsies of diseased athletes, however, this study found the brain disease in numerous living athletes. The scan lit up for tau in all five former players, according to the study. The protein was concentrated in areas that control memory, emotions and other functions—a pattern consistent with the distribution of tau in CTE brains that have been studied following autopsy, according to the researchers. A small study of 5 patients has been reported to show accumulation of tau protein in the brains of suspected CTE patients seen on PET scan.[14] This finding is also noted in a number of other dementing disorders such as Alzheimer's disease, Pick's disease, progressive supranuclear palsy, corticobasal degeneration and familial frontotemporal dementia and Parkinsonism linked to chromosome abnormality.[15] At the current time PET scanning is not widely used in screening because of the high cost of the study (estimated to be $5,000 USD).[16]

A putative biomarker for CTE is the presence in serum of auto-antibodies against the brain. These may enter the brain by means of a disrupted blood-brain barrier, and attack neuronal cells which are normally protected from an immune onslaught.[17] Given the large numbers of neurons present in the brain, and considering the poor penetration of antibodies across a normal blood-brain barrier, there is an extended period of time between the initial events (head hits) and the development of any signs or symptoms. Nevertheless, autoimmune changes in blood of players may consist the earliest measurable event predicting CTE.

Robert A. Stern, one of the scientists at the Boston University CTE Center,[18] said in 2015 that "he expected a test to be developed within a decade that will be able to diagnose C.T.E. in living people".[19]

Prevention

No agreement has been reached about how much or little head trauma is needed for CTE to develop, or the overarching mechanism of injury.[20] Recently, investigators demonstrated that immobilizing the head during a blast exposure prevented the learning and memory deficits associated with CTE that occurred when the head was not immobilized. This research, represents the first case series of postmortem brains from U.S. military personnel who were exposed to a blast and/or a concussive injury.[1] However, the protein tau which binds microtubules of brain axons, was found to have an elastic limit which is speed dependent; when breached, the microtubles become undone and cause brain swellings due to backups of information transport.[21]

Epidemiology

CTE is a neurological degenerative disease found in individuals who have been subjected to repetitive traumatic brain injuries[10] by way of the acceleration of the head on impact and the subsequent damage to axons. While repetitive brain trauma is thought to be necessary to cause CTE, it is not sufficient, meaning that not everyone exposed to repetitive brain trauma will get the disease. Other risk factors are possible but have not yet been reported, due to the donated brains in the brain bank at the Boston University School of Medicine and elsewhere, which consists mostly of the brains of athletes with a history of professional participation in contact sports.[20] Professional level athletes are the largest demographic to suffer from CTE due to frequent concussions from play in contact-sport. These contact-sports include American football, ice hockey, rugby, boxing, and wrestling.[22] Other individuals that have been diagnosed with CTE were involved in military service, had a previous history of chronic seizures, victims of domestic abuse, and or were involved in activities resulting in repetitive head collisions.[23] Reports of CTE have steadily increased in younger athletes, most likely due to increased awareness of the issue and perhaps due in part to athletes becoming bigger and stronger producing greater magnitudes of force in collision.[22]

History

CTE was first noticed as a “peculiar condition” casually referred to as a “punch-drunk” syndrome in boxers and prizefighters before the 1930s. It was recognized as affecting individuals who took considerable blows to the head, but was believed to be confined to boxers and not other athletes.[24] In 2008, the Sports Legacy Institute joined with the Boston University School of Medicine (BUSM) to form the Center for the Study of Traumatic Encephalopathy (CSTE).[25] Brain Injury Research Institute (BIRI) also studies the impact of concussions.[26][27]

American football

Between 2008 and 2010, the bodies of twelve former professional American football players underwent postmortem evaluations for CTE, and all of them showed evidence of the disease, indicating a conservatively estimated prevalence rate of 3.7% among professional football players if no other players who died during this period had CTE.[28]

Bennet Omalu, a forensic pathologist and neuropathologist in Pittsburgh, Pennsylvania, found CTE in the brains of Mike Webster, Terry Long, Andre Waters, Justin Strzelczyk, and Tom McHale.[27] Omalu, in 2012 a medical examiner and associate adjunct professor in California, was a co-founder of BIRI[27] and reportedly in 2012 participated in the autopsy of Junior Seau.[26] Omalu's participation was halted during the autopsy after Junior Seau's son revoked previously provided oral permission after he received telephone calls from NFL management denouncing Omalu's professional ethics, qualifications, and motivation.

On December 1, 2012, Kansas City Chiefs linebacker Jovan Belcher killed his girlfriend and drove to Arrowhead Stadium and killed himself in front of then GM Scott Pioli and then head coach Romeo Crennel. A year later, a family lawyer filed a wrongful death lawsuit, on behalf of Belcher's minor daughter, against the Chiefs alleging the team deliberately ignored warning signs of CTE, possibly leading to his suicide. The lawyer also hired a medical examiner to examine Belcher's brain for signs of CTE. On September 29, 2014, it was confirmed that he suffered from CTE.[29]

As of December 2012, thirty-three former National Football League (NFL) players have been diagnosed post-mortem with CTE. Former Detroit Lions lineman and eight-time Pro Bowler Lou Creekmur,[30] former Houston Oilers and Miami Dolphins linebacker John Grimsley,[31] former Tampa Bay Buccaneers guard Tom McHale,[32] former Cincinnati Bengals wide receiver Chris Henry,[33] and former Chicago Bears safety Dave Duerson,[34] have all been diagnosed post-mortem with CTE. Other football players diagnosed with CTE include former Buffalo Bills star running back Cookie Gilchrist[35] and Wally Hilgenberg.,[36] among others.

An autopsy conducted in 2010 on the brain of Owen Thomas, a 21-year-old junior lineman at the University of Pennsylvania who committed suicide, showed early stages of CTE, making him the second youngest person to be diagnosed with the condition. Thomas was the second amateur football player diagnosed with CTE, after Mike Borich, who died at 42.[37] The doctors who performed the autopsy indicated that they found no causal connection between the nascent CTE and Thomas's suicide. There were no records of Thomas missing any playing time due to concussion, but as a player who played hard and "loved to hit people," Thomas may have played through concussions and received thousands of subconcussive impacts on the brain.[38]

In October 2010, 17-year-old Nathan Stiles died hours after his high school homecoming football game, where he took a hit that would be the final straw in a series of subconcussive and concussive blows to the head for the highschooler. The CSTE diagnosed him with CTE, making him the youngest reported CTE case to date.[39]

In July, 2011, Colt tight end John Mackey died after several years of deepening symptoms of frontotemporal dementia. BUSM was reported to be planning to examine his brain for signs of CTE.[40] The CSTE found CTE in his brain post-mortem.[41]

In 2012, retired NFL player Junior Seau committed suicide with a gunshot wound to the chest.[42] There was speculation that he suffered brain damage due to CTE.[26][43][44][45][46] Seau's family donated his brain tissue to the National Institute of Neurological Disorders and Stroke.[47] On January 10, 2013, the brain pathology report was revealed and Seau did have evidence of CTE.[48]

On July 27, 2012, an autopsy report concluded that the former Atlanta Falcons safety Ray Easterling, who committed suicide in April 2012, had CTE.[49][50]

The NFL has taken measures to help prevent CTE. As of July 2011, the NFL has changed its return-to-play rules. The number of contact practices has been reduced, based on the recent collective bargaining agreement.[51]

In 2012, some four thousand former NFL players "joined civil lawsuits against the League, seeking damages over the League’s failure to protect players from concussions, according to Judy Battista of the [New York] Times".[52]

On August 30, 2013, the NFL reached a $765 million settlement with the former NFL players over the head injuries.[53] The settlement created a $675 million compensation fund from which former NFL players can collect depending on the extent of their conditions. Severe conditions such as Lou Gehrig's disease and postmortem diagnosed chronic traumatic encephalopathy would be entitled to payouts as high as $5 million.[53] From the remainder of the settlement, $75 million will be used for medical exams, and $10 million will be used for research and education.[53] However, in January, 2014, U.S. District Judge Anita B. Brody refused to accept the agreed settlement because "the money wouldn't adequately compensate the nearly 20,000 men not named in the suit".[54] In the settlement Brody did accept, she argued that people "cannot be compensated for C.T.E. in life because no diagnostic or clinical profile of C.T.E. exists, and the symptoms of the disease, if any, are unknown”.[19]

Bernie Kosar, who sustained several concussions during his twelve-year NFL career and has shown symptoms of CTE, has submitted himself to an experimental treatment program led by Rick Sponaugle of Florida that has alleviated many of his symptoms. The program, the details of which are proprietary, involves increasing blood flow to damaged portions of the brain. He has spoken out in public about his successes with the treatment in the hopes that others who suffer from the disease can find relief and avoid the fates of Duerson and Seau, both of whom were personal friends of Kosar's.[55] The efficacy of Sponaugle's treatment has not been validated through any published clinical trials or other validated scientific process, nor has this treatment been supported by any reputable medical group conducting research into CTE.

In September 2015, the CSTE announced that CTE had been identified 87 of 91 former NFL players, or 96% of the sample.

Early retirements

In the 2015 off-season, a number of NFL players retired early with concussion- and other health-risk as express or possible motive. The youngest, in March, Chris Borland, 24, would have been entering his second year in the league after a third-round draft out of University of Wisconsin and a "stellar" rookie season with the San Francisco 49ers.[56] Explaining his decision to ESPN, Borland said "I just honestly want to do what's best for my health. ... From what I've researched and what I've experienced, I don't think it's worth the risk."[57]

Patrick Willis, a seven-time All-Pro linebacker also with the 49ers, [had previously] announced that he was retiring rather than risk further injury. Cornerback Cortland Finnegan of the St. Louis Rams, quarterback Jake Locker of the Tennessee Titans and linebacker Jason Worilds of the Pittsburgh Steelers have all retired this off-season as well. ... Worilds, who was paid $9.75 million by the Steelers in 2014, was expected to sign a big contract with another team as a free agent. [Borland] won Rookie of the Week honors twice and was Defensive Rookie of the Month in November [in 2014]. He earned the league-minimum $420,000 and a bonus of $154,000, according to Overthecap.com.[56]

ESPN noted that four of the retirees—Borland, Willis, Locker and Worilds—were under 30 years of age and that Borland had replaced Willis during the season due to a Willis toe injury and had been expected to replace him in the coming year. It also recounted Borland's course of decision from a possible concussion he "played through" in training camp as he was trying to make the team to the post-season decision. He said in making his decision he'd "read about Mike Webster and Dave Duerson and Ray Easterling"—two of them suicides, all, per ESPN, "diagnosed with the devastating brain disease Chronic traumatic encephalopathy, or CTE, after their deaths"—and he had talked to "prominent concussion researchers and former players" after the season.[57]

Ice hockey

Athletes from other sports have also been identified as having CTE, such as hockey player Bob Probert.[58] Neuropathologists at Boston University diagnosed Reg Fleming as the first hockey player known to have the disease. This discovery was announced in December 2009, six months after Fleming's death.[59]

Rick Martin, best known for being part of the Buffalo Sabres' French Connection, was diagnosed with CTE after his brain was posthumously analyzed.[60] Martin was the first documented case of an ice hockey player not known as an enforcer to have developed CTE; Martin was believed to have developed the disease primarily as a result of a severe concussion he suffered in 1977 while not wearing a helmet. The disease was low-grade and asymptomatic in his case, not affecting his cognitive functions. He died of a heart attack in March 2011 at the age of 59.[61]

Also within a few months in 2011, the deaths of three hockey "enforcers"Derek Boogaard from a combination of too many painkillers and alcohol, Rick Rypien, an apparent suicide, and Wade Belak, who, like Rypien, had reportedly suffered from depression; and all with a record of fighting, blows to the head and concussions—led to more concerns about CTE. Boogaard's brain was examined by BUSM, which in October 2011 determined the presence of CTE.[62] One National Hockey League player known in part for leading "the thump parade", former Boston Bruin and current Florida Panthers right winger Shawn Thornton mulled over the "tragic coincidence" of the three recent league deaths and agreed that their deaths were due to the same cause, yet still defended the role of fighting on the rink.[63]

Professional wrestling

In 2007, neuropathologists from the Sports Legacy Institute (an organization co-founded by Christopher Nowinski, himself a former professional wrestler) examined the brain of Chris Benoit, a professional wrestler with the WWE, who had apparently killed his wife and son before committing suicide. The suicide and double murder were originally attributed to anabolic steroid abuse, but a brain biopsy confirmed pathognomonic CTE tissue changes: large aggregations of tau protein as manifested by neurofibrillary tangles and neuropil threads, which cause neurodegeneration.[64][65]

In 2009, Bennet Omalu discovered CTE in recently retired wrestler Andrew "Test" Martin, who died at age 33 from an accidental medicine overdose.[66]

Mixed martial arts

It is believed that former MMA Fighters Gary Goodridge and James Leahy suffer from CTE, as a result of repeated head trauma from their fighting careers. Delayed onset is becoming increasingly common as with Leahy, whose symptoms developed many years post any sporting activity.[67]

Association football

In 2012, Patrick Grange a semi-professional footballer, was diagnosed in an autopsy with Stage 2 CTE with motor neuron disease. "The fact that Patrick Grange was a prolific header is important," Christopher Nowinski, co-founder of the Sports Legacy Institute, said in an e-mail. "We need a larger discussion around at what age we introduce headers, and how we set limits to exposure once it is introduced."[68] Grange played football at high school; college at Illinois-Chicago and New Mexico; in the Premier Development League; for Albuquerque Asylum and Chicago Fire Premier. He died of ALS at age 29 in 2012 with a posthumous diagnosis of CTE.[69]

In 2014, Brazilian footballer Bellini was posthumously diagnosed with CTE. Bellini, along with Pelé, led Brazil to World Cup victories in 1958 and 1962.[70]

Rugby

Researchers found Australian rugby union player Barry "Tizza" Taylor died in 2013 of complications of severe CTE with dementia at age 77. Taylor played for 19 years in amateur and senior leagues before becoming a coach.[68]

In 2013, Dr Willie Stewart, Consultant Neuropathologist at the Institute of Neurological Sciences at the Southern General Hospital in Glasgow, identified CTE in the brain of a former amateur rugby player in his 50s which is believed to be the first confirmed case of early onset dementia caused by CTE in a rugby player.[71]

Australian Rules Football

Australian Rules Football Player Greg Williams (Australian footballer) is thought to have CTE as a result of concussions over a 250-game career.[72]

Major League Baseball

In 2012, the brain tissue of Ryan Freel was tested after his death. It was found that he had Stage 2 CTE. Freel was the first Major League Baseball player to be diagnosed with chronic traumatic encephalopathy.[73]

Research

In 2008, the CSTE at Boston University at the BU School of Medicine started the CSTE brain bank at the Bedford VA Hospital to analyze the effects of CTE and other neurodegenerative diseases on the brain and spinal cord of athletes, military veterans, and civilians[8] To date the CSTE Brain Bank is the largest CTE tissue repository in the world.[3] On December 21, 2009, the Taylor Twellman, who had to retire from the New England Revolution because of post-concussion symptoms, agreed to donate his brain upon his death. As of 2010, the CSTE Brain Donation Registry consists of over 250 current and former athletes.[79] In 2011, former North Queensland Cowboys player Shaun Valentine became the first rugby player to agree to donate his brain upon his death, in response to recent concerns about the effects of concussions on Rugby League players, who do not use helmets. Also in 2011, boxer Micky Ward, whose career inspired the film The Fighter, agreed to donate his brain upon his death.

In related research, the Center for the Study of Retired Athletes, which is part of the Department of Exercise and Sport Science at the University of North Carolina at Chapel Hill, is conducting research funded by National Football League Charities to "study former football players, a population with a high prevalence of exposure to prior Mild Traumatic Brain Injury (MTBI) and sub-concussive impacts, in order to investigate the association between increased football exposure and recurrent MTBI and neurodegenerative disorders such as cognitive impairment and Alzheimer’s disease (AD)".[80]

In February 2011, Dave Duerson committed suicide,[46] leaving text messages to loved ones asking that his brain be donated to research for CTE.[81] The family got in touch with representatives of the Boston University center studying the condition, said Robert Stern, the co-director of the research group. Stern said Duerson's was the first time he was aware of that such a request had been left by a suicide potentially linked to CTE.[82] Stern and his colleagues found high levels of the protein tau in Duerson's brain. These elevated levels, which were abnormally clumped and pooled along the brain sulci,[8] are indicative of CTE.[34]

In July 2010, NHL enforcer Bob Probert died of heart failure. Before his death, he asked his wife to donate his brain to CTE research because it was noticed that Probert experienced a mental decline in his 40s. In March 2011, researchers at Boston University concluded that Probert had CTE upon analysis of the brain tissue he donated. He is the second NHL player from the program at the Center for the Study of Traumatic Encephalopathy to be diagnosed with CTE postmortem.[83]

BUSM has also found indications of links between Amyotrophic lateral sclerosis (ALS) and CTE in athletes who have participated in contact sports. Tissue for the study was donated by twelve athletes and their families to the CSTE Brain Bank at the Bedford, Massachusetts VA Medical Center.[84]

Researchers at the Cleveland Clinic have shown auto-antibodies directed against the brain of players who experience a large number of head hits but no concussions, suggesting that even sub-concussive episodes may be damaging to the brain.[5]

In 2013, President Barack Obama announced the creation of the Chronic Effects of Neurotrauma Consortium or CENC, a federally funded research project devised to address the long-term effects of mild traumatic brain injury in military service personnel (SMs) and Veterans.[85][86][87] After a competitive application process, a consortium led by Virginia Commonwealth University prevailed and was announced as the recipient of the award by President Obama on August 20, 2013.[88][89][90][91][92][93] At the time of the award, this was the single largest grant ever awarded to Virginia Commonwealth University.[90] Nearly 20% of the more than 2.5 million U.S. Service Members (SMs) deployed since 2003 to Operation Enduring Freedom (OEF) and Operation Iraqi Freedom (OIF) have sustained at least one traumatic brain injury (TBI), predominantly mild TBI (mTBI),[94][95] and almost 8% of all OEF/OIF Veterans demonstrate persistent post-TBI symptoms more than six months post-injury.[96][97] Unlike those head injuries incurred in most sporting events, recent military head injuries are most often the result of blast wave exposure. Explosive munitions, predominantly improvised explosive device’ (IEDs), have caused the overwhelming majority of these identified cases. The incidence is likely even significantly higher than reported, as many mTBIs may go unrecognized during and even after deployment because of more visible concomitant injuries capturing greater attention, clinicians’ limited awareness of the often subtle initial findings, and patients’ reduced subjective awareness related to cognitive deficits in the acute period.[98] The mission of the CENC is to fill the gaps in knowledge about the basic science of mild TBI (also termed concussion), to determine its effects on late-life outcomes and neurodegeneration, to identify service members most susceptible to these effects, and to identify the most effective treatment strategies.[88][89][90][99] The CENC is a multi-center collaboration linking premiere basic science, translational, and clinical neuroscience researchers from the DoD, VA, academic universities, and private research institutes to effectively address the scientific, diagnostic, and therapeutic ramifications of mild TBI and its long-term effects.[90][91][92][93][100] The CENC serves as the comprehensive research network for DoD and VA that focuses on the long-term effects of combat-related and military-relevant TBI.[93] The CENC is designed to conduct research that provides clinically relevant answers and interventions for current service members and Veterans and to develop the long-term solutions to the chronic effects of TBI. The CENC is identifying and characterizing the anatomic, molecular, and physiological mechanisms of chronic injury from TBI and potential neurodegeneration, investigating the relationship of comorbidities (psychological, neurological, sensory, motor, pain, cognitive, neuroendocrine) of trauma and combat-exposure to TBI with neurodegeneration, and assessing the efficacy of existing and novel treatment and rehabilitation strategies for chronic effects and neurodegeneration following TBI.[99] The project principal investigator for the CENC is David Cifu, Chairman and Herman J. Flax professor[101] of the Department of Physical Medicine and Rehabilitation (PM&R) at Virginia Commonwealth University (VCU) in Richmond, Virginia, Staff Physiatrist at the Hunter Holmes McGuire Veterans Administration Medical Center (HHM-VAMC),[102] Founding Director of the VCU-Center for Rehabilitation Science and Engineering[103] and National Director of PM&R Services in the Department of Veterans Affairs' Veterans Health Administration.[89][90][91][104][105] Project co-principal investigators are Ramon Diaz-Arrastia, Professor of Neurology, Uniformed Services University of the Health Sciences, and Director of Clinical Research at the Center for Neuroscience and Regenerative Medicine (CNRM),[93] and Rick L. Williams, statistician at RTI International and a Fellow of the American Statistical Association.[100]

The hypothesis that repeated concussion or subconcussive impacts cause CTE remains unproven. Confirmation is needed by prospective longitudinal studies utilizing standard scientific method. [106]

As of September 2015, the CSTE had diagnosed CTE in 96% of NFL players analyzed.

Notable cases

References

  1. ^ a b Goldstein LE, Fisher AM, Tagge CA, Zhang XL, Velisek L, Sullivan JA, Upreti C, Kracht JM, Ericsson M, Wojnarowicz MW, Goletiani CJ, Maglakelidze GM, Casey N, Moncaster JA, Minaeva O, Moir RD, Nowinski CJ, Stern RA, Cantu RC, Geiling J, Blusztajn JK, Wolozin BL, Ikezu T, Stein TD, Budson AE, Kowall NW, Chargin D, Sharon A, Saman S, Hall GF, Moss WC, Cleveland RO, Tanzi RE, Stanton PK, McKee AC (2012). "Chronic traumatic encephalopathy in blast-exposed military veterans and a blast neurotrauma mouse model". Sci Transl Med 4 (134): 134ra60.  
  2. ^ Baseline Testing - Centers for Disease Control and Prevention Website
  3. ^ a b c d e f Baugh CM, Stamm JM, Riley DO, Gavett BE, Shenton ME, Lin A, Nowinski CJ, Cantu RC, McKee AC, Stern RA (2012). "Chronic traumatic encephalopathy: neurodegeneration following repetitive concussive and subconcussive brain trauma". Brain Imaging Behav 6 (2): 244–254.  
  4. ^ espn.go.com, 2013/01/22.
  5. ^ a b Marchi N, Bazarian JJ, Puvenna V, Janigro M, Ghosh C, Zhong J, Zhu T, Blackman E, Stewart D, Ellis J, Butler R, Janigro D (2013). "Consequences of repeated blood-brain barrier disruption in football players". PLoS ONE 8 (3): e56805.  
  6. ^ Pham N, Fazio V, Cucullo L, Teng Q, Biberthaler P, Bazarian JJ, Janigro D (2010). "Extracranial sources of S100B do not affect serum levels". PLoS ONE 5 (9): e12691.  
  7. ^ Iffland PH, Carvalho-Tavares J, Trigunaite A, Man S, Rasmussen P, Alexopoulos A, Ghosh C, Jørgensen TN, Janigro D (2013). "Intracellular and circulating neuronal antinuclear antibodies in human epilepsy". Neurobiol. Dis. 59: 206–19.  
  8. ^ a b c d McKee AC, Stern RA, Nowinski CJ, Stein TD, Alvarez VE, Daneshvar DH, Lee HS, Wojtowicz SM, Hall G, Baugh CM, Riley DO, Kubilus CA, Cormier KA, Jacobs MA, Martin BR, Abraham CR, Ikezu T, Reichard RR, Wolozin BL, Budson AE, Goldstein LE, Kowall NW, Cantu RC (2013). "The spectrum of disease in chronic traumatic encephalopathy". Brain 136 (Pt 1): 43–64.  
  9. ^ Jancin, Bruce (1 June 2011). "Chronic traumatic encephalopathy test sought". Internal Medicine News. Retrieved 15 December 2013. 
  10. ^ a b c McKee AC, Cantu RC, Nowinski CJ, Hedley-Whyte ET, Gavett BE, Budson AE, Santini VE, Lee HS, Kubilus CA, Stern RA (2009). "Chronic traumatic encephalopathy in athletes: progressive tauopathy after repetitive head injury". J. Neuropathol. Exp. Neurol. 68 (7): 709–35.  
  11. ^ 'PR Newswire, 2014/03/05.
  12. ^ Poirier MP (2003). "Concussions: Assessment, management, and recommendations for return to activity". Clinical Pediatric Emergency Medicine 4 (3): 179–85.  
  13. ^ Zhang W, Arteaga J, Cashion DK, Chen G, Gangadharmath U, Gomez LF, Kasi D, Lam C, Liang Q, Liu C, Mocharla VP, Mu F, Sinha A, Szardenings AK, Wang E, Walsh JC, Xia C, Yu C, Zhao T, Kolb HC (2012). "A highly selective and specific PET tracer for imaging of tau pathologies". J. Alzheimers Dis. 31 (3): 601–12.  
  14. ^ Small GW, Kepe V, Siddarth P, Ercoli LM, Merrill DA, Donoghue N, Bookheimer SY, Martinez J, Omalu B, Bailes J, Barrio JR (2013). "PET scanning of brain tau in retired national football league players: preliminary findings". Am J Geriatr Psychiatry 21 (2): 138–144.  
  15. ^ Spillantini MG, Goedert M (1998). "Tau protein pathology in neurodegenerative diseases". Trends Neurosci. 21 (10): 428–33.  
  16. ^ Wagner, Kyle. "Can Science See Inside An NFL Player's Skull Before It's Too Late?". Deadspin. Retrieved 29 November 2013. 
  17. ^ John Mangels, Plain DealerCleveland , 2013/03.
  18. ^ "Robert A. Stern, Ph.D." (bio), BU CTE Center. Retrieved 2015-08-11.
  19. ^ a b Nocera, Joe, "N.F.L.’s Bogus Settlement for Brain-Damaged Former Players" (op-ed column), New York Times, August 11, 2015. Retrieved 2015-08-11.
  20. ^ a b Saulle M, Greenwald BD (2012). "Chronic traumatic encephalopathy: a review" (PDF). Rehabil Res Pract 2012: 1–9.  
  21. ^ physorg.org
  22. ^ a b Daneshvar DH, Nowinski CJ, McKee AC, Cantu RC (2011). "The epidemiology of sport-related concussion". Clin Sports Med 30 (1): 1–17, vii.  
  23. ^ Daneshvar DH, Riley DO, Nowinski CJ, McKee AC, Stern RA, Cantu RC (2011). "Long-term consequences: effects on normal development profile after concussion". Phys Med Rehabil Clin N Am 22 (4): 683–700, ix.  
  24. ^ Martland H (1928). "Punch Drunk". The Journal of the American Medical Association 91 (15): 1103–1107.  
  25. ^ a b Staff. "New pathology findings show significant brain degeneration in professional athletes with history of repetitive concussions", Center for the Study of Traumatic Encephalopathy, September 25, 2008.
  26. ^ a b c "Seau family revisiting brain decision". ESPN.com. May 6, 2012. Archived from the original on May 6, 2012. 
  27. ^ a b c "Our Team".  
  28. ^ Gavett BE, Stern RA, McKee AC (2011). "Chronic traumatic encephalopathy: a potential late effect of sport-related concussive and subconcussive head trauma". Clin Sports Med 30 (1): 179–188, xi.  
  29. ^ "OTL: Belcher's brain had CTE signs". ESPN.com. 
  30. ^ Case Study: Lou Creekmur, Center for the Study of Traumatic Encephalopathy. Accessed August 17, 2010.
  31. ^ Case Study: John Grimsley, Center for the Study of Traumatic Encephalopathy. Accessed August 17, 2010.
  32. ^ Case Study: Thomas McHale, Center for the Study of Traumatic Encephalopathy. Accessed August 17, 2010.
  33. ^  
  34. ^ a b Deardorff, Julie (May 2, 2011). "Study: Duerson had brain damage at time of suicide". Los Angeles Times. Retrieved May 2, 2011. 
  35. ^ Gaughan, Mark (November 6, 2011). Gilchrist had severe damage to brain. The Buffalo News. Retrieved November 6, 2011.
  36. ^  
  37. ^ Staff. "First former college football player diagnosed with CTE: Former Brigham Young University Football Coach Died at 42", Center for the Study of Traumatic Encephalopathy, October 22, 2009. Accessed October 19, 2010.
  38. ^ Schwarz, Alan. "Suicide Reveals Signs of a Disease Seen in N.F.L.", The New York Times, September 13, 2010. Accessed September 14, 2010.
  39. ^ "Brain Bank examines athletes' hard hits". CNN.com. 27 Jan 2012. Retrieved 3 May 2012. 
  40. ^ Cowherd, Kevin, "Mackey leaves enduring legacy on and off field", Baltimore Sun, July 07, 2011. Retrieved 2011-09-11.
  41. ^ "Study : new cases of CTE in players". ESPN.com. 3 Dec 2012. Retrieved 3 May 2012. 
  42. ^ Duke, Alan; Chelsea J. Carter (3 May 2012). "Junior Seau's death classified as a suicide". CNN.com. Retrieved 3 May 2012. 
  43. ^ Duke, Alan; Chelsea J. Carter. "Doctors to examine Junior Seau's brain". CNN. Retrieved 4 May 2012. 
  44. ^ Given, Karen (May 12, 2012). "Researchers Compete For Athletes' Brains". wbur.org. Archived from the original on May 25, 2012. 
  45. ^ Farmer, Sam (May 3, 2012). "Family of Junior Seau will allow his brain to be studied". Los Angeles Times. Archived from the original on May 4, 2012. 
  46. ^ a b Smith, Michael David, "Boston researchers request Junior Seau’s brain". NBCSports Pro Football Talk, May 3, 2012. Retrieved 2012-05-03.
  47. ^ Lavelle, Janet (July 12, 2012). "Seau brain tissue donated for research". U-T San Diego. Archived from the original on July 12, 2012. 
  48. ^ Wilner, Barry (January 10, 2013). "NFL's Junior Seau had brain disease CTE when he killed himself". The Washington Times. 
  49. ^ "Autopsy: Former Falcons safety Ray Easterling had brain disease associated with concussions", CBS/AP, July 27, 2012.
  50. ^ "Ray Easterling autopsy found signs of brain disease CTE", New York Times, July 27, 2012.
  51. ^ "Even high school practices will be tougher than NFL workouts". NFL.com. 24 July 2011. 
  52. ^ Coll, Steve, "Is Chaos a Friend of the N.F.L.?", The New Yorker, December 26, 2012. Citing Timesthe . Retrieved 2012-12-27.
  53. ^ a b c Connor, Tracy (30 August 2013). "NFL and players reach $765 million settlement over head injuries". U.S. News. Retrieved 15 December 2013. 
  54. ^ "Judge scuttles NFL's $760M concussion settlement", MarketWatch citing NBC10 Philadelphia, January 14, 2014. Retrieved 2014-01-15.
  55. ^ Bernie Kosar happy to find treatment. Associated Press via ESPN.com. Retrieved January 11, 2013.
  56. ^ a b Belson, Ken, "49ers’ Chris Borland, a Top N.F.L. Rookie, Will Retire Because of Safety Concerns", New York Times, March 17, 2015. Cited in the article: "49ers LB Chris Borland to Retire from NFL" from the 49ers website. The 49ers post gave Borland's NFL and college stats, including: "Borland (5-11, 248) was the second of the 49ers three, third-round draft picks (77th overall) in the 2014 NFL Draft out of the University of Wisconsin. In his only season with the 49ers, Borland appeared in 14 games (eight starts) and registered a team-high 128 tackles, two interceptions, one sack and one fumble recovery. ... Borland finished his playing career at Wisconsin ranked 6th all-time in total tackles (420), 4th in tackles for loss (50) and tied for 8th in sacks (17.0). He played in 55 games (48 starts) for the Badgers and also registered 18 passes defensed, 15 forced fumbles, eight fumble recoveries and three interceptions." Retrieved 2015-03-17.
  57. ^ a b Fainaru-Wada, Mark, and Steve Fainaru, "SF's Borland quits over safety issues", ESPN.com, updated March 17, 2015. Retrieved 2015-03-17.
  58. ^ Schwarz, Alan (2011-03-02). "Hockey Enforcer Bob Probert Paid a Price, With Brain Trauma". www.nytimes.com. Retrieved 2011-03-02. 
  59. ^  
  60. ^ Klein, Jeff Z. (October 5, 2011). "Former Star Had Disease Linked to Brain Trauma". New York Times. 
  61. ^ Golen, Jimmy (October 5, 2011). Brain study finds damage in Rick Martin. Associated Press. Retrieved October 5, 2011.
  62. ^ "Derek Boogard - A Brain 'Going Bad'", New York Times, Dec 5, 2011 10:05 AM ET. Part 3 of a three-part series chronicling Boogard's life and the posthumous research on his brain. Retrieved 2011-12-05.
  63. ^ Shinzawa, Fluto, "Grind of the enforcer difficult to fight through", Boston Globe, September 11, 2011. Retrieved 2011-09-11.
  64. ^ Tagami, Ty, (2010-10-16). "Chris Benoit's father: Murderous rampage resulted from brain damage, not steroids". Atlantic Journal Constitution. Retrieved 2010-10-18. 
  65. ^ Sports Legacy Institute (2007-09-05). "Wrestler Chris Benoit Brain's Forensic Exam Consistent With Numerous Brain Injuries". ScienceDaily. Retrieved 2012-04-30. 
  66. ^ Garber, Greg (2009-12-08). "Andrew 'Test' Martin suffered from postconcussion brain damage, researchers say". ESPN. Retrieved 2009-12-09. 
  67. ^ si.com
  68. ^ a b "First soccer, rugby players diagnosed with CTE", edition.cnn.com, 2014/02/28.
  69. ^ Branch, John, "Brain Trauma Extends to the Soccer Field", New York Times, February 26, 2014. Retrieved 2014-02-26.
  70. ^ washingtonpost.com, 2014/09/23.
  71. ^ BBC News "Rugby 'linked to early onset dementia'", BBC News', 2013/08/03.
  72. ^ smh.com.au
  73. ^ "First Major League Baseball player diagnosed with CTE", edition.cnn.com, 2013/12/15.
  74. ^ Staff. "NFL Players Association to Support Brain Trauma Research at Boston University", Center for the Study of Traumatic Encephalopathy press release dated December 21, 2009. Accessed August 17, 2010.
  75. ^ Support and Funding, Center for the Study of Traumatic Encephalopathy. Accessed August 17, 2010.
  76. ^ Schwarz, Alan. "N.F.L. Donates $1 Million for Brain Studies", The New York Times, April 20, 2010. Accessed August 17, 2010.
  77. ^ "Welch to donate brain for concussion study".  
  78. ^ Staff. "Three active NFL Pro Bowl players to donate brains to research", Center for the Study of Traumatic Encephalopathy press release dated September 14, 2009. Accessed August 17, 2010.
  79. ^ Staff. "20 more NFL stars to donate brains to research", Center for the Study of Traumatic Encephalopathy press release dated February 1, 2010. Accessed August 17, 2010.
  80. ^ "A Study on the Association Between Football Exposure and Dementia in Retired Football Players". UNC College of Arts and Sciences. 
  81. ^ Kusinski, Peggy (2011-02-19). "Dave Duerson Committed Suicide: Medical Examiner". NBC Chicago. Retrieved 2011-02-20. 
  82. ^ Schwarz, Alan (February 20, 2011). "Before Suicide, Duerson Asked for Brain Study". The New York Times. 
  83. ^ Schwarz, Alan (March 2, 2011). "Hockey Brawler Paid Price, With Brain Trauma". The New York Times. Retrieved March 14, 2011. 
  84. ^ "Researchers Discover Brain Trauma in Sports May Cause a New Disease That Mimics ALS", BUSM press release, August 17th, 2010 3:41 pm. Retrieved 2011-09-11.
  85. ^ Jordan, Bryant (August 12, 2013). "Obama Introduces New PTSD and Education Programs". military.com. Retrieved 2 May 2014. 
  86. ^ "Obama administration to research TBI, PTSD in new efforts Read more: Chronic Effects of Neurotrauma Consortium". fiercegovernment.com. Retrieved 2 May 2014. 
  87. ^ "DoD, VA Establish Two Multi-Institutional Consortia to Research PTSD and TBI". va.gov. Retrieved 2 May 2014. 
  88. ^ a b "Fact Sheet: The Obama Administration’s Work to Honor Our Military Families and Veterans". whitehouse.gov. Retrieved 2 May 2014. 
  89. ^ a b c "Fact Sheet: VCU will lead $62 million study of traumatic brain injuries in military personnel". news.vcu.edu. Retrieved 2 May 2014. 
  90. ^ a b c d e "Fact Sheet: Largest federal grant in VCU's history". spectrum.vcu.edu. Retrieved 2 May 2014. 
  91. ^ a b c "VCU to lead major study of concussions". grpva.com. Retrieved 2 May 2014. 
  92. ^ a b "Brain trust - the US consortia tacking military PTSD and brain injury". army-technology.com. Retrieved 2 May 2014. 
  93. ^ a b c d "DOD partners to combat brain injury". army.mil. Retrieved 2 May 2014. 
  94. ^ Warden D. Military TBI during the Iraq and Afghanistan wars. J Head Trauma Rehabil. 2006; 21 (5): 398-402.
  95. ^ "DoD Worldwide Numbers for TBI". dvbic.dcoe.mil. Retrieved 4 Feb 2013. 
  96. ^ Scholten JD, Sayer NA, Vanderploeg RD, Bidelspach DE, Cifu DX (2012). "Analysis of US Veterans Health Administration comprehensive evaluations for traumatic brain injury in Operation Enduring Freedom and Operation Iraqi Freedom Veterans". Brain Inj 26 (10): 1177–84.  
  97. ^ Taylor BC, Hagel EM, Carlson KF, Cifu DX, Cutting A, Bidelspach DE, Sayer NA (2012). "Prevalence and costs of co-occurring traumatic brain injury with and without psychiatric disturbance and pain among Afghanistan and Iraq War Veteran V.A. users". Med Care 50 (4): 342–6.  
  98. ^ Jordan BD (2000). "Chronic traumatic brain injury associated with boxing". Semin Neurol 20 (2): 179–85.  
  99. ^ a b "Goals and Mission". cenc.rti.org. Retrieved 2 May 2014. 
  100. ^ a b "RTI to research mild traumatic brain injury effects in US soldiers". army-technology.com. Retrieved 2 May 2014. 
  101. ^ pmr.vcu.edu/welcome
  102. ^ Hunter Holmes McGuire VA Medical Center - Richmond, VA Home
  103. ^ Vcu-Cerse
  104. ^ pmr.vcu.edu/directory
  105. ^ Zoroya, Gregg (July 29, 2010). "For troops with brain trauma, a long journey back". USA Today. 
  106. ^ McCrory P, Meeuwisse WH, Kutcher JS, Jordan BD, Gardner A (2013). "What is the evidence for chronic concussion-related changes in retired athletes: behavioural, pathological and clinical outcomes?". Br J Sports Med 47 (5): 327–330.  
  107. ^ "Jeff Astle's family unhappy with authorities following research over his death". Sky Sports. Retrieved 20 July 2014. 
  108. ^ bleacherreport.com
  109. ^ a b "bobby-kuntz-and-jay-roberts-brain". huffingtonpost.ca. 2011-07-26. 
  110. ^ Gola, Hank. "Ex-cop pens Cookie Gilchrist bio". New York Daily News. Retrieved 8 September 2012. 
  111. ^ Snyder, Matt. "Report: Ryan Freel was suffering from CTE at time of death". CBSSports.com. Retrieved 15 December 2013. 

External links

  • Boston University Center for the Study of Traumatic Encephalopathy
  • Brain Injury Research Institute
  • McGrath, Ben, "The N.F.L. and the concussion crisis", The New Yorker, January 31, 2011. Includes an account of The New York Times' and Alan Schwarz's editorial focus on CTE.
  • Jahnke, Art, "Looking For Trouble", Bostonia, Fall 2012.
  • Interview with Dr. Janigro on S100B in football players
  • sciencedaily.com, 2013/03.
  • "Concussion blood test", sportsinjuryhandbook.com.
  • "Retired NFL players lose brain function", livescience.com.
  • PBS Frontline, "League of Denial", October 9, 2013.
  • League of Denial: The NFL, Concussions, and the Battle for Truth by Mark Fainaru-Wada and Steve Fainaru]
Traumatic brain injury
Spinal cord injury
Peripheral nerves
Index of the central nervous system
Description
Disease
  • Tests
Treatment
  • Drugs
Description
Disease
Treatment
Principles
Assessment
Clinical prediction rules
Investigations
Management
Principles
Procedures
Pathophysiology
Injury
Mechanism
Region
Demographic
Sequelae
Index of bones and cartilage
Description
    • skull
Disease
Treatment
  • Surgery
This article was sourced from Creative Commons Attribution-ShareAlike License; additional terms may apply. World Heritage Encyclopedia content is assembled from numerous content providers, Open Access Publishing, and in compliance with The Fair Access to Science and Technology Research Act (FASTR), Wikimedia Foundation, Inc., Public Library of Science, The Encyclopedia of Life, Open Book Publishers (OBP), PubMed, U.S. National Library of Medicine, National Center for Biotechnology Information, U.S. National Library of Medicine, National Institutes of Health (NIH), U.S. Department of Health & Human Services, and USA.gov, which sources content from all federal, state, local, tribal, and territorial government publication portals (.gov, .mil, .edu). Funding for USA.gov and content contributors is made possible from the U.S. Congress, E-Government Act of 2002.
 
Crowd sourced content that is contributed to World Heritage Encyclopedia is peer reviewed and edited by our editorial staff to ensure quality scholarly research articles.
 
By using this site, you agree to the Terms of Use and Privacy Policy. World Heritage Encyclopedia™ is a registered trademark of the World Public Library Association, a non-profit organization.
 


Copyright © World Library Foundation. All rights reserved. eBooks from Project Gutenberg are sponsored by the World Library Foundation,
a 501c(4) Member's Support Non-Profit Organization, and is NOT affiliated with any governmental agency or department.