An Overview and Therapeutic Promise of Nutraceuticals Against Sports-Related Brain Injury.

Sports-related traumatic brain injury (TBI) is one of the common neurological maladies experienced by athletes. Earlier, the term 'punch drunk syndrome' was used in the case TBI of boxers and now this term is replaced by chronic traumatic encephalopathy (CTE). Sports-related brain injury can either be short-term or long-term. A common instance of brain injury encompasses subdural hematoma, concussion, cognitive dysfunction, amnesia, headache, vision issue, axonopathy, or even death, if it remains undiagnosed or untreated. Further, chronic TBI may lead to pathogenesis of neuroinflammation and neurodegeneration via tauopathy, the formation of neurofibrillary tangles, and damage to the blood-brain barrier, microglial, and astrocyte activation. Thus, altered pathological, neurochemical, and neurometabolic attributes lead to the modulation of multiple signaling pathways and cause neurological dysfunction. Available pharmaceutical interventions are based on one drug one target hypothesis and are thereby unable to cover altered multiple signaling pathways. However, in recent times, pharmacological intervention of nutrients and nutraceuticals have been explored as they exert a multifactorial mode of action and maintain over homeostasis of the body. There are various reports available showing the positive therapeutic effect of nutraceuticals in sport-related brain injury. Therefore, in the current article, we have discussed the pathology, neurological consequence, sequelae, and perpetuation of sports-related brain injury. Further, we have discussed various nutraceutical supplements as well as available animal models to explore the neuroprotective effect/ upshots of these nutraceuticals in sports-related brain injury.

Bilateral Looser zones or pseudofractures in the anteromedial tibia as a component of medial tibial stress syndrome in athletes.

PURPOSE: Medial tibial stress syndrome (MTSS) represents a common diagnosis in individuals exposed to repetitive high-stress loads affecting the lower limb, e.g., high-performance athletes. However, the diagnostic approach and therapeutic regimens are not well established. METHODS: Nine patients, diagnosed as MTSS, were analyzed by a comprehensive skeletal analysis including laboratory bone turnover parameters, dual-energy X-Ray absorptiometry (DXA), and high-resolution peripheral quantitative computed tomography (HR-pQCT). RESULTS: In 4/9 patients, bilateral pseudofractures were detected in the mid-shaft tibia. These patients had significantly lower levels of 25-hydroxycholecalciferol compared to patients with MTSS but similar levels of bone turnover parameters. Interestingly, the skeletal assessment revealed significantly higher bone mineral density (BMD) Z-scores at the hip (1.3 ± 0.6 vs. - 0.7 ± 0.5, p = 0.013) in patients with pseudofractures and a trend towards higher bone microarchitecture parameters measured by HR-pQCT at the distal tibia. Vitamin D supplementation restored the calcium-homeostasis in all patients. Combined with weight-bearing as tolerated, pseudofractures healed in all patients and return to competition was achieved. CONCLUSION: In conclusion, deficient vitamin D levels may lead to pseudofractures due to localized deterioration of mineralization, representing a pivotal component of MTSS in athletes with increased repetitive mechanical loading of the lower limbs. Moreover, the manifestation of pseudofractures is not a consequence of an altered BMD nor microarchitecture but appears in patients with exercise-induced BMD increase in combination with reduced 25-OH-D levels. The screening of MTSS patients for pseudofractures is crucial for the initiation of an appropriate treatment such as vitamin D supplementation to prevent a prolonged course of healing or recurrence. LEVEL OF EVIDENCE: III.

The effect of age of first exposure to competitive fighting on cognitive and other neuropsychiatric symptoms and brain volume.

It has long been established that fighting sports such as boxing and mixed martial arts can lead to head injury. Prior work from this group on the Professional Fighters Brain Health Study found that exposure to repetitive head impacts is associated with lower brain volumes and decreased processing speed in fighters. Current and previously licensed professional fighters were recruited, divided into active and retired cohorts, and matched with a control group that had no prior experience in sports with likely head trauma. This study examined the relationship between age of first exposure (AFE) to fighting sports and brain structure (MRI regional volume), cognitive performance (CNS Vital Signs, iComet C3), and clinical neuropsychiatric symptoms (PHQ-9, Barratt Impulsiveness Scale). Brain MRI data showed significant correlations between earlier AFE and smaller bilateral hippocampal and posterior corpus callosum volumes for both retired and active fighters. Earlier AFE in active fighters was correlated with decreased processing speed and decreased psychomotor speed. Retired fighters showed a correlation between earlier AFE and higher measures of depression and impulsivity. Overall, the results help to inform clinicians, governing bodies, parents, and athletes of the risks associated with beginning to compete in fighting sports at a young age.

Characterizing the Link Between Glial Activation and Changed Functional Connectivity in National Football League Players Using Multimodal Neuroimaging.

OBJECTIVE: The primary objective of this preliminary study was to examine the impact of NFL play on interregional functional connectivity between two brain regions, the supramarginal gyrus (SMG) and the thalamus, identified as having higher binding of [11C]DPA-713 in NFL players. The authors' secondary objective was to examine the effect of years since play on the interregional connectivity. METHODS: Resting-state functional MRI was used to examine functional brain changes between regions with evidence of past injury in active or recently retired NFL players (defined as ≤12 years since NFL play) and distantly retired players (defined as >12 years since NFL play). Age-comparable individuals without a history of concussion or participation in collegiate or professional collision sports were included as a control group. RESULTS: Compared with healthy control subjects, NFL players showed a loss of anticorrelation between the left SMG and bilateral thalami (mean z score=-2.434, p=0.015). No difference was observed when examining right SMG connectivity. The pattern of connectivity in active and recently retired players mimicked the pattern observed in distantly retired players and older control subjects. CONCLUSIONS: Further study of the clinical significance of this altered pattern of interregional connectivity in active and recently retired NFL players is needed.

Isolated lateral collateral ligament complex injury in rock climbing and Brazilian Jiu-jitsu.

We report two occurrences of high-grade tears of the lateral collateral ligament complex (LCLC), consisting of the anterolateral ligament (ALL) and fibular collateral ligament (FCL). One injury occurred in a rock climber and the other in a martial artist. Increasing awareness of isolated injuries of the LCLC will allow for appropriate diagnosis and management. We review and discuss the anatomy of the LCLC, the unique mechanism of isolated injury, as well as physical and imaging examination findings.

The protective effect of education on cognition in professional fighters.

Education has a protective effect against cognitive deficits following various forms of brain insult. Professional fighting (boxing and mixed martial arts) provides a model for assessing the impact of cumulative brain injuries on cognition and brain health. In the current cross-sectional observational study, we explore whether education would be protective against cognitive loss in fighters. We tested 141 professional fighters using a computerized neurocognitive battery, in addition to structural MRI. We used automated segmentation software to compute the volumes of various brain structures. We found fighters with high school education or less to show more associations between fight exposure and cognitive test scores. The relationship between brain structure volume and exposure did not differ based on education. These results are interpreted as putatively showing a protective effect of education on functional integrity in fighters, although longitudinal data and a larger sample size are required to further understand this relationship.

[Progress of researches on protective effect of moxibustion on myocardial cells during exhaustive exercise ].

Moxibustion is a side-effect-free external therapy for relieving different clinical disorders. Its effects in eliminating sports fatigue, preventing myocardial injury in people undergeing exhausted exercise and its underlying mechanisms have been induced great concern by the sports medicine community. In the present paper, the authors make a review on the development of researches on the underlying mechanism of moxibustion in the prevention and treatment of sports myocardial injury in re- cent 10 years from 1) regulating myocardial endocrine function, 2) scavenging free radicals, 3) resisting oxidative damage, and 4) modulating blood rheology. On the basis of results mentioned above, the authors raise a new potential mechanism underlying protective effect of moxibustion on myocardial cells during exhaustive exercise from the cellular molecular level, i.e., mitochondrial telomerase-mediated anti-aging. This mitochondrial telomerase-mediated anti-aging may be a new target of moxibustion intervention for protecting cardiomyocytes from injury under exhaustive exercise condition.

Overreaching in coordination dynamics therapy in an athlete with a spinal cord injury.

A motocross athlete suffered a clinically complete spinal cord injury (SCI) during competition. Although MRIs (magnetic resonance imaging) showed a complete spinal cord injury at the Thoracic 11/12 levels, surface EMG recordings indicated the survival of few tract fibres across the injury site. Six weeks after the accident the subject began intensive Coordination Dynamics Therapy (CDT) at an up-to-date therapy centre. The subject trained at his physical limits to induce structural and functional repair. Exercising at variable loads between 20 and 200N (on a special CDT and recording device) generated periods of overreaching and super-compensation. By plotting coordination dynamics values (kinesiology), including high-load exertion (200N) and hysteresis curves, periods of overreaching and super-compensation were made graphically visible. It was found that symmetrical improvements of central nervous system (CNS) functioning occurred during overreaching. Improvements in spinal cord functioning were achieved throughout one year of CDT in this chronically injured subject with an almost anatomically complete SCI. It is discussed that the measuring of CNS functions by means of recording coordination dynamics is a powerful and non-invasive tool ideal for exact quantitative and qualitative measurements of improvement (or change) in CNS functioning. Such diagnostics may be of particular importance in sport during training and before competition. Also, coordination dynamics might be used to measure the effects of prolonged exposure to reduced gravitational conditions on CNS functions, such as faced by astronauts.

Chronic subdural hematoma in capoeira sport.

Chronic subdural hematomas in young people is extremely rare and has some provoking factors such as V-P shunts, arachnoid cyst, anticoagulant drug usage, vigorous sports and coagulopathies. A static or dynamic mechanical load is almost always delivered to skull associated with either mild or severe head trauma. A 25-year old-man who was previously healthy has complained of intermittent headache for six months. He had been interested in capoiera (Brazilian exciting sport) for two years and has had no any evidence of head injury. After admission, he was operated immediately because of chronic subdural hematoma. We report a patient who is the first chronic subdural hematoma in the literature due to playing capoeira.

Effects of hyperbaric oxygen on recovery from exercise-induced muscle damage in humans.

OBJECTIVE: To determine whether hyperbaric oxygen (HBO) therapy could accelerate recovery from exercise-induced muscle damage in humans. DESIGN: Pretest-posttest design with random assignment to either a treatment (HBO) or placebo control (sham) group. SETTING: University of Alberta and Misericordia Hospital, Edmonton. PARTICIPANTS: 12 healthy male students (24.2 +/- 3.2 years) who were unaccustomed to strenuous eccentric exercise of the calf muscles. INTERVENTIONS: All subjects performed a strenuous eccentric exercise protocol designed to elicit muscle damage within the right gastrocnemius muscle. Subjects subsequently received either HBO (100% oxygen at 253 kPa [2.5 ATA] for 60 min; n = 6) or sham (atmospheric air at 132 kPa [1.3 ATA] for 60 min; n = 6) treatment conditions. The first treatment was administered 3-4 hours after damage, with a second and third at 24 and 48 hours after the first, respectively. MAIN OUTCOME MEASURES: Dependent variables included peak torque at 0.52 radians/s, peak isometric torque, and muscular endurance using isokinetic dynamometry; muscle cross-sectional area using magnetic resonance imaging; inorganic phosphate levels and T2 relaxation time using 31P and 1H magnetic resonance spectroscopy; pain sensation and unpleasantness using the Descriptor Differential Scale. These variables were assessed at baseline and until day 5 postdamage. RESULTS: There was little evidence of a difference in recovery rate between the HBO and sham groups. Faster recovery was observed in the HBO group only for isometric peak torque and pain sensation and unpleasantness. CONCLUSIONS: HBO cannot be recommended as an effective method of treatment of this form of muscle injury.

Martial arts injuries.

In the United States, approximately 1.5 million to 2 million persons practice the martial arts. It is the general belief that martial arts are safe, with little thought given to the physical forces involved. Some enthusiasts gravitate to the martial arts to learn self-defense, whereas others participate to improve cardiovascular fitness, flexibility, and self-esteem. Some join for the structured exercise programs, whereas others desire the artistic expression or have a need to compete. Injuries involve the head and neck region, trunk, and extremities. Soft tissue trauma, hematomas, and lacerations are some of the most common injuries. Occasionally fractures occur, most often involving the hands and digits. The neurosurgical literature indicates that wearing headgear increases the shearing injury to nerve fibers and neurons in the brain in proportion to the degree of acceleration to the head. Three case presentations illustrate death resulting from anterior chest trauma.

Use of histomorphometry in the assessment of fatal vertebral artery dissection.

AIM: To assess morphometrically the structural changes, which occur with ageing, along the length of the vertebral artery. METHODS: A series of 36 vessels were removed at necropsy from subjects aged between 9 months and 86 years. Image analysis was used to measure the medial width, the circumference, the intimal: medial area ratio and the adventitial: medial area ratio along each artery. The artery from a case of fatal vertebral artery dissection, which occurred after a game of cricket and then chiropractic neck manipulation, was also examined in the same manner. The proteoglycan accumulation in the media was quantified using an eyepiece graticule. RESULTS: The vertebral arteries were, on average, larger around the origin of the vessel from the subclavian artery, and the adventitia were relatively thicker at this point, and also after piercing the dura mater. The media were much thinner within the intracranial segment and pronounced intimal thickening occurred with increasing age. The dissected artery showed undoubtable pre-existent structural abnormalities, in the form of massive proteoglycan accumulation, which predisposes an artery to dissection. CONCLUSIONS: These data should help pathologists faced with the task of assessing the underlying structural integrity of the vessel wall in cases of vertebral artery injury.

Intensive training in young athletes. The orthopaedic surgeon's viewpoint.

A young athlete's musculoskeletal system is unique, in that it is not only growing, but is giving support to the growing soft tissues as well. With this in mind, it is easily understood that the fastest growing areas of children skeletal system are at greater risk of injury. No controlled longitudinal studies have yet been performed about the long term effects of injuries occurring in intensively trained young athletes. During the growth spurt, a dissociation between bone matrix formation and bone mineralisation occurs, thus leaving the child with the risks of chronic moderate-to-high overloading, sudden great overload, and diminished bone strength. This may account for both acute and overuse bone injuries in this age group. Epiphyseal plate injuries can have disastrous consequences. About 10% of all skeletal trauma in children involves the epiphysis, but few long-lasting effects have been reported. It is not clear whether intensively trained young athletes are at greater risk of injury than children engaged in free-play activities. It is worrying, though, that about 20% of injuries in sports children require internal fixation. Few studies have addressed injuries to tendons, ligaments and the enthesis in young athletes. It seems that tendon injuries are mild, not requiring surgery, and with a low recurrence rate, but no prospective studies have been performed. Avulsion of the ligamentous insertion occurs more frequently than ligament ruptures in this age group, even though they seem on the increase. Osteochondritis dissecans affects weightbearing joints such as the hip, the knee and the ankle, but elbow lesions in gymnasts and throwers are also relatively frequent. If it occurs before epiphyseal fusion, long term effects are scarce. The centre of growth or ossification where a major tendon is attached may undergo chronic inflammation and avulsion of cartilage and bone, due to the stresses transmitted to it. Typical areas are the inferior pole of the patella, the tibial tubercle and the calcaneal apophysis. Sports activity contributes to the disease by excessive traction at the tendinous and fascial insertion, or as a result of direct pressure. The lumbar spine is subjected to enormous forces in some sports. The true incidence of lumbar disc lesions in sporting children is not known, but it seems that acute trauma may play a major role. With the increase of the intensity and duration of training programmes, degenerative changes may play an adjuvant role.(ABSTRACT TRUNCATED AT 400 WORDS)