The gut microbiome is “the second brain” in the body as it helps regulate homeostasis and metabolize the immune system for functionality and to keep the body in motion. The brain is part of the nervous system, providing neuron signals constantly traveling all over the body. The brain and the gut have a communication partnership where they send information back and forth for the body to function normally. When the body gets injured, either the brain, the gut, or both can be affected, causing dysfunction and unwanted symptoms that can cause other issues to affect the other systems in the body. One of these injuries can affect the brain in a traumatic way, which can disturb the signaling to the gut microbiota and affect an individual’s quality of life. Today’s article looks at a traumatic brain injury known as a concussion, its symptoms, and how it affects the gut-brain axis in the body. Refer patients to certified, skilled providers specializing in gut treatments for individuals that suffered from concussions. We guide our patients by referring to our associated medical providers based on their examination when it’s appropriate. We find that education is critical for asking insightful questions to our providers. Dr. Alex Jimenez DC provides this information as an educational service only. Disclaimer
Can my insurance cover it? Yes, it may. If you are uncertain, here is the link to all the insurance providers we cover. If you have any questions or concerns, please call Dr. Jimenez at 915-850-0900.
What Is A Concussion?
Have you been headaches that pop out of nowhere and affect you daily? Have you been experiencing leaky gut or other gut disorder issues causing problems? Do you have trouble concentrating on the simple tasks at hand? Many of these symptoms are signs that you might be suffering from a concussion. Research studies have defined a concussion as a transient disturbance that traumatically induces brain function in the body. Concussions can vary depending on the severity of the injury. When a person suffers from a concussion, the neurotransmitters get disrupted as the brain’s electrolytes go through neurological dysfunction, and blood glucose metabolism decreases cerebral blood flow. Other research studies have found that a concussion does an axial rotation to the brain, which results in the brain jiggling and causes whiplash to the neck. This disruption will cause a biochemical injury that either alters the blood glucose metabolism or can cause derangement of the adenine nucleotides of the nervous system.
Its Symptoms
Research studies have found that when a person suffers from a concussion, the symptoms in its acute phase can drastically change and evolve into a chronic situation over time. Concussions usually occur in individuals that play a contact sport, where they bump each other in the heads, auto accidents that causes severe injuries that affect the neck and brain, or even a simple blow to the head. Other research studies have stated that the symptoms of a concussion can include:
Blurry vision
Headaches
Dizzyness
Mood changes
Light sensitivity
Concentration and memory complications
Additional research studies have mentioned that neuronal dysfunction can occur when a person suffers from a concussion as there are ionic shifts, impaired connectivity to the brain, and changes in the neurotransmitters from completing their jobs to provide sensory-motor functions to the entire body. When this happens, not only does the nervous system gets affected, but the gut system gets affected as well.
An Overview Of Leaky Gut & Concussions-Video
Do gut disorder symptoms seem to be affecting your quality of life? Have you become sensitive to light? Have you felt muscle stiffness in your neck? Or have you been suffering from frequent headaches? If you are experiencing any of these symptoms, it might be due to a concussion affecting your gut microbiota. The video above explains how a concussion and a leaky gut are linked. In an average functioning body, the gut and the brain have a bi-directional connection as they help send the neuron signals to each of the body systems and muscle tissues that make the body move. When traumatic forces like a concussion affect the brain, it can disrupt and change the neurotransmitters signals that can cause gut disorders in the microbiota. When gut disorders affect the gut microbiota, it can cascade a series of inflammatory effects that can affect the body’s homeostasis and immune function. Experiencing these symptoms in the body can drastically affect a person’s mood and quality of life if it is not taken care of immediately.
How The Gut-Brain Axis Is Affected By A Concussion?
Since the gut-brain axis has a communication partnership, this axis helps the body’s immunity, homeostasis, and metabolism function. When a concussion starts to affect the gut-brain axis, research studies have shown that the communication pathways are affected in the gut-brain axis as tit incorporates the afferent and efferent signals. The signals involved in the gut-brain axis include the hormones, neurons, and immune pathways that can result in chronic gastrointestinal dysfunction and disability to the body. Since the gut helps keep the body functional through homeostasis, the brain helps the neuron signals provide sensory functions. With a concussion, these signals are disrupted, affecting the body’s functionality and causing a change in a person’s mood.
Conclusion
Overall the gut-brain axis provides functionality to the body by maintaining the homeostasis and metabolism of the immune system. A person’s involvement in a traumatic accident can lead to brain injuries like a concussion that can impair the gut and brain relationship. A concussion can become severe when it is not treated right away and can affect a person’s quality of life in their health and wellness journey.
Giza, Christopher C., and David A. Hovda. “The Neurometabolic Cascade of Concussion.” Journal of Athletic Training, National Athletic Trainers’ Association, Inc., Sept. 2001, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC155411/.
Mann, Aneetinder, et al. “Concussion Diagnosis and Management: Knowledge and Attitudes of Family Medicine Residents.” Canadian Family Physician Medecin De Famille Canadien, College of Family Physicians of Canada, June 2017, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5471087/.
Staff, Mayo Clinic. “Concussion.” Mayo Clinic, Mayo Foundation for Medical Education and Research, 17 Feb. 2022, https://www.mayoclinic.org/diseases-conditions/concussion/symptoms-causes/syc-20355594.
Tator, Charles H. “Concussions and Their Consequences: Current Diagnosis, Management and Prevention.” CMAJ : Canadian Medical Association Journal = Journal De L’Association Medicale Canadienne, Canadian Medical Association, 6 Aug. 2013, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3735746/.
Zhu, Caroline S, et al. “A Review of Traumatic Brain Injury and the Gut Microbiome: Insights into Novel Mechanisms of Secondary Brain Injury and Promising Targets for Neuroprotection.” Brain Sciences, MDPI, 19 June 2018, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6025245/.
Concussions are traumatic brain injuries that affect brain function. Effects from these injuries are often temporary but can include headaches, problems with concentration, memory, balance and coordination. Concussions are usually caused by a blow to the head or violent shaking of the head and upper body. Some concussions cause loss of consciousness, but most do not. And it is possible to have a concussion and not realize it. Concussions are common in contact sports, such as football. However, most people gain a full recovery after a concussion.
Can also happen due to excessive shaking of the head or acceleration/deceleration
Mild injuries (mTBI/concussions) are the most common type of brain injury
Glasgow Coma Scale
Common Causes Of Concussion
Motor vehicle collisions
Falls
Sports injuries
Assault
Accidental or intentional discharge of weapons
Impact with objects
Prevention
Prevention of concussive injuries can be paramount
Encourage Patients To Wear Helmets
Competitive sports, especially boxing, hokey, football and baseball
Horseback riding
Riding bicycles, motorcycles, ATVs, etc.
High elevation activates such as rock climbing, zip lining
Skiing, snowboarding
Encourage Patients To Wear Seatbelts
Discuss the importance of wearing seatbelts at all times in vehicles with all of your patients
Also encourage use of appropriate booster or car seats for children to ensure adequate fit and function of seat belts.
Driving Safely
Patients should never drive while under the influence of drugs, including certain medications or alcohol
Never text and drive
Make Spaces Safer For Children
Install baby gates and window latches in the home
May in areas with shock-absorbing material, such as hardwood mulch or sand
Supervise children carefully, especially when they�re near water
Prevent Falls
Clearing tripping hazards such as loose rugs, uneven flooring or walkway clutter
Using nonslip mats in the bathtub and on shower floors, and installing grab bars next to the toilet, tub and shower
Ensure appropriate footwear
Installing handrails on both sides of stairways
Improving lighting throughout the home
Balance training exercises
Balance Training
Single leg balance
Bosu ball training
Core strengthening
Brain balancing exercises
Concussion Verbiage
Concussion vs. mTBI (mild traumatic brain injury)
mTBI is the term being used more commonly in medical settings, but concussion is a more largely recognized term in the community by sports coaches, etc.
The two terms describe the same basic thing, mTBI is a better term to use in your charting
Evaluating Concussion
Remember that there does not always have to be loss of consciousness for there to be a concussion
Post-Concussion Syndrome can occur without LOC as well
Symptoms of concussion may not be immediate and could take days to develop
Monitor for 48 post head injury watching for red flags
Blurred eyesight or other vision problems, such as dilated or uneven pupils
Confusion
Dizziness
Ringing in the ears
Nausea or vomiting
Slurred speech
Delayed response to questions
Memory loss
Fatigue
Trouble concentrating
Continued or persistent memory loss
Irritability and other personality changes
Sensitivity to light and noise
Sleep problems
Mood swings, stress, anxiety or depression
Disorders of taste and smell
Mental/Behavioral Changes
Verbal outbursts
Physical outbursts
Poor judgment
Impulsive behavior
Negativity
Intolerance
Apathy
Egocentricity
Rigidity and inflexibility
Risky behavior
Lack of empathy
Lack of motivation or initiative
Depression or anxiety
Symptoms In Children
Concussions can present differently in children
Excessive crying
Loss of appetite
Loss of interest in favorite toys or activities
Sleep issues
Vomiting
Irritability
Unsteadiness while standing
Amnesia
Memory loss and failure to form new memories
Retrograde Amnesia
Inability to remember things that happened before the injury
Due to failure in recall
Anterograde Amnesia
Inability to remember things that happened after the injury
Due to failure to formulate new memories
Even short memory losses can be predictive of outcome
Amnesia may be up to 4-10 times more predictive of symptoms and cognitive deficits following concussion than is LOC (less than 1 minute)
Return To Play Progression
Baseline: No Symptoms
As the baseline step of the Return to Play Progression, the athlete needs to have completed physical and cognitive rest and not be experiencing concussion symptoms for a minimum of 48 hours. Keep in mind, the younger the athlete, the more conservative the treatment.
Step 1: Light Aerobic Activity
The Goal: Only to increase an athlete�s heart rate.
The Time: 5 to 10 minutes.
The Activities: Exercise bike, walking, or light jogging.
Absolutely no weight lifting, jumping or hard running.
Step 2: Moderate activity
The Goal: Limited body and head movement.
The Time: Reduced from typical routine.
The Activities: Moderate jogging, brief running, moderate-intensity stationary biking, and moderate-intensity weightlifting
Step 3: Heavy, non-contact activity
The Goal: More intense but non-contact
The Time: Close to typical routine
The Activities: Running, high-intensity stationary biking, the player�s regular weightlifting routine, and non- contact sport-specific drills. This stage may add some cognitive component to practice in addition to the aerobic and movement components introduced in Steps 1 and 2.
Step 4: Practice & full contact
The Goal: Reintegrate in full contact practice.
Step 5: Competition
The Goal: Return to competition.
Microglial Priming
After head trauma microglial cells are primed and can become over active
To combat this, you must mediate the inflammation cascade
Prevent repeated head trauma
Due to priming of the foam cells, response to follow-up trauma may be far more severe and damaging
What Is Post-Concussion Syndrome (PCS)?
Symptoms following head trauma or mild traumatic brain injury, that can last weeks, months or years after injury
Symptoms persist longer than expected after initial concussion
More common in women and persons of advanced age who suffer head trauma
Severity of PCS often does not correlate to severity of head injury
PCS Symptoms
Headaches
Dizziness
Fatigue
Irritability
Anxiety
Insomnia
Loss of concentration and memory
Ringing in the ears
Blurry vision
Noise and light sensitivity
Rarely, decreases in taste and smell
Concussion Associated Risk Factors
Early symptoms of headache after injury
Mental changes such as amnesia or fogginess
Fatigue
Prior history of headaches
Evaluation Of PCS
PCS is a diagnosis of exclusion
If patient presents with symptoms after head injury, and other possible causes have been ruled out => PCS
Use appropriate testing and imaging studies to rule out other causes of symptoms
Headaches In PCS
Often �tension� type headache
Treat as you would for tension headache
Reduce stress
Improve stress coping skills
MSK treatment of the cervical and thoracic regions
Constitutional hydrotherapy
Adrenal supportive/adaptogenic herbs
Can be migraine, especially in people who had pre-existing migraine conditions prior to injury
Reduce inflammatory load
Consider management with supplements and or medications
Reduce light and sound exposure if there is sensitivity
Dizziness In PCS
After head trauma, always assess for BPPV, as this is the most common type of vertigo after trauma
Dix-Hallpike maneuver to diagnose
Epley�s maneuver for treatment
Light & Sound Sensitivity
Hypersensitivity to light and sound is common in PCS and typically exacerbates other symptoms such as headache and anxiety
Management of excess mesencephalon stimulation is crucial in such cases
Sunglasses
Other light blocking glasses
Earplugs
Cotton in ears
Treatment Of PCS
Manage each symptom individually as you otherwise would
Manage CNS inflammation
Curcumin
Boswelia
Fish oil/Omega-3s � (***after r/o bleed)
Cognitive behavioral therapy
Mindfulness & relaxation training
Acupuncture
Brain balancing physical therapy exercises
Refer for psychological evaluation/treatment
Refer to mTBI specialist
mTBI Specialists
mTBI is difficult to treat and is an entire specialty both in the allopathic and complementary medicine
Primary objective is to recognize and refer for appropriate care
Pursue training in mTBI or plan to refer to TBI specialists
Sources
�A Head for the Future.� DVBIC, 4 Apr. 2017, dvbic.dcoe.mil/aheadforthefuture.
Alexander G. Reeves, A. & Swenson, R. Disorders of the Nervous System. Dartmouth, 2004.
�Heads Up to Health Care Providers.� Centers for Disease Control and Prevention, Centers for Disease Control and Prevention, 16 Feb. 2015, www.cdc.gov/headsup/providers/.
�Post-Concussion Syndrome.� Mayo Clinic, Mayo Foundation for Medical Education and Research, 28 July 2017, www.mayoclinic.org/diseases-conditions/post- concussion-syndrome/symptoms-causes/syc-20353352.
Concussion, also known as mild traumatic brain injury (MTBI), has been a poorly understood condition known to the majority of healthcare providers as difficult to objectify and manage.
Historically, there has been no testing available to conclude an accurate diagnosis. In the absence of objective imaging findings of bleeding in the brain, a diagnosis of “mild traumatic brain injury” has been affixed to the condition, whereas if there’s evidence of traumatic bleeding then the diagnosis “traumatic brain injury” is applied.
Although Hartvigsen, Boyle, Cassidy and Carroll (2014) reported that 600 out of 100,000 Americans are affected every year by concussion, Jeter et al, (2012) reported that close to 40 percent of people experiencing a mild brain injury do not report it to their doctor, making accurate statistics very tricky to conclude. Despite potential under reporting in the people, we realize concussion is an issue that has consequences that are important from the perspective of a clinical result and we cannot afford to ignore this condition.
Mechanism of Injury: Mild Traumatic Brain Injury
Mild traumatic brain injury or concussion results from transfer of mechanical energy from the outside environment to the brain due to traumatic events where there’s a sudden acceleration and then a sudden deceleration of the mind and brain, such as in a Coup/Contrecoup injury during a whiplash scenario. As the brain is freely moving to a degree because it’s only surrounded by cerebral spinal fluid, it continues moving in the original direction and as the head “whips” rapidly in the opposite direction, the brain bounces off parts of the inner skull, which in turn rebounds shortly after the head changes direction. This is one easily defined mechanism of MTBI that doesn’t cause gross bleeding, yet leaves the brain injured through direct compression or overstretching (axonal shearing) of central nervous system components.
Although this has been examined extensively in the military, it’s been recently investigated in professional sports, where after several lawsuits and lives at risk, there are now definitive “concussion protocols” in place. Part of the protocols as reported from the British Journal of Sports Medicine (2016) is the Sports Concussion Assessment Tool 2 or SCAT2 that’s been adopted by numerous professional sports leagues. However, the majority of concussion victims are not active participants in the military or a professional sports team and many find their way into chiropractic practices as a consequence of sports injuries, car accidents, slip and falls and every other sort of head trauma etiology. Even though the mechanisms might vary, the induced end results are the same.
For generalized patient intake protocols, according to both Medicare and academia standards, a questionnaire outlining a summary of body systems is mandated, and part of those questions center on brain function. As reported by Jeter et al behavioral and cognitive symptoms, signs and symptoms are reported on standard patient intake questionnaires and require consideration of a diagnosis of concussion.
Prominent symptoms of concussion include: balance issues, vomiting, nausea, headache, drowsiness, dizziness, fatigue, vision, light or noise sensitivity and sleep disturbances. Cognitive symptoms include deficits in attention, concentration, memory, mental processing speed, and working memory or decision making. Behavioral symptoms include anxiety, depression, irritability, depression and aggression. The researchers went on to report that approximately 25 percent of the cases can have these symptoms persist.
Diagnosis and Treatment for MTBI
As a profession, chiropractic is a important part of the rehabilitation for the concussion population as the post-traumatic patient typically presents to the average chiropractic practice. As chiropractors (along with all healthcare providers), even if you mix the history with the above symptoms inclusive of neurological, behavioral and cognitive traits, you then have the direction or “triage road map” of the way to conclusively differentially diagnose your individual, including what tests to consider conducting in order to do so. The first line of testing is to consider imaging to rule out bleeding and ensure the patient does not require an immediate consultation. Treating blindly can place your patient in risk that is possible.
Imaging of the brain requires either MRI or CAT scans, MRI being the more sensitive, and in the absence of bleeding, the diagnosis is limited to MTBI or concussion (used interchangeably). More recently, diffusion tensor imaging (DTI) has been a tool available to picture mTBI victims that uses tissue water diffusion speeds to determine bleeding at a very small level giving demonstrable evidence to brain injury. As reported by Soares, Marques, Alves, and Sousa, (2013), DTI has several issues to overcome to certify accuracy including, but not limited to, tissue type, integrity, barriers and quantitative diffusion rates that are required to infer molecular diffusion prices. DTI is a model based upon assumption with a outlook as a tool.
Historically, MTBI was exclusively diagnosed by an omission of advanced imaging findings and the presence and persistence of the neurology, cognitive and behavioral signs and symptoms. Today, brain-derived neurotrophic factors (BDNF) offer responses about carpal brain pathology that is both conclusive and reproducible. Based on Korley et al. (2015), brain-derived neurotrophic factors is a secreted autocrine (compound hormone or messenger in blood) which promotes the development, maintenance, survival, differentiation and regeneration of neurons. BDNF also is important for synaptic plasticity (strengthening of synapses over time) and memory processing. Germane to MTBI and concussion, BDNF has been implicated in decreasing brain injury, with elevations and restoring traumatic brain injury.
Korley went on to report that BDNF levels were the highest in the normal group with lower values in mTBI and even lower in traumatic brain injury (TBI) subjects. In addition BDNF values were associated with incomplete recovery of patients that were MTBI compared to moderate or severe TBI patients. Because of this, it has been ascertained that BDNF has for identifying associated sequelae at 6 23, a prognostic value.
Korley stated that BDNF is the most abundantly secreted brain neurotrophin and as a secreted protein and can be readily measured using well-established immune-assay methods, identifying it as a non-necrosis brain injury biomarker. This distinguishes BDNF from other biomarkers which are components of neurons and myelin based proteins among other structures. In order for structural fibers to be found in high abundance in circulation, adequate cellular necrosis and damage to the blood barrier membrane must be observed, however BDNF does not require cellular damage or necrosis to be observed in circulation enabling DDNF to be more plentiful in flow than structural proteins.
Following a traumatic brain event, BDNF supports synaptic reorganization and recovery during the brain circuitry “reconnection” phase. Therefore, a better prognosis is indicated by lowered values. In patients with a co-morbidity of BDNF of anxiety, depressive disorders and schizophrenia BDNF values on the day of injury predispose this population to incomplete recovery as a risk element. Korley et al.. Concluded that serum BDNF discriminates between MTBI and TBI cases. Also, diminished BDNF values are associated with recovery in identifying and useful symptoms 6-months post-trauma.
Conclusion
Simply put, a blood test could assist providers in concluding the existence and/or severity of traumatic brain injury or mild traumatic brain injury. An early diagnosis is afforded by the results so you can devise a treatment plan inclusive of changing activities of everyday living to prevent additional damage and optimize the repair procedure with minimizing further chemical, physical or emotional stressors.
Based upon interviews with leading neurologists and neurosurgeons who understand and have first-hand expertise of both receiving chiropractic care and handling and treating MTBI patients, it is strongly recommended that until the signs and symptoms of the neurologic, cognitive and behavioral abate that high-velocity rotational cervical adjustments be avoided to enable the brain to “repair and rewire” the connections without additional possibilities of and Coup/ Contrecoup energy to the mind. This is a recommendation which we agree while recognizing that chiropractic care should not be avoided adapted to allow the brain to heal.
The scope of our information is limited to chiropractic and spinal injuries and conditions. To discuss options on the subject matter, please feel free to ask Dr. Jimenez or contact us at 915-850-0900 .�
References:
1. Hartvigsen, J., Boyle, E., Cassidy, J. D., & Carroll, L. J. (2014). Mild traumatic brain injury after motor vehicle collision: What are the symptoms and who treats them? A population-based 1-year inception cohort study. Archives of Physical Medicine and Rehabilitation, 95(Suppl. 3), S286-S294.
2. Jeter, C. B., Hergenroeder, G. W., Hylin, M. J., Redell, J. B., Moore, A. N., & Dash, P. K. (2013). Biomarkers for the diagnosis and prognosis of mild traumatic brain injury/concussion. Journal of Neurotrauma, 30(8), 657-670.
3. British Journal of Sports Medicine. (2016). Sport concussion assessment tool 2. Retrieved from http://bjsm.bmj.com/content/43/Suppl_1/i85.full.pdf
4. Soares, J. M., Marques, P., Alves, V., & Sousa, N. (2013). A hitchhiker�s guide to diffusion tensor imaging. Frontiers in Neuroscience, 7(31), 1-14.
5. Korley, F. K., Diaz-Arrastia, R., Wu, A. H. B., Yue, J. K., Manley, G. T., Sair, H. I., Van Eyk, J., Everett, A. D., Okonkwo, D. O., Valadka, A. B., Gordon, W. A., Maas, A. I., Mukherjee, P., Yuh, E. L., Lingsma, H. F., Puccio, A. M., & Schnyer, D. M., (2015). Circulating brain-derived neurotrophic factor has diagnostic and prognostic value in traumatic brain injury. Journal of Neurotrauma, 32, 1-11.
Additional Topics: Weakened Ligaments After Whiplash
Whiplash is a commonly reported injury after an individual has been involved in an automobile accident. During an auto accident, the sheer force of the impact often causes the head and neck of the victim to jerk abruptly, back-and-forth, causing damage to the complex structures surrounding the cervical spine. Chiropractic care is a safe and effective, alternative treatment option utilized to help decrease the symptoms of whiplash.
Female soccer players suffer the highest rate of concussions among all high school athletes in the United States, a new study finds.
“While American football has been both scientifically and colloquially associated with the highest concussion rates, our study found that girls, and especially those who play soccer, may face a higher risk,” said study author Dr. Wellington Hsu. He is a professor of orthopaedics at Northwestern University in Chicago.
“The new knowledge presented in this study can lead to policy and prevention measures to potentially halt these trends,” Hsu said in a news release from the American Academy of Orthopaedic Surgeons.
The researchers analyzed data on nearly 41,000 injuries suffered by high school athletes in nine sports between 2005 and 2015. The injuries included nearly 6,400 concussions. The sports studied included football, soccer, basketball, wrestling and baseball for boys; and soccer, basketball, volleyball and softball for girls. During the study period, participation in the sports rose 1.04-fold, but the number of diagnosed concussions increased 2.2-fold.
In sports played by both girls and boys, girls had much higher concussion rates than boys, Hsu’s team found. Between 2010 and 2015, the concussion rate was higher in girls’ soccer than in boys’ football, the findings showed. During the 2014-2015 school year, concussions were more common in girls’ soccer than in any other sport in the study.
Girls may be at greater risk of concussion while playing soccer due to “heading” the ball, a lack of protective gear, and an emphasis on contact during the game, the researchers suggested.
Each year, about 300,000 U.S. teens suffer concussions or mild traumatic brain injuries while participating in high school sports, the study authors said.
The findings were presented Tuesday at the American Academy of Orthopaedic Surgeons meeting in San Diego. Research presented at meetings should be considered preliminary until published in a peer-reviewed journal.
SOURCE: American Academy of Orthopaedic Surgeons, news release, March 14, 2017�
For more information, please feel free to ask Dr. Jimenez or contact us at 915-850-0900 .
Additional Topics: Headache and Auto Injury
Whiplash is a common type of automobile accident injury. Characterized by symptoms of neck pain, whiplash is caused when the complex structures and tissues of the neck are stretched beyond their limit as a result of an abrupt back-and-forth motion of the head. While neck pain is the most common symptom associated with the auto injury, headaches can also occur due to complications along the cervical spine.
Female soccer players suffer the highest rate of concussions among all high school athletes in the United States, a new study finds.
“While American football has been both scientifically and colloquially associated with the highest concussion rates, our study found that girls, and especially those who play soccer, may face a higher risk,” said study author Dr. Wellington Hsu. He is a professor of orthopaedics at Northwestern University in Chicago.
“The new knowledge presented in this study can lead to policy and prevention measures to potentially halt these trends,” Hsu said in a news release from the American Academy of Orthopaedic Surgeons.
The researchers analyzed data on nearly 41,000 injuries suffered by high school athletes in nine sports between 2005 and 2015. The injuries included nearly 6,400 concussions. The sports studied included football, soccer, basketball, wrestling and baseball for boys; and soccer, basketball, volleyball and softball for girls. During the study period, participation in the sports rose 1.04-fold, but the number of diagnosed concussions increased 2.2-fold.
In sports played by both girls and boys, girls had much higher concussion rates than boys, Hsu’s team found. Between 2010 and 2015, the concussion rate was higher in girls’ soccer than in boys’ football, the findings showed. During the 2014-2015 school year, concussions were more common in girls’ soccer than in any other sport in the study.
Girls may be at greater risk of concussion while playing soccer due to “heading” the ball, a lack of protective gear, and an emphasis on contact during the game, the researchers suggested.
Each year, about 300,000 U.S. teens suffer concussions or mild traumatic brain injuries while participating in high school sports, the study authors said.
The findings were presented Tuesday at the American Academy of Orthopaedic Surgeons meeting in San Diego. Research presented at meetings should be considered preliminary until published in a peer-reviewed journal.
SOURCE: American Academy of Orthopaedic Surgeons, news release, March 14, 2017
For more information, please feel free to ask Dr. Jimenez or contact us at 915-850-0900 .
Additional Topics: Headache and Auto Injury
Whiplash is a common type of automobile accident injury. Characterized by symptoms of neck pain, whiplash is caused when the complex structures and tissues of the neck are stretched beyond their limit as a result of an abrupt back-and-forth motion of the head. While neck pain is the most common symptom associated with the auto injury, headaches can also occur due to complications along the cervical spine.
IFM's Find A Practitioner tool is the largest referral network in Functional Medicine, created to help patients locate Functional Medicine practitioners anywhere in the world. IFM Certified Practitioners are listed first in the search results, given their extensive education in Functional Medicine
