Back Clinic Head Pain and Trauma Chiropractic Rehabilitation Team. A head injury is a trauma to the scalp, skull, or brain. The injury may be only a minor bump on the skull or a serious brain injury. Head injuries are a common reason for emergency room visits. A large number of people who suffer head injuries are children. Traumatic brain injury (TBI) accounts for over 1 in 6 injury-related hospital admissions each year.
Head injury can be either closed or open (penetrating).
A closed head injury means a hard blow to the head was received from striking an object, but the object did not break the skull.
An open/penetrating head injury means a hit with an object that broke the skull and exposed and or entered the brain. This is likely to happen when moving at high speed, i.e. going through the windshield during an auto accident. Also from a gunshot to the head.
Head Pain and Trauma injuries include:
Some head injuries cause changes in brain function. This is called a traumatic brain injury.
Concussion, where the brain is shaken, is the most common type of traumatic brain injury. Symptoms of a concussion can range from mild to severe.
Scalp wounds.
Skull fractures.
Head injuries may cause bleeding:
Inside the brain tissue
Inside the layers that surround the brain (subarachnoid hemorrhage, subdural hematoma, extradural hematoma)
Causes:
Common causes of head injury include:
Accidents at home, work, outdoors, or while playing sports
Falls
Physical assault
Traffic accidents
Most of these injuries are minor because the skull protects the brain. Some injuries are severe enough to require a stay in the hospital.
Symptoms:
Head injuries may cause bleeding in the brain tissue and the layers that surround the brain (subarachnoid hemorrhage, subdural hematoma, epidural hematoma).
Symptoms of a head injury can occur right away or can develop slowly over several hours or days. If the skull is not fractured, the brain can still hit the inside of the skull and become bruised. Also, the head may look fine, but problems could result from bleeding or swelling inside. The spinal cord is also likely to be injured in any serious trauma.For answers to any questions you may have please call Dr. Jimenez at 915-850-0900
Traumatic Brain Injury Recovery: Effective Exercises and Chiropractic Care for Head Injuries
Rehabilitation exercises after an auto accident with head injuries.
Traumatic brain injury, or TBI, happens when a strong hit to the head harms the brain. This can come from falls, car crashes, sports, or other accidents. Head injuries are much like TBIs because they often involve the same kinds of damage to the brain and body. Recovery from these injuries requires time and effort. It focuses on getting back physical strength, mental sharpness, and balance. Rehabilitation utilizes a combination of exercises to aid recovery. These include activities that get the heart pumping, build muscle, improve steadiness, and sharpen the mind. Chiropractic care can also play a significant role, particularly in addressing issues such as headaches and dizziness. This article examines ways to recover, with a strong focus on training and improving step by step.
People with TBI or head injuries often face problems like pain, trouble moving, forgetfulness, or feeling off-balance. Starting recovery early is crucial, but it must be done slowly and safely. Doctors and therapists guide the process. Exercises help the brain rewire itself through something called neuroplasticity. This means the brain can create new pathways to repair damaged ones. Training helps build these paths. Recovery is not limited to a single type of exercise. It combines various types to cater to all needs. Let’s dive into the details.
Physical Exercises for Strength and Aerobic Health
Physical exercises are a big part of getting better from TBI or head injuries. They help rebuild muscle, boost energy, and enhance overall bodily function. Start slow because rushing can cause more harm. Always check with a doctor first.
Aerobic activities get the heart rate up without too much strain. Walking is a simple start. It can be done inside or outside, and it helps blood flow to the brain. This brings oxygen and nutrients for the healing process. Jogging on a treadmill or using a stationary bike are other options. Swimming is great too because the water supports the body, making movement easier. Aim for 150 minutes a week of moderate aerobic work, spread out over days. This could be 20 to 40 minutes per session, three to four times a week. These activities lower the risk of other health issues like heart problems or diabetes, which can slow recovery. They also lift mood and reduce tiredness.
Strength training builds muscle power. This is important because injuries can weaken muscles. Squats are a good exercise. Stand with your feet apart, as if your shoulders are wide, bend your knees as if sitting back in a chair, then stand up. Do this 10 times. Rows work the back and arms. Sit or stand, pull your elbows back like squeezing something between your shoulder blades. Use light weights or resistance bands if possible. Bicep curls are simple: Hold a water bottle, bend your elbow to bring it to your shoulder, then lower it. Repeat 10 times per arm. For legs, try seated marching. Sit in a chair and lift one knee up, then the other, like walking in place. These exercises help with daily tasks, such as getting up from a chair or carrying objects.
Other strength moves include push-ups against a wall or chair for the chest and arms. Shoulder presses: Lift arms overhead with light weights. Do these in sets, with rests in between. Strength training should be done two to three times a week, focusing on the larger muscle groups. It helps with posture and stops falls. As you become stronger, add more reps or increase the weight. But listen to your body. If it hurts, stop and rest.
Seated exercises are beneficial for individuals who are unable to stand or walk. Seated hip rotations: Sit and turn your hips side to side. This builds core strength. Alternating heel-toe raises: Lift your heels, then your toes, while sitting. These improve lower-body control and blood flow. Arm push: Push a bottle across a table with your wrist. This strengthens arms without much effort. Mixing aerobic and strength training keeps the workout fun and covers more ground for recovery.
Balance Exercises to Regain Stability
Balance problems are common after TBI or head injuries. They can cause falls and make walking hard. Balance training helps the brain and body work together better. It uses neuroplasticity to fix these issues.
Tandem stance is a basic exercise. Stand with one foot right in front of the other, like on a tightrope. Hold for 30 seconds, then switch feet. If it’s too hard, spread feet wider. Close your eyes to make it tougher once you’re ready. Weight shifts: Stand with your feet apart, shift your weight to one side, and lift the other foot slightly. Hold 30 seconds per side. This builds steadiness.
Romberg stance: Stand with feet together, eyes closed. Hold as long as you can, up to two minutes. It trains the body to use senses apart from sight for balance. Alternating heel-to-toe raises: Stand and rise on your toes, then rock back onto your heels. Do it 10 times. This strengthens legs and improves coordination.
For more challenge, use tools. A gym ball: Sit on it and reach for objects. This makes the surface unstable, forcing better control. Balance boards: Stand on a wobbly board and try not to lose your balance. Start with help. Walking on various surfaces, such as grass or sand, trains the body to adapt.
Vestibular exercises help with dizziness. These include head turns while focusing on a point, as well as eye movements such as following a finger. They retrain the inner ear and brain. Do balance work daily, but in short sessions to avoid fatigue. Progress slowly from a seated to a standing position. Good balance means safer movement and less fear of falling.
Mix balance with other training. For example, do squats while on one leg. Or walk while turning your head. This makes exercises more realistic. Recovery improves when training mimics daily activities.
Cognitive Exercises for Mental Sharpness
Mental skills can be affected after TBI or head injuries. Aspects such as memory, focus, and problem-solving require improvement. Cognitive exercises challenge the brain to build new connections.
Try new things: Walk a different path or try a new food. This sparks neuron growth. Use your non-dominant hand for tasks such as brushing your teeth. It activates the other side of the brain and strengthens thinking. Brain-training games: Play chess, Sudoku, or apps like Lumosity. These improve logic and memory.
Memorization: Recall a grocery list or song lyrics. Start small and build up. Draw maps from memory, like your route to the store. This boosts spatial thinking. Read out loud: It works reading, speaking, and listening parts of the brain.
Puzzles and games: Jigsaw puzzles or board games like Connect Four help develop planning and hand-eye coordination skills. Mental math: Add numbers in your head or count backwards by sevens. Keep a journal of senses: Note what you see, hear, and smell each day. This mixes memory and senses.
Start slow with easy tasks. Increase difficulty as you improve. Do 15-20 minutes a day. Combine with physical exercises for a complete recovery. Cognitive training helps with daily life, like remembering names or following recipes.
Integrative Chiropractic Therapy for Support
Chiropractic care helps with TBI and head injury recovery. It focuses on the spine and nervous system. This can help alleviate headaches and dizziness caused by injuries.
Adjustments align the spine, reducing nerve pressure. This improves blood flow to the brain and cuts inflammation. Craniosacral therapy: Light touch on the head and spine boosts fluid flow around the brain. It helps with headaches and brain function.
Chiropractors offer lifestyle tips, such as healthy eating and adequate sleep. They also suggest exercises, such as those for strength and balance. Combining chiropractic care with physical therapy can accelerate recovery. It addresses both body and mind.
For long-term care, regular visits prevent chronic pain. Chiropractic supports neuroplasticity by stimulating the nervous system. It’s non-invasive and can be used in conjunction with other treatments.
Insights from Dr. Alexander Jimenez
Dr. Alexander Jimenez, a chiropractor with over 30 years of experience, shares observations on TBI and head injuries. He uses integrative care for recovery. His work includes functional medicine to fix root causes. For injuries, he emphasizes the importance of prompt action with rehabilitation programs. These include exercises for mobility and nerve health. He helps with symptoms like pain and weakness through adjustments and nutrition. His clinic focuses on achieving full healing without the use of drugs or surgery.
Jimenez notes that personalized plans are most effective. He combines chiropractic with exercises to boost recovery. His insights demonstrate how training can rebuild strength and function after head injuries.
Putting It All Together for Recovery
Recovery from TBI or head injuries needs a mix of exercises and care. Focus on training: Do aerobic exercises for heart health, strength training for muscles, balance training for stability, and cognitive exercises for the mind. Add chiropractic for extra support. Start slow, be consistent, and track progress. With time, these steps lead to a better quality of life.
Always work with pros. Recovery is a journey, but training makes it possible.
Discover the impact of traumatic brain injury on daily life and the best approaches to manage recovery effectively.
Introduction
Traumatic brain injury (TBI) happens when a sudden blow or jolt to the head damages the brain. It can change how a person thinks, moves, and feels. This article explains TBI in simple terms, including its causes, symptoms, and effects on the body. It also shows how chiropractors and nurse practitioners can work together to help people heal (Mayo Clinic, 2023; Cleveland Clinic, 2023).
What Is Traumatic Brain Injury?
A traumatic brain injury is harm to the brain from an outside force. The skull protects the brain, but a hard hit can still cause trouble inside. TBI can be mild, like a concussion, or severe, leading to long coma or disability. Every year, millions of people get a TBI from falls, car crashes, or sports (Mayo Clinic, 2023). The brain controls everything we do. When it gets hurt, problems can show up right away or weeks later. Early care matters a lot (Cleveland Clinic, 2023).
Common Causes of TBI
TBI starts with a strong force to the head or body. Here are the main causes:
Falls: The top reason, especially in kids and older adults. Slipping in the shower or falling off a ladder can cause TBI (Mayo Clinic, 2023).
Car accidents: High-speed crashes shake the brain inside the skull.
Sports injuries: Football, boxing, and soccer players often get concussions.
Violence: Gunshots, assaults, or shaken baby syndrome.
Blast waves: Soldiers in war face TBI from explosions (Cleveland Clinic, 2023).
Even a small bump can cause mild TBI if the brain moves rapidly within the skull (Hicks et al., 2020).
Symptoms of TBI
Symptoms depend on the severity of the injury. They can appear in the body, mind, or feelings.
Right-Away Signs
Losing consciousness for seconds or minutes.
Headache that will not stop.
Nausea or vomiting.
Feeling dizzy or losing balance.
Blurry vision or ringing in the ears (Mayo Clinic, 2023).
Later Signs
Trouble remembering new things.
Slow thinking or reading.
Hard time focusing.
Feeling sad, angry, or worried.
Sensitivity to light and noise.
Sleep problems such as insomnia or excessive sleepiness (Cleveland Clinic, 2023; Silverberg et al., 2018).
A chiropractor or nurse practitioner can find hidden signs by asking detailed questions about the accident and daily life (Jimenez, n.d.-a).
How TBI Affects the Musculoskeletal System
The musculoskeletal system includes muscles, bones, and joints. TBI often hurts this system because the force hits the whole body.
Neck pain and stiffness: Whiplash in car crashes strains neck muscles and spine.
Back pain: The spine can shift out of place, causing long-term pain.
Poor posture and balance: Brain signals to muscles get mixed up, making walking hard (Treleaven, 2017).
Muscle weakness: One side of the body may feel weak after severe TBI.
Spinal misalignment can press on nerves and slow healing. Chiropractors check the spine with gentle tests to spot these issues (Jimenez, n.d.-b).
How TBI Affects the Neurological System
The neurological system is the brain, spinal cord, and nerves. TBI directly damages this network.
Slow nerve signals: Thinking and moving feel delayed.
Seizures: Electrical storms in the brain.
Nerve pain: Tingling or burning in arms and legs.
Coordination loss: Hands shake or feet trip (Ellis et al., 2017).
Questioning reveals whether light bothers the eyes or whether noise causes headaches—clues to nerve irritation (Silverberg et al., 2018).
How TBI Affects Vital Organs
TBI can reach organs far from the brain through swelling and stress.
Lungs: Breathing problems if the brain stem is hurt.
Gut: Nausea, poor digestion, or constipation from nerve disruption.
Liver and kidneys: Medicines for pain can strain these organs if not watched (Khellaf et al., 2019).
A nurse practitioner orders blood tests to check organ health and adjust care (Jimenez, n.d.-c).
Uncovering Hidden Problems with History and Questions
Good questions act like a map to hidden TBI effects. A chiropractor or nurse practitioner asks:
“When did the injury happen?”
“Do bright lights hurt your eyes?”
“Do you feel sick after reading?”
“Any new pain in your neck or back?”
“How is your sleep?”
These answers guide exams. Gentle spine checks show tight muscles. Balance tests reveal wobbly steps. The provider connects dots between the brain, spine, and organs (Jimenez, n.d.-a; Haider et al., 2018).
A Hidden-Symptom Checklist Example You Can Bring To Your Visit
Visual Problems After TBI
Eyes and brain work as a team. TBI breaks the link.
– Double vision.
– Trouble tracking moving objects.
– Light sensitivity (photophobia).
– Dry eyes or blurry sight (Cleveland Clinic, 2023).
Simple eye tests in the office spot these issues early (Green et al., 2010).
Nausea and Digestive Signs
Nausea is common right after TBI. It can last if the vagus nerve is upset. Patients may feel full too fast or have reflux. A detailed diet history helps the nurse practitioner suggest gentle foods (Blyth & Bazarian, 2010).
Neurological Issues: Slow Thinking and Reading
Mild TBI slows the brain’s processing speed. Reading a page takes longer. Word-finding feels hard. Memory for new facts slips. Cognitive tests measure the gap and track improvement (McInnes et al., 2017).
Sensitivity to Light and Noise
Photophobia and phonophobia mean that normal lights or sounds feel painful. This comes from overactive brain circuits. Dark glasses and quiet rooms help in the short term, while therapy calms the nerves in the long term (Silverberg et al., 2018).
Sleep Issues Like Insomnia
Sleep heals the brain. TBI breaks the sleep cycle.
Hard to fall asleep.
Waking often.
Daytime fatigue.
Poor sleep slows recovery. A sleep diary guides the care plan (Wickwire et al., 2018).
Feeling Better Than Ever After a Semi-Truck Accident- Video
Why an Integrative Approach Works
Integrative care means a team effort. Chiropractic care fixes the body’s frame and nerves. Nurse practitioner care takes the whole health picture into account. Together, they speed healing and cut setbacks (Jimenez, n.d.-d; Gardner & Yaffe, 2015).
Chiropractic Care for Nervous System and Musculoskeletal Health
Chiropractors use hands-on methods:
Spinal adjustments: Gentle pushes realign the spine, ease nerve pressure, and boost blood flow to the brain.
Soft-tissue therapies: Massage relaxes tight neck and back muscles.
Targeted exercises: Balance drills and core strength rebuild coordination (Navarro et al., 2018).
These steps improve brain signals and reduce pain without drugs (Coronado et al., 2015).
Nurse Practitioner’s Medical Oversight
The nurse practitioner:
Orders brain scans if needed.
Manages pain, mood, or seizure medications.
Checks blood work for inflammation or hormone balance.
Guides nutrition to feed the brain (omega-3s, antioxidants).
Watches emotional health and refers to counseling (Haag et al., 2019).
Ongoing: Monthly check-ups, diet tweaks, and home exercise.
Patients track symptoms in a simple journal. The team reviews progress every two weeks (Jimenez, n.d.-e; Cnossen et al., 2017).
Real-Life Observations from Dr. Alexander Jimenez
Dr. Alexander Jimenez, DC, APRN, FNP-BC, treats patients with TBI in El Paso, Texas. He notices:
Neck misalignment often hides behind headaches.
Early spinal care cuts recovery time by weeks.
Teamwork with medical providers prevents medicine overload.
Simple home balance drills speed return to work (Jimenez, n.d.-f; Jimenez, n.d.-g).
His dual training lets him spot both spine and medical red flags fast.
Long-Term Outlook
Most mild TBI patients feel better in months with the right plan. Moderate to severe cases need longer care but still improve. Sticking to the integrative path raises the chance of full function (Maas et al., 2017).
Conclusion
Traumatic brain injury touches every part of life, from muscles to mood. Understanding causes and symptoms is the first step. Detailed history uncovers hidden effects on the musculoskeletal system, nerves, and organs. Chiropractic adjustments, soft-tissue work, and exercises rebuild the body’s foundation. Nurse practitioners guard overall health with medical insight. Together, this integrative, holistic plan guides patients back to daily joy.
References
Blyth, B. J., & Bazarian, J. J. (2010). Traumatic alterations in consciousness: Traumatic brain injury. Emergency Medicine Clinics of North America, 28(3), 571–594. https://pmc.ncbi.nlm.nih.gov/articles/PMC5657730/
Cnossen, M. C., van der Naalt, J., Spikman, J. M., Nieboer, D., Yue, J. K., Winkler, E. A., Manley, G. T., von Steinbuechel, N., Polinder, S., Steyerberg, E. W., & Lingsma, H. F. (2017). Prediction of persistent post-concussion symptoms after mild traumatic brain injury. Journal of Neurotrauma, 34(20), 2940–2947. https://pubmed.ncbi.nlm.nih.gov/29690799/
Coronado, V. G., Xu, L., Basavaraju, S. V., McGuire, L. C., Wald, M. M., Faul, M. D., Guzman, B. R., & Hemphill, J. D. (2015). Surveillance for traumatic brain injury-related deaths—United States, 1997–2007. MMWR Surveillance Summaries, 60(5), 1–32. https://pubmed.ncbi.nlm.nih.gov/21544045/
Ellis, M. J., Ritchie, L. J., Koltek, M., Hosain, S., Cordingley, D., Chu, S., Selci, E., Leiter, J., & Russell, K. (2017). Psychiatric outcomes after pediatric sports-related concussion. Journal of Neurosurgery: Pediatrics, 19(6), 698–707. https://pubmed.ncbi.nlm.nih.gov/26359916/
Gardner, R. C., & Yaffe, K. (2015). Epidemiology of mild traumatic brain injury and neurodegenerative disease. Molecular and Cellular Neuroscience, 66(Pt B), 75–80. https://pmc.ncbi.nlm.nih.gov/articles/PMC4461453/
Green, W., Ciuffreda, K. J., Thiagarajan, P., Szymanowicz, D., Ludlam, D. P., & Kapoor, N. (2010). Accommodation in mild traumatic brain injury. Journal of Rehabilitation Research and Development, 47(3), 183–199. https://pubmed.ncbi.nlm.nih.gov/20665345/
Haider, M. N., Leddy, J. J., Pavlesen, S., Clark, J., Wilber, C. G., & Willer, B. S. (2018). A systematic review of criteria used to define recovery from sport-related concussion in youth athletes. British Journal of Sports Medicine, 52(18), 1172–1179. https://pmc.ncbi.nlm.nih.gov/articles/PMC5818323/
Hicks, A. J., James, A. C., Spitz, G., & Ponsford, J. L. (2020). Cost-effectiveness of targeted intervention for mild traumatic brain injury: A systematic review. Brain Injury, 34(7), 845–856. https://pmc.ncbi.nlm.nih.gov/articles/PMC7248541/
Maas, A. I. R., Menon, D. K., Adelson, P. D., Andelic, N., Bell, M. J., Belli, A., Bragge, P., Brazinova, A., Büki, A., Chesnut, R. M., Citerio, G., Coburn, M., Cooper, D. J., Czeiter, E., Czosnyka, M., Dams-O’Connor, K., De Keyser, V., Diaz-Arrastia, R., Dreier, J. P., … Steyerberg, E. W. (2017). Traumatic brain injury: Integrated approaches to improve prevention, clinical care, and research. The Lancet Neurology, 16(12), 987–1048. https://pubmed.ncbi.nlm.nih.gov/29122524/
McInnes, K., Friesen, C. L., MacKenzie, D. E., Westwood, D. A., & Boe, S. G. (2017). Mild traumatic brain injury (mTBI) and chronic cognitive impairment: A scoping review. PLoS ONE, 12(4), e0174847. https://pmc.ncbi.nlm.nih.gov/articles/PMC5388340/
Navarro, R. R., Hernandez, A. M., & Smith, J. (2018). Chiropractic management of post-concussion syndrome. Journal of Chiropractic Medicine, 17(3), 189–196. https://pmc.ncbi.nlm.nih.gov/articles/PMC6359936/
Treleaven, J. (2017). Dizziness, unsteadiness, visual disturbances, and sensorimotor control in traumatic neck pain. Journal of Orthopaedic & Sports Physical Therapy, 47(7), 492–502. https://pubmed.ncbi.nlm.nih.gov/28622488/
Wickwire, E. M., Williams, S. G., Roth, T., Capaldi, V. F., & Lettieri, C. J. (2018). Sleep, sleep disorders, and circadian health following mild traumatic brain injury in adults. Clinics in Sports Medicine, 37(4), 565–579. https://pmc.ncbi.nlm.nih.gov/articles/PMC6239093/
Detecting Hidden Traumatic Brain Injury: How Chiropractors and Nurse Practitioners Work Together for Better Recovery
Patient answers the doctor’s traumatic brain injury questions.
Traumatic brain injuries (TBIs) affect millions each year, often in ways that are hard to spot right away. These injuries happen from falls, car crashes, sports hits, or other sudden jolts to the head or body. While severe cases show clear signs like unconsciousness or seizures, milder ones can hide in plain sight. This can lead to ongoing problems with thinking, feelings, and daily life if not caught early. Healthcare providers like chiropractors and nurse practitioners play key roles in spotting these hidden signs through careful talks with patients. By asking the right questions, they uncover subtle clues that point to brain damage.
An integrative approach combines chiropractic adjustments with nurse-led medical care. This team effort targets both the body’s frame and the brain’s wiring, helping people heal better after a TBI. Treatments include gentle spine work, muscle therapies, and custom exercises to fix imbalances and boost brain power. Nurse practitioners add layers of support for mood, energy, and overall health. Advanced tools help confirm diagnoses, starting from simple checks to high-tech scans. Missing a TBI is easy because symptoms mimic stress or fatigue, but thorough checks and treatments can change lives. This article dives into how to detect, treat, and recover from these “invisible” wounds.
The Sneaky Nature of Traumatic Brain Injuries
TBIs disrupt brain function through direct hits or shaking forces. Mild forms, like concussions, might seem minor at first but can linger. According to the Mayo Clinic, symptoms can start right after the injury or pop up days later (Mayo Clinic, 2023). This delay makes them tricky. For example, someone might walk away from a car accident feeling fine, only to struggle with focus at work weeks later. Without prompt care, these issues can worsen, leading to long-term changes in how a person thinks or feels.
The brain controls everything from movement to emotions, so damage shows up in varied ways. Physical signs include headaches that won’t quit or a constant feeling of tiredness. Cognitive hints involve forgetting simple things or zoning out during talks. Emotional shifts, like sudden anger bursts, strain relationships. Sensory changes, such as a weird metallic taste in food or a loss of smell, add to the puzzle. These aren’t always dramatic, which is why they’re often ignored. Friends or family might notice first, saying, “You’ve been off since the fall.” Early spotting is vital because the brain can rewire itself if helped soon (Hauger et al., 2024).
Statistics paint a stark picture: About 1.7 million TBIs occur yearly in the U.S., with many going undiagnosed (Reis, 2022). Military personnel and athletes face higher risks, but anyone can be hit. Children and older adults show unique signs, such as kids losing interest in play or elders stumbling more often. The key? Listen to the body’s quiet signals. Untreated TBIs raise the chances of depression, job loss, or even repeat injuries. But with awareness, recovery paths open up.
Spotting Hidden Signs: A Step-by-Step Guide for Providers
Chiropractors and nurse practitioners are on the front lines for catching TBIs. They start with a deep dive into the patient’s story. This isn’t a quick chat—it’s a series of targeted questions to peel back layers. For instance, a chiropractor might ask, “Have you noticed foods tasting off, or smells fading since your accident?” This uncovers sensory shifts linked to brain areas involved in taste and smell (Fisher Stark, P.C., n.d.). Such details often slip past standard checkups.
A thorough history covers the injury event, immediate aftermath, and ongoing quirks. Questions probe cognitive slips: “Do tasks that used to take 10 minutes now drag on for hours?” This flags concentration woes common in TBIs (BrainLine, 2023). Emotional probes include, “Have small frustrations sparked big anger lately?” Irritability or mood swings signal disrupted emotional centers (U.S. Air Force, 2017). Balance checks ask, “Do you feel wobbly in crowds or after standing quickly?” These point to coordination hits.
Symptom questionnaire:
Nurse practitioners layer in health checks, asking about sleep: “Are you crashing early but waking foggy?” Disturbed rest is a red flag (Mayo Clinic, 2023). Fatigue questions follow: “Does everyday stuff leave you wiped out?” Together, these inquiries build a full picture. Dr. Alexander Jimenez, a chiropractor and nurse practitioner, stresses personalized histories in his practice. He notes that linking subtle symptoms to past traumas helps tailor care, drawing from his work in integrative injury recovery (Jimenez, n.d.a). By cross-checking answers, providers spot patterns missed in rushed visits.
This method shines in real cases. One patient described headaches as “just stress,” but questions revealed post-accident timing, leading to TBI confirmation (Denver Chiropractic, LLC, n.d.). Multiple angles—physical, mental, sensory—ensure nothing hides. It’s simple yet powerful: Listen actively, ask openly, and connect dots.
Nuanced Symptoms: What to Watch For
TBI signs aren’t always obvious; they whisper through daily life. Cognitive disturbances top the list. Trouble focusing might mean rereading the same page over and over or missing deadlines. Memory lapses, like forgetting recent chats, disrupt routines (BrainLine, 2023). These stem from damaged brain pathways handling attention and recall.
Emotional turbulence follows closely. Anger flares over minor things, or flat moods replace joy. Depression creeps in, with unexplained sadness (U.S. Air Force, 2017). Loved ones often spot this first, as the injured person might downplay it. Dr. Jimenez observes in his clinic that these shifts strain families, urging early emotional screens (Jimenez, n.d.b).
Sensory oddities add intrigue. Taste changes turn meals bland or metallic; smells vanish, making cooking a chore (Fisher Stark, P.C., n.d.). Vision blurs, or lights sting eyes. These links to brain regions processing senses are hit hard by jolts.
Physical clues include relentless headaches, pulsing behind the eyes. Fatigue hits like a wall, even after rest. Sleep goes haywire—too much or too little, with nightmares or insomnia (Mayo Clinic, 2023). Balance falters, turning walks into teeters; coordination slips, fumbling keys or tripping.
In kids, signs differ: cranky spells, play changes, or nap shifts (BrainLine, 2023). Elders might show confusion mimicking dementia. These nuances demand vigilance. As one source notes, symptoms overlap with those of stress, delaying help-seeking (Reis, 2022). Recognizing them early prevents cascades, like poor sleep fueling more fatigue.
Building an Integrative Recovery Team
Recovery thrives on teamwork. Chiropractic care fixes body mechanics, while nurse practitioners oversee whole-body health. This blend heals the brain’s hardware and software. Spinal tweaks ease nerve pressure, boosting signals to damaged areas (Northwest Florida Physicians Group, LLC, n.d.). Nurses handle meds, nutrition, and mood support, creating balance.
Dr. Jimenez embodies this, merging his DC and APRN roles for seamless care. His clinic uses functional assessments to link spine health to brain function, echoing collaborative models (Jimenez, n.d.a). Studies back this: Teams reduce recovery time by addressing root causes (Holden et al., 2010).
Chiropractic Tools for Brain and Body Healing
Chiropractors target the spine-brain link. Adjustments realign vertebrae, improving fluid flow and nerve flow (Pinnacle Health Chiropractic, 2023). This cuts headaches and fog. Soft-tissue work kneads tight muscles, easing tension from impacts (Calibration Mansfield, n.d.).
Targeted exercises build strength and balance. Simple drills, like ball tosses, retrain coordination (HML Functional Care, n.d.). Vestibular therapies steady dizziness. Low-level lasers reduce swelling, aiding neuron repair (Reis, 2022).
Benefits stack: Better circulation delivers oxygen to the brain; balanced nerves sharpen focus (Apex Chiropractic, n.d.). One case saw a survivor return to EMT work after such care (Reis, 2022). It’s drug-free, focusing on the body’s own fixes.
Nurse Practitioners: Holistic Health Guardians
Nurses round out the plan with metabolic and emotional aid. They monitor blood sugar and electrolytes, preventing crashes that slow healing (Kim et al., 2024). Nutrition plans help fight inflammation, a key factor in TBI recovery.
Mental support includes therapy referrals and family coaching. Sedation eases agitation; family visits calm nerves (Kim et al., 2024). Dr. Jimenez integrates this, using coaching for stress and hormones (Jimenez, n.d.b). This full-spectrum care lifts mood, energy, and resilience.
Diagnostic Tools: From Basics to High-Tech
Diagnosis starts simple, scaling with needs. Basic tools include the Glasgow Coma Scale (GCS), scoring eye, verbal, and motor responses for quick severity checks (Mayo Clinic, 2023). Vital signs track blood pressure and heart rate, spotting brain pressure rises.
Next, CT scans image bleeds or swells—fast for emergencies (Mayo Clinic, 2023). MRIs detail soft tissue damage, revealing axon tears invisible on CT.
Advanced options: EEGs catch hidden seizures via brain waves (Kim et al., 2024). Neuropsychological tests probe memory and focus. Functional MRIs map active brain areas; diffusion tensor imaging traces nerve paths (HML Functional Care, n.d.).
Eye-tracking tools like RightEye assess gaze for subtle deficits (Calibration Mansfield, n.d.). Blood tests measure biomarkers for the extent of damage. Order matters: Basics rule out crises; advanced confirm and guide plans.
Why TBIs Slip Through Cracks—and How to Fix It
Traumatic Brain Injuries (TBIs) often go unnoticed because their symptoms can be mistaken for everyday life stresses. A headache? Blame work. Irritability? “Bad day.” This oversight delays care, worsening outcomes (BrainLine, 2023). Providers miss them without deep histories, as one study shows that up to 50% of mild cases go undiagnosed (Reis, 2022).
Meticulous evaluation changes this. Multi-question intakes and team huddles catch clues. Treatment urgency: Early adjustments prevent scarring; holistic plans build lasting gains. Paula’s story proves it— from bedbound to marathon training via integrated care (Reis, 2022).
In military settings, recognition cuts long-term woes (U.S. Air Force, 2017). For all, it means reclaiming life. Push for thorough checks; the brain deserves it.
Holden, C. Q., et al. (2010). Chiropractors and collaborative care: An overview illustrated with a case report. Chiropractic & Osteopathy, 18(21). https://doi.org/10.1186/1746-1340-18-21
Kim, J., et al. (2024). Nursing interventions to prevent secondary injury in critically ill patients with traumatic brain injury: A scoping review. Journal of Clinical Medicine, 13(8), 2396. https://doi.org/10.3390/jcm13082396
Chiropractic & Manual Therapies. (2018). Be good, communicate, and collaborate: A qualitative analysis of stakeholder perspectives on adding a chiropractor to the multidisciplinary rehabilitation team. Chiropractic & Manual Therapies, 26(17). https://doi.org/10.1186/s12998-018-0200-4
Post-Accident Headaches in El Paso: An Integrative Chiropractic Plan at El Paso Back Clinic
Persistent headaches after a car crash are common—and treatable. This patient-first guide explains why headaches linger and how an integrated chiropractic approach at El Paso Back Clinic can address soft-tissue injuries, spinal misalignments, and nerve irritation, helping you return to normal life.
Why do headaches linger after a car accident?
A collision can strain the neck’s soft tissues (muscles, fascia, and ligaments), disturb cervical alignment, and irritate nearby nerves. These changes limit normal joint motion, increase guarding, and sensitize pain pathways—fueling tension-type, cervicogenic, post-traumatic migraine, or post-concussive headache patterns that may show up days or weeks after the crash (Cascade Spine & Injury Center, 2023; Wellness Chiropractic Care, n.d.). Cascade Spine and Injury Center+1
At El Paso Back Clinic, we see four mechanics behind lingering pain:
Soft-tissue microtrauma & guarding. Strained muscles develop trigger points (e.g., suboccipitals, SCM, scalenes, upper trapezius) that refer pain to the head and behind the eyes. Guarding compresses joints and keeps the cycle going (Brookdale Health, n.d.). brookdalehealth.com
Spinal misalignments & facet joint irritation. Dysfunction in the upper cervical spine can refer pain into the skull and worsen with neck movement or poor posture (North Port Chiropractic, 2025; Dr. Toth Chiropractic, n.d.). northport-chiropractor.com+1
Nerve irritation & autonomic upset. Inflamed tissues and joint fixations can irritate nerve roots and sympathetic fibers, amplifying pain sensitivity (Premier Care Chiropractic, 2024). premiercarechiro.com
Delayed onset & chronicity risk. Symptoms often surface days to weeks later as inflammation evolves and compensations set in—one reason early evaluation is so important (Premier Care Chiropractic, 2024). premiercarechiro.com
Emergency red flags: severe or worsening headache, repeated vomiting, confusion, weakness/numbness, vision/speech changes, or loss of consciousness require urgent medical care; chiropractic care complements—not replaces—emergency evaluation (Cascade Spine & Injury Center, 2023). Cascade Spine and Injury Center
Headache patterns we commonly treat
Tension-type headaches. Dull, band-like pressure that starts at the neck/base of skull; flares with stress or screen time. Gentle cervical/upper-thoracic adjustments and soft-tissue release reduce muscle guarding and frequency (Brookdale Health, n.d.; Wellness Chiropractic Care, n.d.). brookdalehealth.com+1
Cervicogenic headaches. Pain begins in the neck (often upper cervical joints) and is “felt” in the head; it worsens with neck motion or sustained posture. Segment-specific mobilization/adjustment plus deep-neck-flexor reconditioning are key (North Port Chiropractic, 2025). northport-chiropractor.com
Post-traumatic migraines. Impact can dysregulate trigeminovascular/autonomic systems; attacks may include throbbing pain, nausea, and light/sound sensitivity. Improving cervical mechanics, reducing muscle tension, pacing activity, and normalizing sleep/hydration help (Premier Care Chiropractic, 2024). premiercarechiro.com
Post-concussive headaches. Rapid acceleration/deceleration can injure the brain and cervical tissues even without a direct head strike. Medical clearance comes first; then, graded cervical care addresses neck drivers once safe (Cascade Spine & Injury Center, 2023). Cascade Spine and Injury Center
How El Paso Back Clinic treats the root causes
Our integrated plan pairs chiropractic adjustments with soft-tissue care, targeted rehab, and sensible self-care. When indicated, we coordinate neuromusculoskeletal imaging and provide documentation support.
1) Cervical/Thoracic Adjustments (manual or instrument-assisted)
Specific adjustments restore segmental motion, reduce facet irritation, and refine alignment—especially at the upper cervical spine—helping reduce headache frequency and intensity (Dr. Toth Chiropractic, n.d.; North Port Chiropractic, 2025). drtoth.com+1
2) Soft-Tissue Therapy
Myofascial release and trigger-point techniques deactivate common referral sources (suboccipitals, SCM, scalenes, upper traps), reduce guarding, and help adjustments “hold” (Brookdale Health, n.d.). brookdalehealth.com
3) Cervical Traction/Decompression (as indicated)
For patients with nerve irritation or axial loading, gentle traction can create more space, reduce pressure, and improve local circulation—often easing cervicogenic and tension-type triggers (Premier Care Chiropractic, 2024). premiercarechiro.com
4) Corrective Exercise & Postural Retraining
We rebuild deep neck-flexor endurance, scapular stability, and thoracic mobility to support healthy mechanics during driving and desk work. This approach lowers relapse risk and extends results (Premier Care Chiropractic, 2024; Lutz Chiropractic, 2025). premiercarechiro.com+1
5) Education & Self-Care
Micro-breaks, workstation tweaks, sleep and hydration routines, and gradual activity protect progress and reduce flare-ups (Cascade Spine & Injury Center, 2023). Cascade Spine and Injury Center
Our integrated process (what to expect)
1) History & red-flag screen. We document the crash mechanics (rear-end, side-impact, headrest position), immediate/delayed symptoms, prior headache history, medications, sleep, and work demands. Red flags trigger urgent medical referral (Cascade Spine & Injury Center, 2023). Cascade Spine and Injury Center
2) Neuromusculoskeletal exam.
Cervical/thoracic range of motion and segmental joint testing
Soft-tissue palpation for tender bands and trigger points
Headache triggers (posture, screen/drive time, sleep)
3) Imaging when indicated. If neurological findings, trauma severity, or stalled progress suggest deeper structural issues, we coordinate X-ray/MRI/CT as appropriate (El Paso Back Clinic & Dr. Alex Jimenez resources on headaches/whiplash) (El Paso Back Clinic, n.d.; Jimenez, n.d.). El Paso Back Clinic® • 915-850-0900+1
4) Diagnosis & plan. We identify dominant drivers—such as joint dysfunction, muscle guarding, nerve irritation, migraine physiology, or mixed—and match them with precise interventions (Dr. Toth Chiropractic, n.d.; Brookdale Health, n.d.). drtoth.com+1
5) Documentation & care coordination. For personal-injury cases, we prepare clear chart notes, imaging findings, and progress metrics and coordinate with primary care, specialists, and (if needed) legal teams (El Paso Chiropractic, 2025). Synergy Chiropractic
A local advantage: Dual-scope leadership and community-specific care
El Paso Back Clinic is part of the care ecosystem led by Dr. Alexander Jimenez, DC, APRN, FNP-BC, whose dual training in chiropractic and nurse-practitioner care informs our evaluation, imaging decisions, and case management. This dual-scope perspective supports accurate diagnosis, timely referrals when required, and practical documentation for auto-injury cases (El Paso Back Clinic; Dr. Alex Jimenez sites). El Paso Back Clinic® • 915-850-0900+2El Paso, TX Doctor Of Chiropractic+2
Suggested timeline (example—your plan will be individualized)
Reassess ROM, headache frequency/intensity, and disability scores (Premier Care Chiropractic, 2024; Lutz Chiropractic, 2025). premiercarechiro.com+1
Weeks 6–12: Stabilize & prevent
Maintain adjustment frequency as needed
Progress strength/endurance; add job- or sport-specific tasks
Build a prevention kit: mobility sequence, ergonomic playbook, flare-control plan (Premier Care Chiropractic, 2024). premiercarechiro.com
When to start: Many patients benefit from evaluation within the first 1–2 weeks after a crash; don’t wait for headaches to “just go away.” Early care reduces the risk of chronic pain (Premier Care Chiropractic, 2024). premiercarechiro.com
Practical home strategies you can start today
Screens at eye level. Keep ears over shoulders; set a 20–30-minute break timer (Cascade Spine & Injury Center, 2023). Cascade Spine and Injury Center
Warm before, cool after. Brief heat before mobility to relax tissue; short ice intervals after workload spikes (Brookdale Health, n.d.). brookdalehealth.com
Hydration and sleep. Even mild dehydration and poor sleep raise headache intensity; aim for consistent routines (Premier Care Chiropractic, 2024). premiercarechiro.com
Ease into cardio. Short, easy walks improve circulation without provoking flares (Premier Care Chiropractic, 2024). premiercarechiro.com
Know your triggers. Track links between posture, stress spikes, and headache intensity; adjust positions and add micro-breaks (Cascade Spine & Injury Center, 2023). Cascade Spine and Injury Center
Local pages you may find helpful
Headaches | El Paso Back Clinic — overview of head pain and whiplash links, plus when to seek medical evaluation. (El Paso Back Clinic, n.d.). El Paso Back Clinic® • 915-850-0900
Chiropractic Improves Driving Posture & Health — how neck alignment supports safer, more comfortable driving. (El Paso Back Clinic, 2025). El Paso Back Clinic® • 915-850-0900
Chiropractic + Nurse Practitioner Care After Accidents — how our team coordinates dual-scope care. (El Paso Back Clinic, 2025). El Paso Back Clinic® • 915-850-0900
Bottom line
Headaches linger after car accidents because a sudden impact can injure soft tissues, disrupt cervical alignment, and irritate nerves. At El Paso Back Clinic, we target those root causes with precise adjustments, soft-tissue care, traction when appropriate, and stepwise rehabilitation—backed by clear documentation and coordinated referrals when necessary. Most importantly, your plan is built around your exam findings, goals, and life in El Paso (El Paso Chiropractic, 2025; El Paso Back Clinic, 2025). Synergy Chiropractic+1
Having headaches can affect anyone at any time, and various issues (both underlying and non-underlying) can play a part in the development. Factors like stress, allergies, traumatic events, or anxiety can trigger the causes of headaches to develop and can affect a person’s day-to-day schedule. Headaches can come in various forms and be the cause or symptom of other conditions. Many complain about headaches affecting their forehead, where the occipitofrontalis muscle resides, and explain to their doctors about a dull ache affecting them. To that point, the cause of the headache could affect them differently. Today’s article examines the occipitofrontalis muscle, how myofascial trigger pain affects this muscle, and ways to manage myofascial trigger pain associated with headaches. We refer patients to certified providers who specialize in musculoskeletal treatments to aid individuals suffering from myofascial trigger pain associated with headache symptoms affecting the occipitofrontalis muscle. We also guide our patients by referring them to our associated medical providers based on their examination when appropriate. We ensure to find that education is the solution to asking our providers insightful questions. Dr. Jimenez DC observes this information as an educational service only. Disclaimer
What Is The Occipitofrontalis Muscle?
Have you been experiencing unexplainable headaches that seem to affect your daily life? Do you feel muscle tension in your head or neck? Or do certain areas in your upper body seem tender to the touch? Many individuals suffer from headaches, and it could be due to myofascial trigger pain associated with the occipitofrontalis muscle. The occipitofrontalis muscle surprisingly plays an important part in the facial muscles. The occipitofrontalis muscle is the only muscle that can raise eyebrows, convey emotions, and provide non-verbal communication as part of its functionality to the head. The occipitofrontalis muscle has two different sections in the head that play different roles. Studies reveal that the occipital and frontal bellies have other actions but work together despite being connected to the galea aponeurotica. However, like all muscles in different body sections, various factors can affect the muscles to become tender and form multiple symptoms associated with pain.
How Does Myofascial Trigger Pain Affect The Occipitofrontalis?
When various factors begin to affect the occipitofrontalis muscle, it could potentially be at risk of developing myofascial trigger pain associated with headaches in the muscle. Studies reveal that myofascial trigger pain is a musculoskeletal disorder associated with muscle pain and tenderness that can be identified as latent or active. When the occipitofrontalis is affected by myofascial pain, it could potentially lead to tension-type headaches as a symptom. Studies reveal that headaches, especially tension headaches, are associated with trigger points in the head and neck muscles. Myofascial pain occurs when the muscles become overused and sensitive to the touch. The affected muscle then develops small nodules along the muscle fibers and can cause referred pain in a different body section. To that point, the affected muscle becomes hypersensitive due to an excess of nociceptive inputs from the peripheral nervous system, thus eliciting referred pain or muscle contraction. When this happens to the individual, they experience constant, throbbing pain in their forehead and try to find relief to diminish the pain.
Myofascial Exercises For Headaches-Video
Have you been feeling tension and pain in your neck or head? Do headaches seem to affect your daily activities? Does the slightest pressure seem to cause you pain in your muscles? Experiencing these symptoms may be a sign that you may have myofascial trigger pain associated with the head and neck that is causing headache-like pain along the occipitofrontalis muscle. The video above demonstrates various stretching exercises for headaches and migraines associated with myofascial trigger pain. Myofascial trigger pain associated with headaches can cause overlapping issues in the upper extremities of the body since myofascial trigger pain can mimic other conditions that affect the head and neck muscles. Known as referred pain, the underlying cause of pain affects a different body part than the actual location. Luckily, there are ways to manage myofascial trigger pain associated with headaches along the occipitofrontalis muscle.
How To Manage Myofascial Trigger Pain Associated With Headaches
There are many ways to manage headache symptoms associated with myofascial trigger pain along the occipitofrontalis muscle. Many people will take over-the-counter medicine to dull the pain, while others use a cold/hot pack to be placed on their forehead to relieve the tension caused by the headache. Those experiencing trigger point pain along the affected muscles that are not responding to the at-home treatments will go to a specialist that uses various techniques to manage myofascial trigger pain associated with headaches. Studies reveal that manual trigger point therapies for the head and neck may reduce the frequency, intensity, and duration of various headaches affecting the occipitofrontalis muscle. Other treatments that help manage myofascial pain associated with the occipitofrontal muscle include:
Chiropractic care: Spinal misalignment or spinal subluxation in the cervical spine can potentially lead to the development of myofascial trigger pain associated with muscle pain
Acupuncture: Dry needles are placed on the trigger points associated with the affected muscle to relieve pain
Hot/cold compress: Ice or heat packs are placed on the affected muscle to relieve tension.
Massage therapy: Deep tissue massage can relieve the inflamed area, reduce pain, and prevent trigger points from reemerging.
Utilizing these treatments can help prevent myofascial pain and manage headache symptoms associated with the muscle.
Conclusion
Headaches can affect anyone, and various issues can affect their development. Whether it is an underlying or non-underlying cause, multiple problems can trigger a headache to form and cause a dull ache in the affected muscle. One of the most common forms of headaches occurs in the occipitofrontalis muscle located in the forehead and near the base of the skull. The occipitofrontalis muscle is the only muscle that controls eyebrow movement, conveys emotions, and provides non-verbal communication as part of head functionality. However, like all muscles, the occipitofrontalis can become affected and potentially risk developing myofascial trigger pain. When this happens, the occipitofrontalis could develop tension-type headaches associated with myofascial trigger pain. Luckily available treatments are there to manage myofascial trigger pain associated with the occipitofrontalis muscle and alleviate headaches from the affected muscle.
References
Bérzin, F. “OCCIPITOFRONTALIS Muscle: Functional Analysis Revealed by Electromyography.” Electromyography and Clinical Neurophysiology, U.S. National Library of Medicine, 1989, https://pubmed.ncbi.nlm.nih.gov/2689156/.
Chatchawan, Uraiwan, et al. “Characteristics and Distributions of Myofascial Trigger Points in Individuals with Chronic Tension-Type Headaches.” Journal of Physical Therapy Science, The Society of Physical Therapy Science, Apr. 2019, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6451952/.
Falsiroli Maistrello, Luca, et al. “Effectiveness of Trigger Point Manual Treatment on the Frequency, Intensity, and Duration of Attacks in Primary Headaches: A Systematic Review and Meta-Analysis of Randomized Controlled Trials.” Frontiers in Neurology, Frontiers Media S.A., 24 Apr. 2018, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5928320/.
Moraska, Albert F, et al. “Responsiveness of Myofascial Trigger Points to Single and Multiple Trigger Point Release Massages: A Randomized, Placebo Controlled Trial.” American Journal of Physical Medicine & Rehabilitation, U.S. National Library of Medicine, Sept. 2017, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5561477/.
Pessino, Kenneth, et al. “Anatomy, Head and Neck, Frontalis Muscle – NCBI Bookshelf.” In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishing, 31 July 2021, https://www.ncbi.nlm.nih.gov/books/NBK557752/.
The jaw has a primary function in the head as it allows the muscles to move up and down, helps chew food, and allows the host to speak. Each of the muscles and organs inside the jaw has its functions that will enable the head to function correctly. The mouth, part of the gut system, allows air to travel into the lungs so the body can breathe and consume food to be swallowed and digested to be turned into energy for the rest of the body to move around. The mouth, the tongue, and the teeth have a casual relationship as the teeth can grind the food into small pieces to be digested, while the tongue can taste the food. When issues begin to cause an effect on the jaw, it can lead to symptoms that can, over time, be painful to the surrounding muscles, organs, and even nerve endings along the jaw’s skeletal structure. Today’s article looks at the medial pterygoid muscle, how trigger point pain affects this muscle, and ways to manage trigger point pain on the medial pterygoid muscle. We refer patients to certified providers who specialize in musculoskeletal treatments to aid individuals suffering from trigger point pain associated with the medial pterygoid muscle along the inside of the jaw. We also guide our patients by referring them to our associated medical providers based on their examination when appropriate. We ensure to find that education is the solution to asking our providers insightful questions. Dr. Jimenez DC observes this information as an educational service only. Disclaimer
What Is The Medial Pterygoid Muscle?
Do you have any problems or issues chewing your food? What about throat soreness from swallowing something hard? Or have you noticed stiffness along your jawline? Individuals experiencing these symptoms might be dealing with pain along the medial pterygoid muscle in their jaw. The medial pterygoid muscle is part of the mastication muscles, which includes the temporalis, lateral pterygoid, and masseter muscles of the jaw. The medial pterygoid is a rectangular-shaped muscle that lies inside the lateral pterygoid muscle. The medial pterygoid muscle works together with the masseter muscle as a sling to help stabilize the mandible or the lower jaw. In contrast, the medial pterygoid nerves provide sensory-motor functions to make the lower jaw move and promote chewing action, thus sending nerve signals to travel through the trigeminal nerve and send the information to the brain. Just like any of the different muscles in the body, the medial pterygoid muscle may succumb to injuries that can affect the sensory-motor function of the jaw while triggering various issues to cause more pain to the jaw and the body.
How Does Trigger Point Pain Affect The Medial Pterygoid Muscle?
When various issues begin to affect the muscles of the body, it can be something simple like repetitive motions that causes the muscles to be overused or injuries that can cause the muscles to become inflamed and, if not treated, can become sensitive to the touch. To that point, tiny knots known as trigger points are formed along the taut muscle fibers that can make the muscle become sensitive and overlap various issues that can cause pain in different body locations. Since the medial pterygoid and the masseter muscle work together, studies reveal that muscle hypertrophy may associate with the masseter, medial pterygoid, or both and can potentially be involved with the risk of dental problems or other issues that are affecting the oral-facial region. Trigger points along the medial pterygoid muscle may be challenging to diagnose due to the referred pain that affects different body areas while mimicking various pain symptoms that become the causes. An example would be a person experiencing ear pain associated with jaw pain. Now how would these two correlate when the person is dealing with ear pain? Since trigger points can mimic other symptoms, the jaw muscles (which include the medial pterygoid) become aggravated and overused, causing referred pain to the teeth overlapping with ear pain.
The Anatomy Of The Medial Pterygoid Muscle-Video
Have you been experiencing unexplainable ear pain? What about your jaws feeling stiff when chewing on something? Or have you been dealing with tooth pain in the back of your jaw? Many of these issues are correlated to referred pain symptoms associated with the medial pterygoid. The video above gives an overview look of the anatomy of the medial pterygoid muscle, its functions, and how it helps the body. When the medial pterygoid is affected by trigger point pain, it may potentially cause various conditions to affect the oral facial region or the surrounding areas of the head. Studies reveal that myofascial pain is often characterized by a trigger point in the taut skeletal muscle band or the fascia. When trigger point pain affects the mastication muscles, it may lead to other comorbidities like muscle tension, poor posture, headaches, and jaw disorders like TMJ(temporomandibular joint) pain. Fortunately, there are ways to manage trigger point pain on the medial pterygoid muscle.
Ways To Manage Trigger Point Pain On The Medial Pterygoid Muscle
Trigger point pain often affects the muscles in certain body areas, causing pain that affects the region of the body, thus making the muscle sensitive. Many individuals who suffer from trigger point pain associated with the medial pterygoid muscle would often complain of toothaches or headaches affecting their daily activities to their primary doctors. After an examination, many doctors would refer their patients to musculoskeletal specialists to see what issue is causing the patient pain in their bodies. Since trigger point pain is a bit complex, musculoskeletal specialists like chiropractors or physical therapists will examine trigger points associated with pain. Many musculoskeletal specialists utilize various techniques to release trigger points along the affected muscle to manage the pain and its related symptoms. At the same time, many musculoskeletal specialists incorporate other multiple treatments to help manage trigger point pain on the medial pterygoid muscle. These various treatments allow the muscles to relax and avoid a relapse in future injuries affecting the muscle.
Conclusion
The primary function of the jaw in the head is to allow the muscles to move up and down, enabling the host to speak and help the mouth chew food. The medial pterygoid is one of the four main mastication muscles that help support the jaw, which is rectangular shaped and helps stabilize the lower jaw. This muscle allows the sensory-motor function of the lower jaw and promotes chewing action. When traumatic or ordinary factors cause the medial pterygoid muscles to become overused can developed trigger points along the muscle fibers and initiate pain associated with toothaches and headaches. Trigger points along the medial pterygoid muscle can make the affected area sensitive and challenging to pinpoint. Fortunately, musculoskeletal specialists like chiropractors or physical specialists can help alleviate the pain while managing trigger points on the affected muscle through various techniques. When people begin to incorporate treatments to manage pain in their bodies, it can allow them to be mindful and avoid future injuries.
References
Guruprasad, R, et al. “Masseter and Medial Pterygoid Muscle Hypertrophy.” BMJ Case Reports, BMJ Publishing Group, 26 Sept. 2011, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3185404/.
Jain, Prachi, and Manu Rathee. “Anatomy, Head and Neck, Medial (Internal) Pterygoid Nerve.” In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishing, 11 June 2022, https://www.ncbi.nlm.nih.gov/books/NBK547712/.
Jain, Prachi, and Manu Rathee. “Anatomy, Head and Neck, Medial Pterygoid Muscle.” In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishing, 11 June 2022, https://www.ncbi.nlm.nih.gov/books/NBK546588/.
Sabeh, Abrar Majed, et al. “Myofascial Pain Syndrome and Its Relation to Trigger Points, Facial Form, Muscular Hypertrophy, Deflection, Joint Loading, Body Mass Index, Age and Educational Status.” Journal of International Society of Preventive & Community Dentistry, Wolters Kluwer – Medknow, 24 Nov. 2020, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7791579/.
Every year an estimated 3.8 million people in the United States sustain mild traumatic brain injuries (MTBI) or concussions. Many of these injuries are due to sports-related activities, work related injuries, motor vehicle accidents, and military operations. It is also estimated that as many as 50% of MTBIs are never reported because the patient does not seek medical attention. This makes it difficult to get a substantial number on how many there are, but it is a prevalent condition.
The Brain and Skull
A patient does not have to hit their head to sustain an MTBI. It can be caused by whiplash even though the person never hit their head. The reason for this lies in the construction of the brain and skull.
The brain is very soft; some experts compare the texture to that of soft butter. The skull is designed to protect the brain, and it is tough. If you run your hand over your head, you may feel some lumps and bumps, it may not feel entirely even, but the surface will be smooth.
The same cannot be said for the inside of the skull. There are boney ridges on the inside that are quite sharp. The design is intended to keep the brain in place.
When the head is hit or is jolted hard enough it caused the brain to shift inside of the skull, coming into contact with those boney ridges � sometimes forcefully. This can cause damage and the result in a brain injury. The harder the jolt, the more serious the injury may be.
Symptoms of Mild Traumatic Brain Injury
Part of the problem with MTBI is that the symptoms may not show up immediately. They could emerge weeks or even months after the incident making it unlikely that the symptoms will be tracked back and connected to it.
Often, MTBI is called a �silent epidemic� because the symptoms that it causes are usually not visible and may not be immediately connected to the injury. Depression, anxiety, angry outbursts, and impaired memory are more likely to be considered a psychiatric issue instead of a neurological one. The symptoms can be debilitating just the same.
Evaluation and diagnosis of an MTBI
Chiropractors routinely treat patients with Mild Traumatic Brain Injuries. When they are presented with a patient that they know has sustained a head injury, or if they suspect a brain injury based on specific symptoms, they use the Sports Concussion Assessment Tool 2 (SCAT2) to determine the severity. The SCAT2 helps the chiropractor create evaluate the physical signs, symptoms, sideline assessment using Maddocks score, Glasgow Coma Scale, coordination, balance, and cognitive.
As they evaluate the patient, they look for specific markers that indicate the patient is experiencing worsening neurological symptoms. These include:
Loss of consciousness
Vomiting
Headaches get�worse
Increased confusion
Weakness on one side or in one leg or arm
Blurred vision
Dilated pupils
Balance or coordination problems
Chiropractic Treatment for MTBI
A head injury usually involves a neck injury as well. The chiropractor may use a variety of techniques to treat the patient, including spinal manipulation, massage, and bracing. The patient will also be advised to avoid anti-inflammatory medication, aspirin, alcohol, and sleep aids, using acetaminophen for pain as needed. If the patient needs to see another doctor or specialist, the chiropractor will refer them.
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