As one of the most load-bearing joints in the body, the hips nearly affect every movement. If the hip joint is involved in a vehicle crash, the space in the joint/hip capsule can fill with fluid, causing joint effusion or swelling, inflammation, dull-immobilizing pain, and stiffness. Hip pain is a common injury symptom reported after a vehicle crash. This pain can range from mild to severe and may be short-term or last for months. No matter the level of pain being experienced, action must be taken quickly to avoid long-term damage. Individuals need high-quality, patient-focused care from experienced specialists as soon as possible to get on the road to recovery.
Vehicle Crash Hip Injury
The hip joints must be healthy and work as effectively as possible to stay active. Arthritis, hip fractures, bursitis, tendonitis, injuries from falls, and automobile collisions are the most common causes of chronic hip pain. Depending upon the type of injury, individuals may experience pain symptoms in the thigh, groin, inside of the hip joint, or buttocks.
Associated Injuries
The most common injuries that cause pain in the hip after a collision include:
A hip ligament sprain or strain is caused by overstretched or torn ligaments.
These tissues attach bones to other bones and provide stability to the joints.
These injuries may only require rest and ice to heal, depending on the severity.
Chiropractic, decompression, and physical massage therapies may be necessary for realignment and to keep muscles flexible and relaxed.
Bursitis
Bursitis is an inflammation of the bursa, or the fluid-filled sac providing cushioning/material between bones and muscles.
It is one of the main causes of hip pain after an automobile collision and requires immediate medical attention.
Tendonitis
Tendonitis is a type of injury that affects soft tissues like tendons and ligaments, as opposed to bone and muscle.
Tendonitis can result in chronic pain and various discomfort symptoms in and around the hip area if left untreated.
Hip Labral Tear
A hip labral tear is a type of joint damage in which the soft tissue/labrum that covers the hip’s socket gets torn.
The tissue ensures that the thighbone head moves smoothly within the joint.
Damage to the labrum can lead to severe pain symptoms and affect mobility.
Hip Dislocation
A hip dislocation means the femur ball has popped out of the socket, causing the upper leg bone to slide out of place.
Hip dislocations can cause avascular necrosis, which is the death of bone tissue from a blockage in the blood supply.
Hip Fractures
The hip bones can be broken down into three parts:
Ilium
Pubis
Ischium
A hip fracture, or broken hip, occurs whenever a break, crack, or crush happens to any one of these parts of the hip.
Acetabular Fracture
An acetabular fracture is a break or a crack outside the hip socket that holds the hip and thigh bones together.
A fracture to this body part is not as common because of the location.
Significant force and impact are often necessary to cause this type of fracture.
Symptoms
If any of the following symptoms after a vehicle crash are experienced, it could be a hip injury and should be examined by a medical professional. These include:
Soreness or tenderness at the site of injury.
Bruising.
Swelling.
Difficulty moving the hip/s.
Intense pain when walking.
Limping.
Loss of muscle strength.
Abdominal pain.
Knee pain.
Groin pain.
Treatment and Rehabilitation
A doctor or specialist should always evaluate hip problems and pain symptoms. With the help of a physical examination and diagnostics like X-rays, CT Scans, or an MRI, a physician can diagnose and recommend treatment options. Treatment after a vehicle crash depends on the severity of the damage. For example, hip fractures often require immediate surgery, while other injuries may only necessitate medication, rest, and rehabilitation. Possible treatment plans include:
Rest
Pain, muscle relaxants, and anti-inflammatory medication.
Surgery – after surgery, a physical therapist can help stretch and work on muscles around the hip to gain mobility and flexibility for a complete recovery.
Total hip replacement
Our team collaborates with the necessary specialists to provide the complete care needed to experience full recovery and healing for long-term relief. The team will work together to form a comprehensive treatment plan to strengthen the hip muscles for better support and increased range of motion.
Movement as Medicine
References
Cooper, Joseph, et al. “Hip dislocations and concurrent injuries in motor vehicle collisions.” Injury vol. 49,7 (2018): 1297-1301. doi:10.1016/j.injury.2018.04.023
Fadl, Shaimaa A, and Claire K Sandstrom. “Pattern Recognition: A Mechanism-based Approach to Injury Detection after Motor Vehicle Collisions.” Radiographics: a review publication of the Radiological Society of North America, Inc vol. 39,3 (2019): 857-876. doi:10.1148/rg.2019180063
Frank, C J et al. “Acetabular fractures.” The Nebraska medical journal vol. 80,5 (1995): 118-23.
Masiewicz, Spencer, et al. “Posterior Hip Dislocation.” StatPearls, StatPearls Publishing, 22 April 2023.
Monma, H, and T Sugita. “Is the mechanism of traumatic posterior dislocation of the hip a brake pedal injury rather than a dashboard injury?.” Injury vol. 32,3 (2001): 221-2. doi:10.1016/s0020-1383(00)00183-2
Patel, Vijal, et al. “The association between knee airbag deployment and knee-thigh-hip fracture injury risk in motor vehicle collisions: A matched cohort study.” Accident; Analysis and Prevention vol. 50 (2013): 964-7. doi:10.1016/j.aap.2012.07.023
Automobile accidents and collisions can cause knee and ankle injuries in various ways. Automobile crashes are considered high-energy collisions versus slip and fall traumas which are generally low-energy. However, a 30mph or under-collision can have serious and detrimental effects on the knees and ankles. The sudden forces can cause the knees to collide with the dashboard or push the feet and legs into the body, generating intense pressure and compressing the bones, muscles, and ligaments damaging soft tissues and bone structures from the impact. The Injury Medical Chiropractic and Functional Medicine Clinic Team can rehabilitate, realign, strengthen, and restore function to individuals with minor to severe auto collision injuries.
Knee and Ankle Injuries
Musculoskeletal motor vehicle crash/collision injuries affect the body’s movement. The impact can pull, tear, crush, and smash bones, muscles, tendons, ligaments, discs, and nerves. These injuries restrict the range of motion and can cause pain and sensation symptoms. The National Accident Sampling System reports 33% of injuries sustained during vehicle collisions are to the lower extremities.
Despite the knees and ankles having soft tissues that absorb and distribute the energy’s impact, the forces from the collision often happen instantly and unexpectedly, causing the individual to tense up, which overwhelms the structures.
Even panic stepping on the brake pedal can cause injury to the ankle and foot.
A passenger’s reflex of trying to resist forces can experience foot, ankle, and knee injuries from bracing off the vehicle’s floorboard.
Automobile collisions can cause strains, sprains, fractures, and dislocations.
Torn, Strained, or Sprained Knee
If the foot becomes planted on the floorboard while the body continues to move forward or sideways, the force can travel into the knee, causing twisting or shearing.
Depending on the injury type, the impact strength can damage different ligaments.
The ligaments resist forces that push the knee inwards/medially and outwards/laterally and slightly resist rotational forces.
When any of these ligaments are damaged, swelling, pain, and limited ranges of motion can result.
Putting weight on the affected leg can be difficult.
In some cases, the ligaments tear completely, necessitating surgical repair.
Once the individual can engage in mild activity, they can begin a rehabilitation program to restore function.
Recovery times vary based on the location and severity of the injury.
Fractured Knee or Ankle
When a fracture occurs in a joint, like the knees or ankles, surgical procedures may be necessary to repair the broken bone/s.
Broken bones can result in simultaneous damage and/or inflammation of the connective tissues that can cause the muscles to contract/tighten or atrophy during the recovery and healing phases.
Joints and bones are kept healthy with moderate movement and weight-bearing.
Fractures require immobilization of the affected area.
A physical therapy rehabilitation program can begin when the brace or cast comes off.
Targeted exercises and resistance will strengthen and stretch the joint to improve flexibility and promote healing through improved circulation.
Torn Meniscus
The meniscus is a C-shaped area of cartilage that rests between the thigh and shin bones.
It acts as a shock absorber.
The meniscus can become torn, resulting in pain, stiffness, and loss of motion.
This injury can heal independently with the right rest and therapeutic exercises.
A chiropractic auto collision specialist can diagnose the severity of the tear and provide the recommendations needed to rehabilitate and strengthen the knee.
If the tear is severe enough, surgery may be required.
Strained or Sprained Ankle
Strained tendons and sprained ligaments can result from the ankle being subject to tremendous force.
Strains and sprains vary in severity.
Both indicate that the connective tissue has been damaged or stretched beyond normal limits.
They can present with pain, inflammation, and problems moving the affected area.
With proper medical attention and rehabilitation, recovery is possible.
Torn Achilles Tendon
The Achilles tendon connects the calf muscle to the heel and is necessary for walking, running, physical activity, and bearing weight.
If the tendon gets torn, surgery will be required to reattach the muscle and tendon.
After recovery, the individual can begin physical therapy to work the tendon and muscle, slowly building strength and range of motion.
It is critical to do this with the supervision of an expert in musculoskeletal rehabilitation to avoid re-injury or developing new injuries.
Chiropractic Treatment
Any musculoskeletal motor vehicle injuries can result in intense pain that worsens with activity, inflammation, swelling, redness, and/or heat in the affected area. This is why correctly diagnosing the injury is essential if the condition is to be properly and thoroughly treated. A physical examination will vary based on the individual’s state and can include:
Strength assessment
Range of motion
Reflexes
Other variables to determine the underlying issues.
Diagnostic imaging such as X-rays, MRIs, and CT scans can help identify and clarify injuries’ extent, nature, and location and rule out problems.
A qualified healthcare professional will combine the data with medical history to develop an accurate diagnosis. Our ability to effectively treat accident individuals is based on applying clinical expertise in musculoskeletal diagnosis and care. Our medical team takes a practical approach to help individuals quickly heal from musculoskeletal injuries using the latest treatments possible. When you meet with one of our professionals, you will feel relaxed and confident that you have come to the right place.
From Injury To Recovery
References
Dischinger, P C et al. “Consequences and costs of lower extremity injuries.” Annual proceedings. Association for the Advancement of Automotive Medicine vol. 48 (2004): 339-53.
Fildes, B et al. “Lower limb injuries to passenger car occupants.” Accident; analysis and prevention vol. 29,6 (1997): 785-91. doi:10.1016/s0001-4575(97)00047-x
Gane, Elise M et al. “The impact of musculoskeletal injuries sustained in road traffic crashes on work-related outcomes: a protocol for a systematic review.” Systematic reviews vol. 7,1 202. 20 Nov. 2018, doi:10.1186/s13643-018-0869-4
Hardin, E C et al. “Foot and ankle forces during an automobile collision: the influence of muscles.” Journal of biomechanics vol. 37,5 (2004): 637-44. doi:10.1016/j.jbiomech.2003.09.030
Li, Wen-Wei, and Cheng-Chang Lu. “Knee deformity following a motor vehicle accident.” Emergency medicine journal: EMJ vol. 38,6 (2021): 449-473. doi:10.1136/emermed-2020-210054
M, Asgari, and Keyvanian Sh S. “Crash Injury Analysis of Knee Joint Considering Pedestrian Safety.” Journal of biomedical physics & Engineering vol. 9,5 569-578. 1 Oct. 2019, doi:10.31661/jbpe.v0i0.424
Torry, Michael R et al. “Relationship of knee shear force and extensor moment on knee translations in females performing drop landings: a biplane fluoroscopy study.” Clinical biomechanics (Bristol, Avon) vol. 26,10 (2011): 1019-24. doi:10.1016/j.clinbiomech.2011.06.010
Automobile accidents are emotionally and physically traumatic events. After an accident, individuals assume that they are okay if they don’t have any broken bones or gashing cuts. However, even minor accidents can lead to significant damage, but the individual doesn’t know it. An invisible/delayed injury is any injury that is not immediately obvious or is not experienced by the individual until hours, days, or weeks later. The most common are soft tissue injuries, back injuries, whiplash, concussions, and internal bleeding. This is why it is imperative to see a doctor or chiropractic accident specialist as soon as possible after an accident.
Invisible Injuries Auto Accidents
The body goes into a fight or flight mode in a vehicle accident. That means a massive adrenaline surge makes anything happening to the body go unnoticed and unfelt. The individual does not feel pain and discomfort symptoms until later or much later.
Soft Tissue
A soft tissue injury affects muscles, tendons, ligaments, and body parts other than bone.
Even at low speeds, accidents, and collisions generate a significant force on the body.
Drivers and passengers often come to a sudden stop along with the vehicle or get thrown around.
This places intense stress on joints and other areas of the body.
Whiplash
The most common invisible soft-tissue injury is whiplash.
Where the neck muscles are suddenly and forcefully thrown forward and then back, causing the muscles and ligaments to stretch beyond their normal range of motion.
The injury typically results in pain, swelling, reduced mobility, and headaches.
Symptoms may not present right away.
Left untreated, whiplash can lead to long-term chronic pain.
Head Injuries
Head injuries are another common invisible injury.
Even if the head did not hit/impact anything, the force and momentum can cause the brain to collide with the inside of the skull.
This can lead to a concussion or even more serious brain injuries.
Concussion
A concussion is a traumatic brain injury. Individuals can have a concussion without losing consciousness, depending on the accident’s severity. Symptoms may be delayed or not experienced, but delayed treatment can lead to a longer recovery. Symptoms can include:
Fatigue.
Headache.
Confusion.
Inability to remember the accident.
Nausea.
Ringing in the ears.
Dizziness.
Back Muscles or Spine Injuries
Back muscles and spinal cord injuries are invisible injuries that can happen after an automobile accident. Signs of a back injury include:
The back muscles can be strained due to the impact and tension build-up.
Sore muscles or pain may not present until a day or two later.
Body stiffness.
Reduced mobility.
Muscle spasms.
Trouble walking, standing, or sitting.
Headaches.
Numbness and tingling.
Injuries to the spine, even serious ones, may not be apparent immediately.
The impact can cause the spine to shift out of alignment profoundly.
Swelling and bleeding in or around the spinal cord can cause numbness or paralysis that can gradually progress.
This invisible injury can have long-term consequences, including paralysis.
Chiropractic Care
Chiropractic is an effective treatment for neuromusculoskeletal injuries. The chiropractor will assess the damage and its severity to determine the best treatment for the individual. It relieves pain and discomfort symptoms, loosens and relaxes the muscles, and restores alignment, mobility, and a full range of motion. Chiropractic uses several tools and techniques to restore the spine and body balance. Results include:
Barach, P, and E Richter. “Injury prevention.” The New England Journal of Medicine vol. 338,2 (1998): 132-3; author reply 133. doi:10.1056/NEJM199801083380215
Binder, Allan I. “Neck pain.” BMJ clinical evidence vol. 2008 1103. 4 Aug. 2008
Duncan, G J, and R Meals. “One hundred years of automobile-induced orthopedic injuries.” Orthopedics vol. 18,2 (1995): 165-70. doi:10.3928/0147-7447-19950201-15
“Motor Vehicle Safety.” Annals of emergency medicine vol. 68,1 (2016): 146-7. doi:10.1016/j.annemergmed.2016.04.045
Sims, J K et al. “Automobile accident occupant injuries.” JACEP vol. 5,10 (1976): 796-808. doi:10.1016/s0361-1124(76)80313-9
Vassiliou, Timon, et al. “Physical therapy and active exercises–an adequate treatment for prevention of late whiplash syndrome? Randomized controlled trial in 200 patients.” Pain vol. 124,1-2 (2006): 69-76. doi:10.1016/j.pain.2006.03.017
Dislocations impact the joint and are injuries that force/knock the bones out of position. Dislocations can be caused by a motor vehicle collision, falls, sports trauma, or weakened muscles and tendons. However, less impact/force is needed to dislocate smaller joints. Dislocations commonly occur at the shoulders, ankles, knees, hips, elbows, fingers and toes, and the jaw. The experience causes swelling, inability to move, and pain. A joint dislocation chiropractor can manipulate, reset, rehabilitate and strengthen the affected area and rebalance the body.
Joint Dislocation
The region where two or more bones come together is a joint. Each has a primary function, but their functions overlap. The joints allow the bones to move/articulate the skeletal system. Maintaining the body’s balance requires mobility and stability.
Mobility is the ability to move the body without restriction.
Stability is maintaining equilibrium, healthy posture, and support during movement.
The stable joints do not dislocate easily because their structures are not as flexible.
Mobile joints are at an increased risk, as they can move in almost any direction.
The kinetic chain is a sequence of joints forming an alternating pattern of stability and mobility that create a solid platform for dynamic movement. However, any joint can become dislocated, causing the affected area to become unsteady or immobile, strain or tear the surrounding muscles, nerves, and tendons which are the tissues that connect the bones to a joint.
A joint can be partially dislocated/subluxation or fully dislocated.
Joints dislocated previously have an increased risk of re-dislocating because the surrounding tissues that hold the joint have been torn or overly stretched.
Symptoms
Symptoms vary depending on the severity and location of the injury. Common symptoms include:
Instability
Loss of ability to move
Swelling
Bruising
Pain
Visible deformation
Increased Risk
Various factors can lead to joint dislocation, including:
Weakness of the supporting ligaments and muscles from natural wear and tear/age or lack of physical conditioning.
Older individuals with poor balance are more vulnerable to falls that can knock joints out of place.
Young children developing have more elastic supporting ligaments and are prone to falls, collisions, and other injuries.
Previous dislocations with overstretched or torn supporting tissues.
Repeated dislocations are likely to follow the shoulder, knee, and hip.
Physical activities like extreme sports, contact sports, or sports that involve quick body shifts, twists, and turns on the feet.
Physically demanding job.
Operating heavy machinery/equipment.
Joint hypermobility is common in children and around 5% of adults. It can be caused by weak or loose ligaments, weak or loose muscles, and/or shallow joint sockets.
Joint Dislocation Chiropractic
Treatment will vary based on the severity of the injury and the dislocated joint. Depending on the location and severity, a chiropractor will perform different movements/manipulations to realign the joint and strengthen the area.
Significant force could be necessary to pull the bones apart to realign them back into their proper position.
The joint may need to be pulled out and rotated slightly before being put back.
The focus is on increasing ligament strength.
Once the joint is back in place, it may need to remain immobile, possibly using a sling or splint to help fully heal the injury.
Physical therapy exercises will be recommended to strengthen the muscles and ligaments around the joint to support it optimally.
Shoulder Pain Chiropractic
References
Dizdarevic, Ismar, et al. “Epidemiology of Elbow Dislocations in High School Athletes.” The American journal of sports medicine vol. 44,1 (2016): 202-8. doi:10.1177/0363546515610527
Hodge, Duncan K, and Marc R Safran. “Sideline management of common dislocations.” Current sports medicine reports vol. 1,3 (2002): 149-55. doi:10.1249/00149619-200206000-00005
Prechel, Ulla et al. “The Treatment of Temporomandibular Joint Dislocation.” Deutsches Arzteblatt international vol. 115,5 (2018): 59-64. doi:10.3238/arztebl.2018.0059
Skelley, Nathan W et al. “In-game Management of Common Joint Dislocations.” Sports health vol. 6,3 (2014): 246-55. doi:10.1177/1941738113499721
Energy Boosting Foods: Nutritionists, dieticians, and health coaches are constantly asked which foods help maintain energy, alertness, and focus throughout the day. The first thing to know is that all foods provide energy in the form of calories, but not all foods affect energy levels the same way. There are three macronutrients, carbohydrates, fat, and protein. However, carbohydrates are a rapid energy source compared to proteins and fats and are the body’s preferred energy. Here are a few foods for steady, consistent energy levels to include in a meal plan.
Energy Boosting Foods
Properly planned meals can keep the body fueled for up to four hours, and it is recommended to eat every four hours to keep a steady flow of energy. The objective is to maintain balanced blood sugar levels and eat foods with low glycemic index carbohydrates combined with protein and healthy fats. Unhealthy foods for energy are high-sugar foods that cause blood sugar levels to spike, triggering a heavy insulin release, which triggers plunging blood sugar levels, also known as a sugar crash.
Avocados
Avocados are rich in healthy fats, fiber, and B vitamins.
The fat in avocados promotes healthy blood-fat levels and increases the absorption of nutrients.
Around 80% of the carbohydrate content is made up of fiber, which means sustained energy.
Bananas
One of the best energy-boosting foods that can be eaten on its own, frozen and blended into a smoothie or mixed into oatmeal.
Bananas contain complex carbohydrates, vitamin B6, potassium, and some protein.
Beans
It can be pinto, great northern, red, black, Anasazi beans, or other varieties as they have similar nutrient profiles.
They digest slowly, which stabilizes blood sugar.
They contain antioxidants, carbohydrates, fiber, protein, folic acid, iron, and
Magnesium helps produce energy and delivers it to the body’s cells.
Cashews
Cashews are low in sugar, rich in fiber,
They contain heart-healthy fats and plant protein.
They are a reliable source of copper, magnesium, and manganese, critical for energy production, healthy bones, brain health, and immunity.
Eggs
Eggs are packed with protein and rich in B vitamins, which help enzymes turn food into energy generating steady energy.
They contain leucine, an amino acid that stimulates energy production by helping cells to:
Take in more blood sugar.
Stimulates energy production in the cells.
Break down fat to produce energy.
Oatmeal
The complex carbs in oatmeal generate a steady source of slow-burning energy.
Oats boost serotonin production, which helps:
Manage stress.
Enhances learning.
Memory function.
Oast can be made with raisins, berries, bananas, and healthy maple syrup or honey for a healthy meal.
Yogurt
Yogurt contains lactose and galactose that breaks down to provide ready-to-use energy.
Top with oats, fruits, berries, and some honey or maple syrup.
Shrimp
Shrimp are low in calories and provide vitamin B12 and omega-3 fat, which helps with:
Mood
Energy
Sweet potatoes
Sweet potatoes are recommended for energy production because of their iron, magnesium, and vitamin C nutrients.
The food we eat significantly impacts the body’s health and wellness, along with exercise, proper hydration, and healthy sleep are essential in sustaining high energy levels. Avoiding highly processed and sugary foods will help prevent mental and body fatigue. Consult a licensed nutritionist to learn about personalized diet and nutrition plans.
Natural Energy
References
Atkinson, Fiona S et al. “International tables of glycemic index and glycemic load values 2021: a systematic review.” The American journal of clinical nutrition vol. 114,5 (2021): 1625-1632. doi:10.1093/ajcn/nqab233
Evans J, Richards JR, Battisti AS. Caffeine. [Updated 2022 May 1]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2022 Jan-. Available from: www.ncbi.nlm.nih.gov/books/NBK519490/
Holesh, Julie E., et al. “Physiology, Carbohydrates.” StatPearls, StatPearls Publishing, 26 July 2021.
Melaku, Yohannes Adama, et al. “Association between Macronutrient Intake and Excessive Daytime Sleepiness: An Iso-Caloric Substitution Analysis from the North West Adelaide Health Study.” Nutrients vol. 11,10 2374. 5 Oct. 2019, doi:10.3390/nu11102374
Osilla EV, Safadi AO, Sharma S. Calories. [Updated 2021 Sep 15]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2022 Jan-. Available from: www.ncbi.nlm.nih.gov/books/NBK499909/
T-bone accidents/collisions, also known as side-impact or broadside collisions where the front end of one car slams into the side of another, can result in severe injuries and tend to have a more devastating effect on the body. Side impact collisions account for 24% of driver or passenger deaths; even at 30 mph, side-impacts regularly cause injuries to the occupants of the struck car. Modern vehicles have many safety features, including safety belt features, airbags, and collision avoidance systems that protect drivers and passengers from front and rear collisions; however, when it comes to side-impact, occupants tend to remain unprotected.
T-Bone Side Collision Causes
T-bone accidents usually happen at intersections. Usual Causes of T-bone accidents involve someone failing to yield the right of way. The most common causes include:
A driver makes a risky left turn at an intersection, believing the other car/s will stop.
A driver decides to run a red light crashing into a vehicle making a left turn.
A driver runs through a stop sign, slams into a vehicle, or gets slammed.
Back injuries can damage the spinal cord causing herniated discs, sciatica, and chronic pain that can radiate to the rest of the body.
Treatment and Recovery
Individuals have different recovery times and depend on the severity of the injury and on any pre-existing conditions. Brain injuries and spinal issues can take months to recover fully. Fractures placed in a hard or soft cast to heal for weeks or months can lead to muscle atrophy. Chiropractic therapeutic massage and decompression strengthens muscle weakness, resets and realigns the spinal column, improves range of motion/movement, strengthens grip, and relieves pain.
Neurosurgeon Explains DRX9000
References
Gierczycka, Donata, and Duane Cronin. “Importance of impact boundary conditions and pre-crash arm position for the prediction of thoracic response to pendulum, side sled, and near side vehicle impacts.” Computer methods in biomechanics and biomedical engineering vol. 24,14 (2021): 1531-1544. doi:10.1080/10255842.2021.1900132
Hu, JunMei, et al. “Chronic widespread pain after motor vehicle collision typically occurs through immediate development and nonrecovery: results of an emergency department-based cohort study.” Pain vol. 157,2 (2016): 438-444. doi:10.1097/j.pain.0000000000000388
Lidbe, Abhay, et al. “Do NHTSA vehicle safety ratings affect side impact crash outcomes?.” Journal of safety research vol. 73 (2020): 1-7. doi:10.1016/j.jsr.2020.02.001
Mikhail, J N. “Side impact motor vehicular crashes: patterns of injury.” International journal of trauma nursing vol. 1,3 (1995): 64-9. doi:10.1016/s1075-4210(05)80041-0
Shaw, Greg et al. “Side impact PMHS thoracic response with a large-volume airbag.” Traffic injury prevention vol. 15,1 (2014): 40-7. doi:10.1080/15389588.2013.792109
When the body goes through intense trauma like a car, truck, crash, or accident, the trauma can slip, bulge, herniate, or rupture the spinal fluid-filled discs that can extrude from the disc space, causing the nucleus pulposusto tear through the annulus fibrosus and compress the nerve roots causing pain. Depending on the severity and force of the crash or accident, a herniated disc can cause the vertebrae to push into the spinal canal, where it can compress, irritate, and/or injure the spinal cord, which can lead to other health issues. Nerve impingement from a herniated disc can also cause numbness and tingling in the hands, arms, legs, and feet. A chiropractic spine disc herniation decompression treatment plan can heal the herniation, realign the spine, stretch the muscles and joints, and rehabilitate the body back to top form.
Spine Disc Herniation
Symptoms of Herniation
Signs and symptoms depend on the spinal area and whether the disc is rubbing or compressing a nerve. Pain is often described as a sharp or burning sensation. A herniated disc usually affects one side of the body.
Pain Presents When Sitting Down – sitting causes a significant strain on the lower spinal discs. When sitting, the pain experienced can worsen.
Arm or leg pain – Depending on the herniated disc, pain can spread to other surrounding areas.
For a lower herniation, this could be the buttock, thigh, calf, and foot.
For a herniated disc in the neck region, pain can be felt in the shoulder and arm.
Pain can present in the arm or leg when coughing, sneezing, or moving into certain positions.
Numbness or tingling – presents from the compressed nerves and spreads as the average blood/energy flow is disrupted.
Muscle Weakness – the affected nerves that support the spinal muscles can lose normal strength causing awkward postures and fatigue.
A herniated disc can be present without symptoms – individuals won’t know unless spinal imaging is ordered.
Sciatica Sensations – the damaged nerve roots affect the ability to function correctly and can cause burning pain, numbness, weakness, and tingling along the front and/or back of the thigh, leg, and/or foot. This can result from direct compression or chemical irritation from a leaked out herniated disc that causes inflammation around the nerve root area.
Chiropractic Injury Care
When a disc herniates, it inhibits the body from communicating and healing itself. To activate proper communication from the brain to the rest of the body, chiropractors perform spine disc herniation decompression which clears the neural system and opens the lines of communication.
Spine Disc Herniation Decompression
Nonsurgical spinal decompression gently stretches the spine to relieve pressure and heal the herniated disc. It is a safe procedure considered a natural alternative compared to surgery or pharmaceutical approaches. Spinal decompression therapy:
It is safe for all ages
It is non-invasive
Sessions take between 30 to 45 minutes, depending on the individual and the injury that could require multiple sessions.
Offers a quicker recovery time
It is performed on a computer-controlled table customized to the individual’s specific needs and injuries.
A treatment plan can expedite the recovery process, rehabilitate and strengthen the whole body, and help avoid minimally invasive spine surgery.
Neurosurgeon DRX9000
References
Atlas, Steven J et al. “The impact of disability compensation on long-term treatment outcomes of patients with sciatica due to a lumbar disc herniation.” Spine vol. 31,26 (2006): 3061-9. doi:10.1097/01.brs.0000250325.87083.8d
Dydyk AM, Ngnitewe Massa R, Mesfin FB. Disc Herniation. [Updated 2022 Jan 18]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2022 Jan-. Available from: www.ncbi.nlm.nih.gov/books/NBK441822/
Gane, Elise M et al. “The Impact of Musculoskeletal Injuries Sustained in Road Traffic Crashes on Work-Related Outcomes: A Systematic Review.” International journal of environmental research and public health vol. 18,21 11504. 1 Nov. 2021, doi:10.3390/ijerph182111504
Scuderi, Gaetano J et al. “Symptomatic cervical disc herniation following a motor vehicle collision: return to work comparative study of workers’ compensation versus personal injury insurance status.” The spine journal: official journal of the North American Spine Society vol. 5,6 (2005): 639-44; discussion 644. doi:10.1016/j.spinee.2005.04.007
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