Whenever stepping out onto a playing field or gym, there is a risk of suffering sports back injuries. Back pulls, strain and sprain injuries are the most common. Low back pain is one of the most prevalent complaints at all levels of competition. 90% of these acute back injuries will heal on their own, usually in about three months. However, sometimes these injuries can be more severe and require professional medical care. Treatment options for different groups of athletes include nonsurgical motorized spinal decompression.
Sports Back Injuries
Injury mechanisms vary from sport to sport, but there are recommendations regarding spinal decompression treatment for these injuries and return to play. Chiropractic healthcare specialists understand the sport-specific injury patterns and treatment guidelines for athletes following a back injury. Spinal decompression treatments are beneficial and result in higher rates of return to play depending on the specific sport of the injured athlete. A chiropractor will create a personalized spinal decompression treatment plan for the sport-specific context to meet the athlete’s short and long-term needs.
An estimated 10–15% of athletes will experience low back pain.
All types of sports place increased stress on the lumbar spine through physically demanding and repetitive movements/motions.
The repetitive shifting, bending, twisting, jumping, flexion, extension, and spinal axial loadingmotions contribute to low back pain even though the athletes are in top shape with increased strength and flexibility.
Injury patterns demonstrate the increased stresses that athletes place on the lumbar spine.
Common Spine Sports Injuries
Cervical Neck Injuries
Stingers are a type of neck injury.
A stinger is also known as a burner is an injury that happens when the head or neck gets hit to one side, causing the shoulder to be pulled in the opposite direction.
These injuries manifest as numbness or tingling in the shoulder from stretching or compressing the cervical nerve roots.
Lumbar Lower Back Sprains and Strains
When trying to lift too much weight or using an improper lifting technique when working out with weights.
Fast running, quick stopping, and shifting can cause the low back and hip muscles to get overly pulled/stretched.
Staying low to the ground and springing/jumping up can cause abnormal stretching or tearing of the muscle fibers.
Fractures and Injuries to the Supporting Spinal Structures
In sports that involve repetitive extension movements, spinal stress fractures are relatively common.
Excessive and repeated strain to the spinal column area leads to low back pain and injury.
Nonsurgical Spinal Decompression
Nonsurgical spinal decompression is motorized traction that is used to relieve compression pressure, restore spinal disc height, and relieve back pain.
Spinal decompression works to gently stretch the spine changing the force and position of the spine.
The gel-like cushions between the vertebrae are pulled to open up the spacing taking pressure off nerves and other structures.
This allows bulging or herniated discs to return to their normal position and promotes optimal circulation of blood, water, oxygen, and nutrient-rich fluids into the discs to heal, as well as, injured or diseased spinal nerve roots.
DRX 9000 Decompression
References
Ball, Jacob R et al. “Lumbar Spine Injuries in Sports: Review of the Literature and Current Treatment Recommendations.” Sports medicine – open vol. 5,1 26. 24 Jun. 2019, doi:10.1186/s40798-019-0199-7
Jonasson, Pall et al. “Prevalence of joint-related pain in the extremities and spine in five groups of top athletes.” Knee surgery, sports traumatology, arthroscopy: official journal of the ESSKA vol. 19,9 (2011): 1540-6. doi:10.1007/s00167-011-1539-4
Lawrence, James P et al. “Back pain in athletes.” The Journal of the American Academy of Orthopaedic Surgeons vol. 14,13 (2006): 726-35. doi:10.5435/00124635-200612000-00004
Petering, Ryan C, and Charles Webb. “Treatment options for low back pain in athletes.” Sports health vol. 3,6 (2011): 550-5. doi:10.1177/1941738111416446
Sanchez, Anthony R 2nd et al. “Field-side and prehospital management of the spine-injured athlete.” Current sports medicine reports vol. 4,1 (2005): 50-5. doi:10.1097/01.csmr.0000306072.44520.22
Individuals with chronic back and/or leg pain are encouraged to try spinal decompression. Non-surgical spinal decompression is a treatment option therapy that has been proven to be safe, gentle, and successful. This therapy is motorized traction that takes the pressure off the spinal discs and stretches out the spine to its correct position. It is highly effective, comfortable, affordable, and a safe alternative to surgery. At Injury Medical Chiropractic and Functional Medicine Clinic, our spinal decompression team/tables effectively treat:
Neck pain
Chronic back pain
Sciatica
Bulging discs
Herniated discs
Degenerated discs
Whiplash
Try Spinal Decompression
The vertebral bones protect the spinal cord. Everyday wear-and-tear, improper posture and injury can cause parts of the vertebrae to compress the spinal cord’s nerves, leading to pain, numbness, or tingling. Non-surgical spinal decompression therapy is also known as NSSD or SDT/Spinal Decompression Therapy. The goal of the treatment is to restore optimal health to the spine. Pain-causing conditions can be reversed or healed, and discs can be normalized through the decompression process as it encourages spinal repositioning to promote optimal healing.
Decompression Table
The spinal decompression table may consist of a manually operated cable and pulley system or a computerized table segmented by the upper and lower body.
The angle and pressure applied depend on the type of injury and the individual’s needs.
Each procedure is carefully calculated to reposition the spinal discs and disc material to alleviate pain.
How It Works
Spinal decompression is a mechanized version of a chiropractic adjustment. By gently stretching and moving the spine, the vertebrae have proper alignment restored, restoring range of motion, decreasing or eliminating pain, and improving mobility and function.
The individual is strapped to the machine with a harness that helps position the back for optimal decompression.
Depending on the condition and severity, the therapist will choose from a list of decompression programs.
Slowly, the spine is stretched and lengthened, relieving pressure.
The spine’s stretching and repositioning are different from standard physical therapy and manual manipulation treatment.
It is a gradual process to prevent the body from muscle guarding as the natural response to avoid injury.
Treatment Benefits
An examination is required to see if an individual meets the criteria. Non-surgical spinal decompression therapy has been shown to:
Reduce or eliminate pain.
Rehydrate spinal discs.
Reduce disc bulging/herniation.
Improve functional abilities.
Decrease the need for surgery.
DRX9000
References
Apfel, Christian C et al. “Restoration of disk height through non-surgical spinal decompression is associated with decreased discogenic low back pain: a retrospective cohort study.” BMC musculoskeletal disorders vol. 11 155. 8 Jul. 2010, doi:10.1186/1471-2474-11-155
Koçak, Fatmanur Aybala et al. “Comparison of the short-term effects of the conventional motorized traction with non-surgical spinal decompression performed with a DRX9000 device on pain, functionality, depression, and quality of life in patients with low back pain associated with lumbar disc herniation: A single-blind randomized controlled trial.” Turkish Journal of physical medicine and rehabilitation vol. 64,1 17-27. 16 Feb. 2017, doi:10.5606/tftrd.2017.154
Macario, Alex, and Joseph V Pergolizzi. “Systematic literature review of spinal decompression via motorized traction for chronic discogenic low back pain.” Pain practice: the Official Journal of World Institute of Pain vol. 6,3 (2006): 171-8. doi:10.1111/j.1533-2500.2006.00082.x
Any vehicle crash, collision, or accident can cause various injuries, with back pain issues as a primary injury or a side effect from other injuries. Usually, injury symptoms begin right after the collision, but in other cases, individuals may not start experiencing symptoms until hours, days, or even weeks later. This is from the adrenaline that rushes throughout the body during the collision/fight or flight response delaying the injury symptoms. There are reports of individuals who walk away from an accident unscathed but require urgent medical treatment a short while later. Chiropractic care can provide manual and spinal motorized decompression benefits.
Decompression Benefits
Head Injuries
Head injuries occur when drivers and/or passengers hit their heads on the steering wheel, windows, dashboard, metal frame, and sometimes each other.
A head injury is considered a severe condition that can cause concussions, skull fractures, comas, hearing loss, cognitive and memory issues, and vision problems.
A significant head injury can cause extensive and costly medical treatment with the possibility of long-term medical care.
Neck Injuries
Neck injuries are common in vehicle collisions.
The most common is whiplash, with the head and neck-snapping from indirect blunt force, like being rear-ended.
Whiplash can cause significant damage to the ligaments and muscles, like swelling and neck pain, and temporary paralysis of the vocal cords.
Injury patterns of whiplash can differ depending on the speed, force, and overall health of the individual involved.
Back Injuries
Back injuries can range in severity from sprains to significant damage involving the nerves and/or the spinal cord.
If the damage is severe, it can lead to loss of sensation in the body, loss of limb control, or permanent paralysis.
Disc herniation/s can lead to disability, muscle weakness, tingling and numbness in the limbs, and radiating body pain.
Chest and Torso Injuries
Vehicle collision forces can result in severe chest injuries that include broken ribs.
Broken ribs might not sound dangerous by themselves; they can puncture the lungs leading to other injuries and internal bleeding.
The legs, feet, arms, and hands are frequently injured, broken, and sometimes dislocated.
Motorcyclists are also at a higher risk for significant injury that includes:
Multiple fractures, internal injury, head injuries, and severe ligament damage.
Pedestrians struck by a vehicle have an increased risk for a combination of all injuries at once.
Non-Surgical Decompression Benefits
Chiropractors are trained to identify and treat injuries from vehicle collisions.
Non-surgical spinal decompression gently stretches the spine using a motorized traction device to help reposition the spine and remove the pressure.
As the pressure is taken off, the spinal discs regain their natural height, relieving the pressure on the nerves and other spinal structures.
Optimal healing is promoted by an improved circulation of nutrients, water, and oxygen to the injury site.
Decompression helps to strengthen the muscles in the affected area.
It provides positive spinal structural changes.
Improves nervous system function.
Non-surgical decompression is a tool for correcting injuries and relieving pain, allowing optimal health for the individual.
DOC Decompression Table
References
Apfel, Christian C et al. “Restoration of disk height through non-surgical spinal decompression is associated with decreased discogenic low back pain: a retrospective cohort study.” BMC musculoskeletal disorders vol. 11 155. 8 Jul. 2010, doi:10.1186/1471-2474-11-155
Koçak, Fatmanur Aybala et al. “Comparison of the short-term effects of the conventional motorized traction with non-surgical spinal decompression performed with a DRX9000 device on pain, functionality, depression, and quality of life in patients with low back pain associated with lumbar disc herniation: A single-blind randomized controlled trial.” Turkish Journal of physical medicine and rehabilitation vol. 64,1 17-27. 16 Feb. 2017, doi:10.5606/tftrd.2017.154
Macario, Alex, and Joseph V Pergolizzi. “Systematic literature review of spinal decompression via motorized traction for chronic discogenic low back pain.” Pain practice: the Official Journal of World Institute of Pain vol. 6,3 (2006): 171-8. doi:10.1111/j.1533-2500.2006.00082.x
As the body gets older, slouching, little to no physical activity, and regular stretching cause muscle fatigue, weakness, tension, leading to poor posture complications. The complications include:
Posture can be improved along with overall spinal health and a better quality of life through chiropractic treatment. Chiropractic will improve posture through adjustments, postural exercise training and stretching, education on ergonomics, and nutrition to strengthen the body.
Complications Poor Posture
Symptoms
Symptoms vary as they depend on the severity of the case and condition.
Skeletal muscle comprises two types of muscle fiber. They are static or slow-twitch muscles and phasic or fast-twitch muscles. Static muscle fibers are found in the deeper muscle layers. Static fibers burn energy slowly and keep working without tiring. They help the body maintain posture without effort and contribute to balance by sensing the body’s position and transmitting the information to the brain. Phasic muscle fibers are used for movement and activity but can quickly run out of energy. Poor posture causes muscle fatigue because the phasic fibers are used rather than the static fibers to maintain the body’s proper position.
Muscle Strength and Length
Over time, the body constantly needs support from the phasic muscle fibers. This causes the deeper supporting muscles to waste away because they are not being used. Weak, unused muscles begin to tighten, causing a shortening of muscle length that can compact the spine’s bones and cause back complications.
Nervous System Feedback
The deeper layers of muscle sense the body’s position in space and relay this information to the brain. The brain does not receive complete transmission if the phasic muscle fibers take over this function. The brain assumes that the body needs to be propped up/corrected to counteract the poor posture effects, triggering further muscle contraction, adding to the fatigue and pain.
Listening To The Body
The objective is to form a habit of regularly listening to what the body is saying. Make minor adjustments while standing and sitting throughout the day/night. Often what happens is individuals become so immersed in their work, school tasks that they ignore any physical discomfort and push through and forget to change positions/move around to get the muscles moving and the blood pumping. If there is muscle tension or fatigue, don’t just work through the pain; move into another healthy position.
Posture Improvement
Suggestions include:
Try to avoid sitting in soft chairs.
Switch to ergonomic chairs for any activity that requires sitting for long periods.
Use a lumbar roll to support the lower back when sitting in regular chairs or driving.
Remember to reverse the curve; an example could be if leaning over a desk/workstation, stretch the back in the other direction.
As the body ages, it loses muscle mass, known as sarcopenia. Between the ages of 30 and 80, both men and women can lose 30-50 percent of their muscle strength. Decreasing strength can make it a challenge to lead an active lifestyle or have energy levels to complete the daily errands. Individuals can be reluctant to improve fitness levels through resistance workouts believing there is nothing left after years of inactivity. This is not true as anybody can strength train. With the right mindset, and health coaching team, goals can be set to:
Improve body composition
Improve energy levels
Maintain an active lifestyle
References
Creze, Maud et al. “Posture-related stiffness mapping of paraspinal muscles.” Journal of anatomy vol. 234,6 (2019): 787-799. doi:10.1111/joa.12978
Deliagina, Tatiana G et al. “Physiological and circuit mechanisms of postural control.” Current opinion in neurobiology vol. 22,4 (2012): 646-52. doi:10.1016/j.conb.2012.03.002
Korakakis, Vasileios et al. “Physiotherapist perceptions of optimal sitting and standing posture.” Musculoskeletal Science & practice vol. 39 (2019): 24-31. doi:10.1016/j.msksp.2018.11.004
Pollock, A S et al. “What is balance?.” Clinical rehabilitation vol. 14,4 (2000): 402-6. doi:10.1191/0269215500cr342oa
Waters, Thomas R, and Robert B Dick. “Evidence of health risks associated with prolonged standing at work and intervention effectiveness.” Rehabilitation nursing: the official journal of the Association of Rehabilitation Nurses vol. 40,3 (2015): 148-65. doi:10.1002/rnj.166
As individual bodies age, the nerves and muscles begin to degenerate, especially in the lower spinal region. This can cause sciatic pain and muscle weakness. Elderly sciatica is very common as the nerves and muscles have gone through a lot. Bending, lifting, carrying, reaching, twisting, and natural wearing and tearing make the sciatic nerve and surrounding muscles prone to injury. For overweight seniors, the risk of developing sciatica is higher.
Elderly Sciatica
The main reason for elderly sciatica is that as the body ages, the discs/cartilage between the vertebrae/bones in the spine dry out, losing their cushioning ability, which can lead to the bones shifting out of place more easily, rubbing against each other, and compressing nerves. On average, the body loses about 1 centimeter in height every ten years after 40.
Risk Factors
Diabetes
Diabetes affects the entire body.
Not keeping blood sugar in check can cause widespread symptoms that affect the nerves and organs.
Individuals with diabetes have an increased risk of developing sciatica and other nerve-damaging disorders.
Genetics
If spinal conditions are part of family medical history, there is an increased risk of developing sciatica.
With chiropractic, elderly individuals can attain better quality sleep, improved mood, and increased energy levels.
A chiropractic physical therapy team can develop a specialized/customized treatment plan for preventive and palliative care.
Body Composition
Sarcopenia
Sarcopenia affects the elderly population’s mortality, cognitive function, and quality of life. As the elderly population is living longer, preservation of lean mass becomes an integral part of maintaining an individual’s independence. Loss of muscle in the arms and legs is linked to decreased mobility, increased risk of falls, and prolonged hospital stays. Falls and fractures often result in a cycle of muscle deterioration. InBody can help track body composition changes and help to minimize muscle wasting and risk of impaired mobility.
References
Aggarwal, Sameer, and Nityanand. “Calcium and vitamin D in postmenopausal women.” Indian journal of endocrinology and metabolism vol. 17,Suppl 3 (2013): S618-20. doi:10.4103/2230-8210.123549
Dougherty, Paul E et al. “The role of chiropractic care in older adults.” Chiropractic & manual therapies vol. 20,1 3. 21 Feb. 2012, doi:10.1186/2045-709X-20-3
Ferreira, Manuela L, and Andrew McLachlan. “The Challenges of Treating Sciatica Pain in Older Adults.” Drugs & aging vol. 33,11 (2016): 779-785. doi:10.1007/s40266-016-0404-z
Kherad, Mehrsa et al. “Risk factors for low back pain and sciatica in elderly men-the MrOS Sweden study.” Age and aging vol. 46,1 (2017): 64-71. doi:10.1093/ageing/afw152
Pregnant and Chiropractic: Many women experience back/pelvis/leg/feet swelling, soreness, achiness, and pain during pregnancy. A growing belly added weight and changes in connective tissue can cause a variety of musculoskeletal strains and misalignments. Chiropractic care provides health maintenance of the spinal column, discs, nerves, joints, muscles, and bones. It is an art and science of adjusting a misaligned body, reducing stress, and promoting health throughout the body.
Pregnant and Chiropractic
With a primary doctor’s clearance, chiropractic can provide safe adjustments. Chiropractors trained to work with pregnant women utilize techniques that avoid applying pressure on or around the abdomen. Benefits of chiropractic during pregnancy include:
Restores and maintains spinal alignment and balance.
Helps control symptoms of nausea.
Improves energy levels.
Relieves body pain.
Helps reduce labor time and delivery.
Restores pelvic positioning and balance, improving standing, sitting, and walking mechanics.
A chiropractor trained in the needs of pregnant women will also provide exercises and stretches that are safe during pregnancy. A chiropractor will discuss/recommend treatment options, patient concerns, and a complete medical history assessment. They will monitor symptoms to customize treatments to the individual’s specific needs to get the most relief.
Body Composition
Gestational Hypertension
Gestational hypertension develops during pregnancy. It is not preventable and returns to normal levels postpartum. However, there is an increased risk of developing chronic hypertension later if gestational hypertension begins to develop. According to Mayo Clinic, gestational hypertension is diagnosed by the following:
Blood pressure is higher than 140/90 on at least two occasions.
Must be more than four hours apart.
There is no other organ damage present.
References
Gutke, Annelie et al. “Treatments for pregnancy-related lumbopelvic pain: a systematic review of physiotherapy modalities.” Acta Obstetricia et Gynecologica Scandinavica vol. 94,11 (2015): 1156-67. doi:10.1111/aogs.12681
Poděbradská, R et al. “The effect of physiotherapy intervention on the load of the foot and low back pain in pregnancy.” “Vliv fyzioterapeutických postupů na zatížení plosky a bolesti zad v těhotenství.” Ceska gynekologie vol. 84,6 (2019): 450-457.
Schreiner, Lucas et al. “Systematic review of pelvic floor interventions during pregnancy.” International journal of gynecology and obstetrics: the official organ of the International Federation of Gynaecology and Obstetrics vol. 143,1 (2018): 10-18. doi:10.1002/ijgo.12513
For older individuals, experiencing frequent low back pain could turn out to be a sacral fracture. They tend to occur in individuals over the age of 60 often because there has been a degree of bone loss. Sacral fractures tend not to be the first thing doctors think of when low back pain symptoms are presenting. They are often not picked up on X-rays and are either not diagnosed early enough to take steps or not diagnosed at all. However, they are common.
Sacrum
The sacrum is shaped like a triangle and comprises five segments fused into one large bone. It sits at the base of the spine, between the two halves of the pelvis, connecting the spine to the lower half of the body. It stabilizes the body when walking, sitting, or standing. The nerves in the lower spine control the bowels bladder and provide sensation to the region.
The two dimples that can be seen on individuals’ backs are where the sacrum joins the hipbones or the sacroiliac joint.
The point where the low back joins the sacrum can develop discomfort, soreness, and pain.
This area experiences stress from bending, twisting, reaching, lifting, carrying during physical activities or sitting for long periods.
Sacral Fracture
Most sacral fractures result from trauma, like slips, falls, and automobile accidents. Stress fractures that happen without a specific injury are also called insufficiency fractures.
Types of Sacral Fractures
Low-energy fractures usually happen to older individuals with weak bones due to osteoporosis.
An individual trips on something, lands hard on their butt, lifts a heavy object awkwardly, or over-exerts themselves from some physical activity.
Then persistent back or buttock pain begins to present.
The pain is often centered in the lower back, the hips, and butt.
It is more than just back achiness.
The individual goes to the doctor, and X-rays are ordered.
A lot of the time, these fractures are missed on X-rays.
The doctor may diagnose a sprain, but the pain symptoms do not improve.
Sometimes there is no apparent cause for the pain.
It can be misdiagnosed as a lower back compression fracture or urinary tract infection.
High-energy fractures are due to trauma and are more common among the young.
The individual sustains injuries from an auto accident, has fallen from a significant height, or suffers a sports injury.
It results in severe pain.
A woman who has just had a baby and gone through some bone loss because of the pregnancy can experience a sacral stress fracture.
For individuals that have been to a doctor and had an X-ray that reveals no fracture, and there is no improvement after 5 to 7 days, it is recommended to schedule another appointment and ask for a CAT scan or MRI, which is highly effective at finding a sacral fracture.
Treatment
Treatment consists of resting the bone but still being safely active in most cases.
Medication is prescribed for pain relief.
Many individuals have been found to do well with anti-inflammatory medications, topical medications, and lidocaine patches.
Older individuals may be recommended to use a walker during the treatment/healing process.
Depending on the severity, crutches may be recommended.
Engaging in regular exercise is not recommended, but too much bed rest is also not recommended.
Too much rest may not allow the injury to heal correctly, worsen the injury, and/or cause new injuries.
Chiropractic and physical therapy are not recommended to let the sacrum naturally heal.
After the pain subsides, chiropractic and physical therapy can be implemented to maintain agility and flexibility and strengthen the pelvic and core muscles.
In some cases, if the bone does not heal correctly or some other issue, sacroplasty could be recommended. This is a minimally invasive procedure that injects bone cement into the fracture. It offers quick and long-lasting pain relief with a low percentage of complications. It is considered low risk and can be done by an interventional radiologist or spine surgeon.
Prevention
To minimize the risk of a sacral fracture, it is highly recommended to maintain bone strength. This consists of:
Try to keep moving with different exercise stretches, or take a lap around the building.
References
Gibbs, Wende Nocton, and Amish Doshi. “Sacral Fractures and Sacroplasty.” Neuroimaging clinics of North America vol. 29,4 (2019): 515-527. doi:10.1016/j.nic.2019.07.003
Holmes, Michael W R, et al. “Evaluating Abdominal and Lower-Back Muscle Activity While Performing Core Exercises on a Stability Ball and a Dynamic Office Chair.” Human factors vol. 57,7 (2015): 1149-61. doi:10.1177/0018720815593184
Santolini, Emmanuele et al. “Sacral fractures: issues, challenges, solutions.” EFORT open reviews vol. 5,5 299-311. 5 May. 2020, doi:10.1302/2058-5241.5.190064
IFM's Find A Practitioner tool is the largest referral network in Functional Medicine, created to help patients locate Functional Medicine practitioners anywhere in the world. IFM Certified Practitioners are listed first in the search results, given their extensive education in Functional Medicine
