Overview

A spinal cord injury involves damage to any part of the spinal cord. It also can include damage to nerves at the end of the spinal cord, known as the cauda equina. The spinal cord sends and receives signals between the brain and the rest of the body. A spinal cord injury often causes permanent changes in strength, feeling and other body functions below the site of the injury.

People who have had a spinal cord injury also may experience mental, emotional and social side effects.

Many scientists are optimistic that advances in research will someday make repair of spinal cord injuries possible. Research studies are ongoing around the world. In the meantime, treatments and rehabilitation allow many people with spinal cord injuries to lead productive, independent lives.

Symptoms

The ability to control your arms or legs after a spinal cord injury depends on two factors. One factor is where the injury occurred on the spinal cord. The other factor is how bad the injury is.

The lowest part of the spinal cord not damaged after an injury is known as the neurological level of the injury. "The completeness" of the injury refers to how much feeling, known as sensation, is lost. Completeness is classified as:

  • Complete. If all feeling and all ability to control movement are lost below the spinal cord injury, the injury is called complete.
  • Incomplete. If some feeling and control of movement remain below the affected area, the injury is called incomplete. There are varying degrees of incomplete injury.

Loss of feeling and control of movement is known as paralysis. Paralysis from a spinal cord injury can be referred to as:

  • Tetraplegia, also known as quadriplegia. This means that your arms, hands, trunk, legs and pelvic organs are all affected by your spinal cord injury.
  • Paraplegia. This paralysis affects all or part of the trunk, legs and pelvic organs but not the arms.

Your healthcare team performs a series of tests to determine the neurological level and completeness of your injury.

Spinal cord injuries can cause the following symptoms:

  • Loss of movement.
  • Loss of or a change in sensation. This includes a change in the ability to feel heat, cold and touch.
  • Loss of bowel or bladder control.
  • Exaggerated reflex activities or spasms.
  • Changes in sexual function, sexual sensitivity and fertility.
  • Pain or an intense stinging sensation caused by damage to the nerve fibers in the spinal cord.
  • Trouble breathing, coughing or clearing secretions from the lungs.

Emergency symptoms

Emergency symptoms of a spinal cord injury after an accident include:

  • Extreme back pain or pressure in the neck, head or back.
  • Weakness, incoordination or loss of control in any part of the body.
  • Numbness, tingling or loss of feeling in the hands, fingers, feet or toes.
  • Loss of bladder or bowel control.
  • Trouble with balance and walking.
  • Trouble breathing after injury.
  • A twisted neck or back.

When to see a doctor

Anyone who has an injury to the head or neck needs an immediate medical evaluation. It is safest to assume that the person has a spinal injury until proved otherwise. This is important because:

  • A serious spinal injury is not always immediately obvious. If a spinal injury occurs but it is not known, worse injury may occur.
  • Numbness or paralysis can happen quickly or come on gradually.
  • The time between injury and treatment can be critical. Learning the level of the injury can help determine the possible recovery.

If you suspect that someone has a back or neck injury:

  • Do not move the injured person. Permanent paralysis and other serious complications can result.
  • Call 911 or local emergency medical help.
  • Keep the person still.
  • Place heavy towels on both sides of the neck. Or hold the head and neck to prevent them from moving until emergency medical help arrives.
  • Provide basic first aid, such as stopping bleeding and making the person comfortable, without moving the head or neck.

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Causes

Spinal cord injuries can result from damage to the spinal cord itself or to the bones that surround the spinal cord, known as the vertebrae. Injuries also may happen as a result of damage to the ligaments or disks of the spinal column.

A sudden, traumatic blow to the spine can fracture, dislocate, crush or compress one or more of the vertebrae. A gunshot or knife wound that penetrates and cuts the spinal cord also can cause a spinal cord injury.

Additional damage usually occurs over days or weeks. This is because of bleeding, swelling and fluid accumulation in and around the spinal cord after an injury.

Other causes of a spinal cord injury don't include trauma. Arthritis, cancer, inflammation, infections or disk degeneration of the spine can be possible causes.

Your brain and central nervous system

The central nervous system includes the brain and spinal cord. The spinal cord is made of soft tissue and is surrounded by bones called vertebrae. It extends down from the base of the brain and contains nerve cells and groups of nerves called tracts. The tracts go to different parts of your body.

The lower end of your spinal cord stops a little above your waist in the region called the conus medullaris. Below this region is a group of nerve roots called the cauda equina.

Tracts in your spinal cord carry messages between your brain and the rest of your body. Motor tracts carry signals from your brain to control muscle movement. Sensory tracts carry signals from body parts to your brain relating to heat, cold, pressure, pain, and the position of your arms and legs.

Damage to nerve fibers

Whether the cause is traumatic or nontraumatic, spinal cord damage affects the nerve fibers passing through the injured area. This can impair part of or all the muscles and nerves below the injury site.

An injury to the chest or lower back can affect the trunk, legs, bowel, bladder and sexual function. A neck injury affects the same areas plus movements of the arms and possibly the ability to breathe.

Common causes of spinal cord injuries

The most common causes of spinal cord injuries in the United States are:

  • Motor vehicle accidents. Auto and motorcycle accidents are the leading cause of spinal cord injuries. They account for almost half of new spinal cord injuries each year.
  • Falls. A spinal cord injury after age 65 is most often caused by a fall.
  • Acts of violence. About 12% of spinal cord injuries result from violent encounters, usually from gunshot wounds. Knife wounds also are common.
  • Sports and recreation injuries. Athletic activities, such as impact sports and diving in shallow water, cause about 10% of spinal cord injuries.
  • Diseases. Cancer, arthritis, osteoporosis and inflammation of the spinal cord also can cause spinal cord injuries.

Risk factors

A spinal cord injury usually results from an accident and can happen to anyone. But certain factors can increase the risk of having a spinal cord injury, including:

  • Being male. Spinal cord injuries largely affect men. In fact, women account for only about 20% of traumatic spinal cord injuries in the United States.
  • Being between the ages of 16 and 30. More than half of spinal cord injuries occur in people in this age range.
  • Being 65 and older. Another spike in spinal cord injuries occurs at age 65. Falls cause most injuries in older adults.
  • Alcohol use. Alcohol use is involved in about 25% of traumatic spinal cord injuries.
  • Engaging in risky behavior. Motor vehicle crashes are the leading cause of spinal cord injuries for people under 65. Other risky behaviors include diving into shallow water and playing sports without wearing safety gear or taking proper precautions.
  • Having certain diseases. A minor injury can cause spinal cord damage if you have a condition that affects your joints or bones, such as osteoporosis.

Complications

A spinal cord injury can lead to many complications. Your rehabilitation team helps you develop tools to address these complications. The team also recommends equipment and resources to promote your quality of life and independence. Areas often affected include:

  • Bladder control. The bladder continues to store urine from the kidneys after a spinal cord injury. But the injury may interfere with the brain receiving the messages it needs to control the bladder.

    Changes in bladder control increase the risk of urinary tract infections. The changes also may cause kidney infections and kidney or bladder stones. During rehabilitation, you learn ways to help empty your bladder.

  • Bowel control. The stomach and intestines work much like they did before the injury, but control of bowel movements is often altered. A high-fiber diet might help regulate the bowels. You also can learn ways to help control your bowel.
  • Pressure injuries. Below the neurological level of your injury, you might have lost some or all skin sensations. Therefore, your skin can't send a message to your brain when it's injured by certain things such as prolonged pressure.

    This can increase the risk of getting pressure sores. Changing positions often — with help, if needed — can help prevent the sores. Proper skin care also can help prevent pressure sores.

  • Circulatory control. People with a spinal cord injury may have low blood pressure when they rise, known as orthostatic hypotension. They also may have swelling in the arms and legs. This can increase the risk of developing blood clots, such as deep vein thrombosis or a pulmonary embolus.

    Another issue with circulatory control is a potentially life-threatening rise in blood pressure, known as autonomic dysreflexia. Your rehabilitation team can teach you how to address these issues if they affect you.

  • Respiratory system. If the injury affects the stomach and chest muscles, it may be hard to breathe and cough.

    The neurological level of injury determines what kind of breathing problems you may have. If the injury affects your neck and chest, you might have an increased risk of pneumonia or other lung conditions. Medicines and therapy can be helpful for treatment and prevention.

  • Bone density. A spinal cord injury increases the risk of osteoporosis and fractures below the level of injury.
  • Muscle tone. Some people with spinal cord injuries have a tightening or motion in the muscles, known as spasticity. Other people may have soft and limp muscles lacking muscle tone, known as flaccidity.
  • Fitness and wellness. Weight loss and muscle thinning are common soon after a spinal cord injury. Because limited mobility can lead to a more sedentary lifestyle, there is a risk of weight gain, cardiovascular disease and diabetes.

    A dietitian can help you eat a nutritious diet to sustain a healthy weight. Physical and occupational therapists can help you develop a fitness and exercise program.

  • Sexual health. A spinal cord injury may lead to changes in erection and ejaculation, or in changes in lubrication. Healthcare professionals specializing in urology or fertility can offer options for sexual functioning and fertility.
  • Pain. Some people have pain, such as muscle or joint pain, from overuse of particular muscle groups. Nerve pain can occur after a spinal cord injury, especially in someone with an incomplete injury.
  • Depression. Pain and the changes a spinal cord injury brings can cause depression in some people.

Prevention

Following this advice might reduce your risk of a spinal cord injury:

  • Drive safely. Car crashes are one of the most common causes of spinal cord injuries. Wear a seat belt every time you are in a moving vehicle.

    Make sure that your children wear a seat belt or use an age- and weight-appropriate child safety seat. To protect them from air bag injuries, children under age 12 should always ride in the back seat.

  • Check water depth before diving. Don't dive into a pool unless it's at least 9 feet (about 2.74 meters) deep and clearly marked safe for diving. Competition diving requires a deeper depth. And don't dive into an aboveground pool or into water if you don't know how deep it is.
  • Prevent falls. Use a step stool with a grab bar to reach high-up objects. Add handrails along stairways. Put nonslip mats on tile floors and in the tub or shower. For young children, use safety gates to block stairs and consider installing window guards.
  • Take precautions when playing sports. Always wear recommended safety gear. Avoid leading with your head in sports. For example, don't slide headfirst in baseball. In American football, don't tackle using the top of your helmet. Use a spotter for new moves in gymnastics.
  • Don't drink and drive. Don't drive after drinking alcohol or while under the influence of drugs. Don't ride with a driver who has been drinking.

Spinal cord injury care at Mayo Clinic

Oct. 12, 2023
  1. Spinal cord injury: Hope through research. National Institute of Neurological Disorders and Stroke. https://www.ninds.nih.gov/Disorders/Patient-Caregiver-Education/Hope-Through-Research/Spinal-Cord-Injury-Hope-Through-Research. Accessed July 10, 2021.
  2. Hansebout RR, et al. Acute traumatic spinal cord injury. https://www.uptodate.com/contents/search. Accessed July 10, 2021.
  3. Spinal cord injury. American Association of Neurological Surgeons. https://www.aans.org/Patients/Neurosurgical-Conditions-and-Treatments/Spinal-Cord-Injury. Accessed July 10, 2021.
  4. Jankovic J, et al., eds. Spinal cord trauma. In: Bradley and Daroff's Neurology in Clinical Practice. 8th ed. Elsevier; 2022. https://www.clinicalkey.com. Accessed July 20, 2021.
  5. AskMayoExpert. Spinal cord injury. Mayo Clinic; 2021.
  6. Abrams GM, et al. Chronic complications of spinal cord injury and disease. https://www.uptodate.com/contents/search. Accessed July 31, 2023.
  7. Shibata T, et al. A review of treatment methods focusing on human induced pluripotent stem cell-derived neural stem/progenitor cell transplantation for chronic spinal cord injury. Medicina. 2023; doi:10.3390/medicina59071235.
  8. Spinal trauma. Merck Manual Professional Version. http://www.merckmanuals.com/professional/injuries-poisoning/spinal-trauma/spinal-trauma. Accessed June 10, 2021.
  9. Wang R, et al. Pharmacological interventions targeting the microcirculation following traumatic spinal cord injury. Neural Regeneration Research. 2024; doi:10.4103/1673-5374.375304.
  10. Devlin VJ, ed. Spinal cord injury. In: Spine Secrets. 3rd ed. Elsevier; 2021. https://www.clinicalkey.com. Accessed July 25, 2023.
  11. Ami TR. Allscripts EPSi. Mayo Clinic. June 1, 2023.
  12. Ropper AH, et al. Diseases of the spinal cord. In: Adams and Victor's Principles of Neurology. 12th ed. McGraw Hill; 2023. https://accessmedicine.mhmedical.com. Accessed July 31, 2023.
  13. Neck or back injury. American College of Emergency Physicians. https://www.emergencyphysicians.org/article/know-when-to-go/neck-or-back-injury. Accessed July 31, 2023.
  14. Eisen A. Anatomy and localization of spinal cord disorders. https://www.uptodate.com/contents/search. Accessed Aug. 1, 2023.
  15. Keep child passengers safe on the road. Centers for Disease Control and Prevention. https://www.cdc.gov/injury/features/child-passenger-safety/. Accessed Aug. 3, 2023.
  16. Montoto-Meijide R, et al. Mesenchymal stem cell therapy in traumatic spinal cord injury: A systematic review. International Journal of Molecular Sciences. 2023; doi:10.3390/ijms241411719.
  17. Huang XL, et al. Potential benefits of spinal cord stimulation treatment on quality of life for paralyzed patients with spinal cord injury. Tzu Chi Medical Journal. 2022; doi:10.4103/tcmj.tcmj_102_22.
  18. Provider profile. CARF International. https://www.carf.org/providerProfile.aspx?cid=8020. Accessed Aug. 3, 2023.
  19. Eapen BD, et al, eds. Participation/living with spinal cord injury. In: Spinal Cord Injury. Elsevier; 2023. https://www.clinicalkey.com. Accessed Aug. 4, 2023.
  20. Laskowski ER (expert opinion). Mayo Clinic. Aug. 9, 2023.
  21. Swimming safely in lakes, rivers and streams. American Red Cross. https://www.redcross.org/get-help/how-to-prepare-for-emergencies/types-of-emergencies/water-safety/lake-river-safety.html. Accessed Aug. 10, 2023.
  22. Houlihan N, et al. Pediatric diving-related injuries in swimming pools presenting to US emergency departments: 2008-2020. Pediatric Emergency Care. 2023; doi:10.1097/PEC.0000000000003007.
  23. Adjusting to life after spinal cord injury. Model Systems Knowledge Translation Center. https://msktc.org/sci/factsheets/adjusting-life-after-spinal-cord-injury. Accessed Aug. 10, 2023.
  24. Rocchi MA, et al. Identifying the outcomes of participating in peer mentorship for adults living with spinal cord injury: A qualitative meta-synthesis. Psychology & Health. 2022; doi:10.1080/08870446.2021.1890729.
  25. McLeod J, et al. Community peer support among individuals living with spinal cord injury. Journal of Health Psychology. 2023; doi:10.1177/13591053231159483.
  26. Jones K, et al. Spirituality, hope, and resilience in the recovery and adaptation process following spinal cord injury. Cellular, Molecular, Physiological, and Behavioral Aspects of Spinal Cord Injury. 2022; doi:10.1016/B978-1-12-822427-4.00038-1.