Back injury explained

Back injuries result from damage, wear, or trauma to the bones, muscles, or other tissues of the back. Common back injuries include sprains and strains, herniated discs, and fractured vertebrae.[1] The lumbar spine is often the site of back pain. The area is susceptible because of its flexibility and the amount of body weight it regularly bears.[2] It is estimated that low-back pain may affect as much as 80 to 90 percent of the general population in the United States.[3]

Classification

Soft tissue graded system

Muscle and soft tissue injuries can be classified using a graded system.

AO spine injury classification system

Spinal column or vertebral injuries can be classified using the AO spine injury classification system.[5] The three categories - A, B, and C - are based on the location of damage on the vertebra (either on the anterior or posterior segment) and by the direction of the applied injurious force.

This classification system can be used to classify injury to the cervical, thoracolumbar, and sacral regions of the spinal column.

MSU classification for herniated discs

Herniated discs can be graded based on the size and location of the herniation as seen on an MRI.

Size

The size of the herniation is the extent to which it protrudes into the vertebral foramen. The MSU Classification for herniated discs uses the proximity of the disc to the facet joint when measuring the size of a herniated disc.[7] Using the MSU Classification, a grade of 1, 2 or 3 can be used to describe the size of a herniated disc with 1 being the least severe and 3 being the most severe.

Location

The location of the herniation can also be described using the MSU Classification for herniated discs. This classification describes how far away from mid-line a disc protrusion is using a grade of A, B, or C.

MSU Classification is primarily used for classifying herniated discs in the lumbar spine.

Causes

Many back injuries share similar causes. Strains and sprains to the back muscles can be caused by improper movements while lifting heavy loads, overuse of a muscle, sudden forceful movements, or direct trauma.[8] Herniated discs are associated with age-related degeneration, trauma such as a fall or car accident, and bending or twisting while lifting heavy weights.[9] Common causes of vertebral fractures include trauma from a direct blow, a compression force resulting in improper or excessive axial loading, and hyper-flexion or hyper-extension.[10]

Vertebral fractures in children or elderly individuals can be related to the development or health of their spine. The most common vertebral fracture in children is spondylolysis which can progress to spondylolisthesis.[11] The immature skeleton contains growth plates which have not yet completely ossified into stronger mature bone. Vertebral fractures in elderly individuals are exacerbated by weakening of the skeleton associated with osteoporosis.[12] [13]

Diagnosis

Diagnosis of a back injury begins with a physical examination and thorough medical history by health-care personnel.[14] Some injuries, such as sprains and strains or herniated discs, can be diagnosed in this manner. To confirm these diagnoses, or to rule out other injuries or pathology, imaging of the injured region can be ordered. X-rays are often used to visualize pathology of bones and can be ordered when a vertebral fracture is suspected.[15] CT scans produce higher resolution images when compared to x-rays and can be used to view more subtle fractures which may otherwise go undetected on x-ray.[16] MRI is commonly referred to as the gold standard for visualizing soft tissue and can be used to assist with diagnosing many back injuries, including herniated discs and neurological disorders, bleeding, and edema.[17]

Prevention

Suggestions for preventing various back injuries primarily address the causes of those injuries. The risk for back sprains and strains may be reduced with lifestyle choices, including smoking cessation, limiting alcohol, maintaining a healthy weight, and keeping bones and muscles strong with adequate exercise and a healthy diet. The risk for disc herniations can be reduced by using proper techniques when lifting heavy loads, smoking cessation, and weight loss to reduce the load placed on the spine.[18] Vertebral fractures may be difficult to prevent since common causes are related to accidents or age-related degeneration associated with osteoporosis. Treating osteoporosis with pharmacotherapy, enrolling in a fall prevention program, strengthening muscles and bones with a weight-bearing exercise program, and adopting a nutritional program that promotes bone health are all options to reduce the risk of vertebral fractures associated with osteoporosis.

Treatment

Treatment for back injuries depends on the diagnosis, level of pain, and whether there is loss of function or quality of life.

Conservative

Non-Conservative

Surgery is considered when symptoms persist after attempting conservative treatment. It is estimated 10-20 percent of individuals with low back pain fail to improve with conservative measures.[22]

Epidemiology

Notes and References

  1. https://www.nlm.nih.gov/medlineplus/backinjuries.html "Back injuries"
  2. Shiel, William C. "Lower Back Pain". MedicineNet.com. Jan 22, 2008.
  3. Putz-Anderson, Vern, Thomas Waters, and Arun Garg. (1994). Applications Manual for the Revised NIOSH Lifting Equation. National Institute for Occupational Safety and Health. NIOSH (DHHS) Publication 94–110.
  4. Mueller-Wohlfahrt. Hans-Wilhelm. Haensel. Lutz. Mithoefer. Kai. Ekstrand. Jan. English. Bryan. McNally. Steven. Orchard. John. van Dijk. C Niek. Kerkhoffs. Gino M. April 2013. Terminology and classification of muscle injuries in sport: The Munich consensus statement. British Journal of Sports Medicine. 47. 6. 342–350. 10.1136/bjsports-2012-091448. 0306-3674. 3607100. 23080315.
  5. Reinhold. Maximilian. Audigé. Laurent. Schnake. Klaus John. Bellabarba. Carlo. Dai. Li-Yang. Oner. F. Cumhur. October 2013. AO spine injury classification system: a revision proposal for the thoracic and lumbar spine. European Spine Journal. 22. 10. 2184–2201. 10.1007/s00586-013-2738-0. 0940-6719. 3804719. 23508335.
  6. Web site: AO Spine Classification Systems . AO Spine . AO Foundation . 13 June 2022 . en.
  7. Mysliwiec. Lawrence Walter. Cholewicki. Jacek. Winkelpleck. Michael D.. Eis. Greg P.. July 2010. MSU Classification for herniated lumbar discs on MRI: toward developing objective criteria for surgical selection. European Spine Journal. 19. 7. 1087–1093. 10.1007/s00586-009-1274-4. 0940-6719. 2900017. 20084410.
  8. Web site: Back Muscle Strains and Sprains Cleveland Clinic. Cleveland Clinic. 2017-08-05.
  9. News: Herniated disk - Symptoms and causes. Mayo Clinic. 2017-08-05.
  10. Web site: Spinal column injuries in adults: Definitions, mechanisms, and radiographs. www.uptodate.com. 2017-08-05.
  11. Dizdarevic. Ismar. Bishop. Meghan. Sgromolo. Nicole. Hammoud. Sommer. Atanda. Alfred. November 2015. Approach to the pediatric athlete with back pain: more than just the pars. The Physician and Sportsmedicine. 43. 4. 421–431. 10.1080/00913847.2015.1093668. 2326-3660. 26513167. 205468249.
  12. McCarthy. Jason. August 6, 2017. Diagnosis and Management of Vertebral Compression Fractures. American Family Physician. 94 . 1. 44–50. AAFP. 27386723.
  13. Kendler. D. L.. Bauer. D. C.. Davison. K. S.. Dian. L.. Hanley. D. A.. Harris. S. T.. McClung. M. R.. Miller. P. D.. Schousboe. J. T.. February 2016. Vertebral Fractures: Clinical Importance and Management. The American Journal of Medicine. 129. 2. 221.e1–10. 10.1016/j.amjmed.2015.09.020. 1555-7162. 26524708. free.
  14. Web site: Subacute and chronic low back pain: Nonpharmacologic and pharmacologic treatment. www.uptodate.com. 2017-08-07.
  15. News: X-ray: Imaging test quickly helps diagnosis. Mayo Clinic. 2017-08-06.
  16. Book: Neuroimaging. 2016-07-12. Newnes. 9780702045387.
  17. Li. Yiping. Fredrickson. Vance. Resnick. Daniel K.. June 2015. How Should We Grade Lumbar Disc Herniation and Nerve Root Compression? A Systematic Review. Clinical Orthopaedics and Related Research. 473. 6. 1896–1902. 10.1007/s11999-014-3674-y. 0009-921X. 4418997. 24825130.
  18. Huang. Weimin. Qian. Ying. Zheng. Kai. Yu. Lili. Yu. Xiuchun. January 2016. Is smoking a risk factor for lumbar disc herniation?. European Spine Journal. 25. 1. 168–176. 10.1007/s00586-015-4103-y. 1432-0932. 26160690. 9617696.
  19. Malanga. Gerard A.. Yan. Ning. Stark. Jill. Mechanisms and efficacy of heat and cold therapies for musculoskeletal injury. Postgraduate Medicine. 127. 1. 57–65. 10.1080/00325481.2015.992719. 25526231. 2014. 33746811.
  20. Wong. Jessica J.. Côté. Pierre. Ameis. Arthur. Varatharajan. Sharanya. Varatharajan. Thepikaa. Shearer. Heather M.. Brison. Robert J.. Sutton. Deborah. Randhawa. Kristi. Are non-steroidal anti-inflammatory drugs effective for the management of neck pain and associated disorders, whiplash-associated disorders, or non-specific low back pain? A systematic review of systematic reviews by the Ontario Protocol for Traffic Injury Management (OPTIMa) Collaboration. European Spine Journal. 25. 1. 34–61. 10.1007/s00586-015-3891-4. 25827308. 2015. 31509256.
  21. Chou. Roger. Deyo. Richard. Friedly. Janna. Skelly. Andrea. Hashimoto. Robin. Weimer. Melissa. Fu. Rochelle. Dana. Tracy. Kraegel. Paul. 2017-04-04. Nonpharmacologic Therapies for Low Back Pain: A Systematic Review for an American College of Physicians Clinical Practice Guideline. Annals of Internal Medicine. 166. 7. 493–505. 10.7326/M16-2459. 1539-3704. 28192793. free.
  22. Xinhua. Li. August 6, 2017. Percutaneous endoscopic lumbar discectomy for lumbar disc herniation. Journal of Clinical Neuroscience. 33. 19–27. 10.1016/j.jocn.2016.01.043. 27475315. 40091086.
  23. News: Diskectomy. Mayo Clinic. 2017-08-07.
  24. Pham. Martin H.. Mehta. Vivek A.. Tuchman. Alexander. Hsieh. Patrick C.. 2015. Material Science in Cervical Total Disc Replacement. BioMed Research International. 2015. 10.1155/2015/719123. 2314-6133. 4615218. 26523281. 719123. free.
  25. Zhao. Song. Xu. Chang-Yan. Zhu. Ao-Ran. Ye. Long. Lv. Long-Long. Chen. Long. Huang. Qi. Niu. Feng. June 2017. Comparison of the efficacy and safety of 3 treatments for patients with osteoporotic vertebral compression fractures: A network meta-analysis. Medicine. 96. 26. e7328. 10.1097/MD.0000000000007328. 1536-5964. 5500066. 28658144.
  26. Jordan. Jo. Konstantinou. Kika. O'Dowd. John. 2011-06-28. Herniated lumbar disc. BMJ Clinical Evidence. 2011. 1752-8526. 3275148. 21711958.