Introduction to Spinal Cord Injury: Difference between revisions

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* Hippocrates (circa 460–370 BC) describes traction in the treatment of spinal cord injury.
* Hippocrates (circa 460–370 BC) describes traction in the treatment of spinal cord injury.
* Paul of Aegina (AD 625–690) uses a windlass for spine dislocation and suggests laminectomy.
* Paul of Aegina (AD 625–690) uses a windlass for spine dislocation and suggests laminectomy.
* Avicenna (980–1037) defines paralysis following a spine fracture as a fatal injury
* Avicenna (980–1037) defines paralysis following a spine fracture as a fatal injury.


* Roland of Parma (circa 1230) from Salerno used manual extension in the spinal cord injury treatment. He was a pioneer of ''early intervention''
* Roland of Parma (circa 1230) from Salerno used manual extension in the spinal cord injury treatment. He was a pioneer of ''early intervention.''
* Ambroise Paré (1564–1598)proposed laminectomy for the treatment of spinal cord injury
* Ambroise Paré (1564–1598) proposed laminectomy for the treatment of spinal cord injury.
* Astley Cooper (1768–1841) and Charles Bell (1774–1842) wanted to introduce a spinal cord injury treatment in London teaching hospitals. Bell focused on accurate diagnostic procedures. According to Bell, the surgery was dangerous. He was teaching that renal failure was the cause of death following a spinal cord injury.
* Astley Cooper (1768–1841) and Charles Bell (1774–1842) wanted to introduce a spinal cord injury treatment in London teaching hospitals. Bell focused on accurate diagnostic procedures. According to him, the surgery was dangerous. He was teaching that renal failure was the cause of death following a spinal cord injury.
* Henry Cline (1750–1827) first performed laminectomy for the treatment of spinal cord injury.
* Henry Cline (1750–1827) first performed laminectomy for the treatment of spinal cord injury.
* Wilhelm Wagner (1848–1900) in Germany developed the first treatment protocol for spinal cord injuries. Together with Paul Stolper (1865–1906), he co-authored a book on spinal cord injury which included the anatomy, the pathology, the mechanism of injury and the practical treatment.
* Wilhelm Wagner (1848–1900) in Germany developed the first treatment protocol for spinal cord injuries. Together with Paul Stolper (1865–1906), he co-authored a book on spinal cord injury which included the anatomy, the pathology, the mechanism of injury and the practical treatment.
* Theodor Kocher (1841–1917)from Switzerland is known for his research related to the anatomy and physiology of the spinal cord injury
* Theodor Kocher (1841–1917)from Switzerland is known for his research related to the anatomy and physiology of the spinal cord injury.
* First World War: helped to develop the concept of the modern management of spinal injuries due to a high number of casualties with spinal cord injury
* First World War: helped to develop the concept of the modern management of spinal injuries due to a high number of war casualties with spinal cord injury.
* Between the war: custodial care for patients with a spinal cord injury continues in the UK post-war
* Period between the first and the second World War: custodial care for patients with a spinal cord injury continues in the UK post-war.
* Charles Frazier (1870–1936) in the US provided a statistical analysis on the outcomes of the surgery, prognosis, life expectancy, and discharge home and work. A page and a half in his book included information on the physical management of spinal cord injury
* Charles Frazier (1870–1936) in the US provided a statistical analysis on the outcomes of the surgery, prognosis, life expectancy, and discharge home and work. A page and a half in his book included information on the physical management of spinal cord injury.
* George Riddoch (1888–1947) is known for his work on rehabilitation and the pathophysiology of spinal cord injuries.
* George Riddoch (1888–1947) is known for his work on rehabilitation and the pathophysiology of spinal cord injuries.
* Donald Munro (1889–1973) is the father of the treatment of paraplegia.
* Donald Munro (1889–1973) is the father of the treatment of paraplegia.
* Ludwig Guttmann (1899–1980) is considered a founder of the modern treatment of spinal injuries. He formed dedicated spinal cord injury units managing the spine, bladder, bowel, skin, education, and rehabilitation. Conservative management progressed from that of traction, bed rest, and bracing to surgical management and bracing, allowing a shorter time in bed.<ref>Harding M. Introduction to Spinal Cord Injuries. Physiopedia Course 2022.</ref>
* Ludwig Guttmann (1899–1980) is considered a founder of the modern treatment of spinal injuries. He formed dedicated spinal cord injury units managing the spine, bladder, bowel, skin, education, and rehabilitation. Conservative management progressed from traction, bed rest, and bracing to surgical management and bracing, shortening patient's the time on bedrest.<ref name=":0">Harding M. Introduction to Spinal Cord Injuries. Physiopedia Course 2022.</ref>


== Aetiology<ref>Kang Y, Ding H, Zhou HX, Wei ZJ, Liu L, Pan DY, Feng SQ. [https://www.dovepress.com/getfile.php?fileID=39925 Epidemiology of worldwide spinal cord injury: a literature review]. Journal of Neurorestoratology. 2018;6:1-9</ref> ==
== Aetiology ==
The '''causes of spinal cord injury''' include:
The '''traumatic''' '''causes''' of spinal cord injury include:
* falls: falls from height or simple falls)
* falls: falls from height or simple falls
* motor vehicle accidents (MVA's)/motor vehicle crashes
* motor vehicle accidents (MVA's)/motor vehicle crashes
* sports-related accidents
* sports-related accidents
* violence
* violence
* other remaining causes of injury.
* other remaining causes of injury.<ref name=":1">Kang Y, Ding H, Zhou HX, Wei ZJ, Liu L, Pan DY, Feng SQ. [https://www.dovepress.com/getfile.php?fileID=39925 Epidemiology of worldwide spinal cord injury: a literature review]. Journal of Neurorestoratology. 2018;6:1-9</ref>


MVA's and falls are the most common causes of injury accounting for nearly equal percentages. In developed countries, the main cause of SCI used to be MVA's, but recently are falls. In low-income countries, falls are the most common cause of SCI.
MVA's and falls are the most common causes of injury accounting for nearly equal percentages. In developed countries, the main cause of SCI used to be MVA's, but recently are falls. In low-income countries, falls are the most common cause of SCI.<ref name=":1" />
 
The '''non traumatic causes''' of spinal cord injury include:
 
* degenerative
* inflammatory or auto-immune
* neoplasms
* vascular
* infection
* tuberculosis (Sub-Saharan Africa). <ref name=":0" />


'''Patients' demographics'''
'''Patients' demographics'''
Line 48: Line 57:
* Low-income countries:
* Low-income countries:
** male to female ratio: from 1.00:126 to 7.59:1.29
** male to female ratio: from 1.00:126 to 7.59:1.29
** mean age: from 29.532 to 46.033 years
** mean age: from 29.532 to 46.033 years.<ref name=":1" />


'''Level and severity of the injury'''
'''Level and severity of the injury'''
* The most common: the cervical level of spinal cord injury in both developed countries and non-developed countries
* the most common: the cervical level of spinal cord injury in both developed countries and non-developed countries
* lower percentage of complete injury vs incomplete injury
* lower percentage of complete injury vs incomplete injury
* tetraplegia was more common than paraplegia in both developed countries and non-developed countries
* tetraplegia was more common than paraplegia in both developed countries and non-developed countries
* motor-complete injuries (America Spinal Injury Association Impairment Scale [AIS]-A or -B) were more common for patients with traumatic SCI, while there were more motor- incomplete injuries (AIS-C or-D) for patients with non-traumatic  SCI.
* motor-complete injuries (America Spinal Injury Association Impairment Scale [AIS]-A or -B) were more common for patients with traumatic SCI, while there were more motor- incomplete injuries (AIS-C or-D) for patients with non-traumatic  SCI.<ref name=":1" />


== Epidemiology ==
== Epidemiology ==
Developed countries:
* '''Incidence:''' from 13.121to 163.420 per million people
* '''Prevalence''': from 49024 to 52625 per million population
* '''Mortality''': from 3.1% to 22.2%.<ref name=":1" />
Low-income countries:
* '''Incidence''': from 13.019 to 220.022 per million people.
* '''Prevalence''':about 440.026 per million people
* '''Mortality''': 1.4% to 20.0%.<ref name=":1" />
Examples of '''life expectancy''' for a 20-year-old:
* healthy individual: 79.5 years
* individual with incomplete spinal cord injury: 72.9 years
* individual with paraplegia: 65.5 years
* individual with low tetraplegia: 60.7 years
* individual with high tetraplegia (C5 and above): 56.9 years.<ref name=":0" />


== Complications of Spinal Cord Injuries ==
== Complications of Spinal Cord Injuries ==
* Respiratory complications: are the main comorbidities among individuals with cervical and high thoracic injury. It includes pneumonia, atelectasis and other respiratory complications. With higher level of spinal cord injury there is an increase risk of respiratory complications.<ref>Raab A. [https://repository.ubn.ru.nl/bitstream/handle/2066/230416/230416.pdf?sequence=1 Respiratory complications in spinal cord injury and the potential for reduction]. Doctoral dissertation, sn: sl.2021</ref>
* Decubitus ulcers: is defined as a localized injury to the skin and/or the underlying tissue. It usually develops over a bony prominence, as a result of pressure and/or shear.<ref name=":2">Perrouin-Verbe B, Lefevre C, Kieny P, Gross R, Reiss B, Le Fort M. Spinal cord injury: A multisystem physiological impairment/dysfunction. Revue Neurologique. 2021 May 1;177(5):594-605.</ref>
* Contractures: joint contractures leads to pain, deformity, loss of function, decreased levels of independence and lower quality of life. Tetraplegic patients are especially exposed to shoulder and elbow joint contracture.<ref name=":2" />
* Myositis ossificans;
* Autonomic dysreflexia;
* Syringomyelia;
* Urinary tract infections due to repeated or prolonged use of catheters, both indwelling and intermittent catheterisation. There is a high risk of  introducing different types of bacteria to the urinary system which leads to urinary track infections.<ref>Moshi HI, Sundelin GG, Sahlen KG, Sörlin AV. A one-year prospective study on the occurrence of traumatic spinal cord injury and clinical complications during hospitalisation in North-East Tanzania. African health sciences. 2021 Aug 2;21(2):788-94.</ref>
* Pyelonephritis;
* Kidney and bladder stones: there is an increased risk of bladder stone formation and morbidity from the surgeries to remove them in persons with spinal cord injury. This occurs in the first year after SCI, but the natural history of bladder stones among this patient population is poorly defined. <ref>Kasabwala K, Borofsky M, Stoffel JT, Welk B, Myers JB, Lenherr SM, Elliott SP. MP54-16 ASSOCIATION OF URINARY STONES WITH PATIENT-REPORTED COMPLICATIONS IN SPINAL CORD INJURY. The Journal of Urology. 2021 Sep;206(Supplement 3):e955-6.</ref>
* Kidney failure
* Bladder carcinomas;
* Incontinence or constipation: bowel dysfunction in one of the most prevalent secondary complications post spinal cord injury  and improving bowel dysfunction is considered one of the highest priorities among persons with SCI. <ref name=":2" />
* Pain, both nociceptive and neuropathic;
* Spasticity: is a frequent complication after spinal cord injury and it usually occurs a few weeks after acute onset of SCI and may develop over months or years.<ref>Sun WM, Ma CL, Xu J, He JP. [https://journals.sagepub.com/doi/abs/10.1177/03000605211022294 Reduction in post-spinal cord injury spasticity by combination of peripheral nerve grafting and acidic fibroblast growth factor infusion in monkeys.] Journal of International Medical Research. 2021 Jun;49(6):03000605211022294.</ref>
* Postural hypotension;
* Impaired temperature control;
* Depression;
* Osteoporosis
* Sexual dysfunction.


== Classification of Spinal Cord Injuries ==
== Classification of Spinal Cord Injuries ==

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Introduction[edit | edit source]

The spinal cord injury (SCI) results in loss of muscles' abilities to generate power, loss of sensation, and loss of the ability to control the bowel and bladder. Efforts of rehabilitation are concentrated on preventing secondary complications due to mobility loss. The use of state-of-the-art technology allows providing mechanical assistance for patients to relearn walking or moving arms.

The spinal cord injury treatment was first developed by Theodor Kocher (Switzerland) and William Wagner (Germany), but it all started back in classical times.

History of Spinal Cord Injury Rehabilitation[1][edit | edit source]

  • Edwin Smith's surgical papyrus in Egypt about 3000 BC describes paraplegia following injury to the spine.
  • Hippocrates (circa 460–370 BC) describes traction in the treatment of spinal cord injury.
  • Paul of Aegina (AD 625–690) uses a windlass for spine dislocation and suggests laminectomy.
  • Avicenna (980–1037) defines paralysis following a spine fracture as a fatal injury.
  • Roland of Parma (circa 1230) from Salerno used manual extension in the spinal cord injury treatment. He was a pioneer of early intervention.
  • Ambroise Paré (1564–1598) proposed laminectomy for the treatment of spinal cord injury.
  • Astley Cooper (1768–1841) and Charles Bell (1774–1842) wanted to introduce a spinal cord injury treatment in London teaching hospitals. Bell focused on accurate diagnostic procedures. According to him, the surgery was dangerous. He was teaching that renal failure was the cause of death following a spinal cord injury.
  • Henry Cline (1750–1827) first performed laminectomy for the treatment of spinal cord injury.
  • Wilhelm Wagner (1848–1900) in Germany developed the first treatment protocol for spinal cord injuries. Together with Paul Stolper (1865–1906), he co-authored a book on spinal cord injury which included the anatomy, the pathology, the mechanism of injury and the practical treatment.
  • Theodor Kocher (1841–1917)from Switzerland is known for his research related to the anatomy and physiology of the spinal cord injury.
  • First World War: helped to develop the concept of the modern management of spinal injuries due to a high number of war casualties with spinal cord injury.
  • Period between the first and the second World War: custodial care for patients with a spinal cord injury continues in the UK post-war.
  • Charles Frazier (1870–1936) in the US provided a statistical analysis on the outcomes of the surgery, prognosis, life expectancy, and discharge home and work. A page and a half in his book included information on the physical management of spinal cord injury.
  • George Riddoch (1888–1947) is known for his work on rehabilitation and the pathophysiology of spinal cord injuries.
  • Donald Munro (1889–1973) is the father of the treatment of paraplegia.
  • Ludwig Guttmann (1899–1980) is considered a founder of the modern treatment of spinal injuries. He formed dedicated spinal cord injury units managing the spine, bladder, bowel, skin, education, and rehabilitation. Conservative management progressed from traction, bed rest, and bracing to surgical management and bracing, shortening patient's the time on bedrest.[2]

Aetiology[edit | edit source]

The traumatic causes of spinal cord injury include:

  • falls: falls from height or simple falls
  • motor vehicle accidents (MVA's)/motor vehicle crashes
  • sports-related accidents
  • violence
  • other remaining causes of injury.[3]

MVA's and falls are the most common causes of injury accounting for nearly equal percentages. In developed countries, the main cause of SCI used to be MVA's, but recently are falls. In low-income countries, falls are the most common cause of SCI.[3]

The non traumatic causes of spinal cord injury include:

  • degenerative
  • inflammatory or auto-immune
  • neoplasms
  • vascular
  • infection
  • tuberculosis (Sub-Saharan Africa). [2]

Patients' demographics

  • Developed countries:
    • male to female ratio: from 1.10:128 to 6.69:121
    • mean age : from 14.630 to 67.631 years
  • Low-income countries:
    • male to female ratio: from 1.00:126 to 7.59:1.29
    • mean age: from 29.532 to 46.033 years.[3]

Level and severity of the injury

  • the most common: the cervical level of spinal cord injury in both developed countries and non-developed countries
  • lower percentage of complete injury vs incomplete injury
  • tetraplegia was more common than paraplegia in both developed countries and non-developed countries
  • motor-complete injuries (America Spinal Injury Association Impairment Scale [AIS]-A or -B) were more common for patients with traumatic SCI, while there were more motor- incomplete injuries (AIS-C or-D) for patients with non-traumatic SCI.[3]

Epidemiology[edit | edit source]

Developed countries:

  • Incidence: from 13.121to 163.420 per million people
  • Prevalence: from 49024 to 52625 per million population
  • Mortality: from 3.1% to 22.2%.[3]

Low-income countries:

  • Incidence: from 13.019 to 220.022 per million people.
  • Prevalence:about 440.026 per million people
  • Mortality: 1.4% to 20.0%.[3]

Examples of life expectancy for a 20-year-old:

  • healthy individual: 79.5 years
  • individual with incomplete spinal cord injury: 72.9 years
  • individual with paraplegia: 65.5 years
  • individual with low tetraplegia: 60.7 years
  • individual with high tetraplegia (C5 and above): 56.9 years.[2]

Complications of Spinal Cord Injuries[edit | edit source]

  • Respiratory complications: are the main comorbidities among individuals with cervical and high thoracic injury. It includes pneumonia, atelectasis and other respiratory complications. With higher level of spinal cord injury there is an increase risk of respiratory complications.[4]
  • Decubitus ulcers: is defined as a localized injury to the skin and/or the underlying tissue. It usually develops over a bony prominence, as a result of pressure and/or shear.[5]
  • Contractures: joint contractures leads to pain, deformity, loss of function, decreased levels of independence and lower quality of life. Tetraplegic patients are especially exposed to shoulder and elbow joint contracture.[5]
  • Myositis ossificans;
  • Autonomic dysreflexia;
  • Syringomyelia;
  • Urinary tract infections due to repeated or prolonged use of catheters, both indwelling and intermittent catheterisation. There is a high risk of introducing different types of bacteria to the urinary system which leads to urinary track infections.[6]
  • Pyelonephritis;
  • Kidney and bladder stones: there is an increased risk of bladder stone formation and morbidity from the surgeries to remove them in persons with spinal cord injury. This occurs in the first year after SCI, but the natural history of bladder stones among this patient population is poorly defined. [7]
  • Kidney failure
  • Bladder carcinomas;
  • Incontinence or constipation: bowel dysfunction in one of the most prevalent secondary complications post spinal cord injury and improving bowel dysfunction is considered one of the highest priorities among persons with SCI. [5]
  • Pain, both nociceptive and neuropathic;
  • Spasticity: is a frequent complication after spinal cord injury and it usually occurs a few weeks after acute onset of SCI and may develop over months or years.[8]
  • Postural hypotension;
  • Impaired temperature control;
  • Depression;
  • Osteoporosis
  • Sexual dysfunction.

Classification of Spinal Cord Injuries[edit | edit source]

Spinal Cord Injury Syndromes[edit | edit source]

Prognosis and Outcomes[edit | edit source]

Resources[edit | edit source]

or

  1. numbered list
  2. x

References[edit | edit source]

  1. Silver JR. History of the treatment of spinal injuries. Postgraduate medical journal. 2005 Feb 1;81(952):108-14.
  2. 2.0 2.1 2.2 Harding M. Introduction to Spinal Cord Injuries. Physiopedia Course 2022.
  3. 3.0 3.1 3.2 3.3 3.4 3.5 Kang Y, Ding H, Zhou HX, Wei ZJ, Liu L, Pan DY, Feng SQ. Epidemiology of worldwide spinal cord injury: a literature review. Journal of Neurorestoratology. 2018;6:1-9
  4. Raab A. Respiratory complications in spinal cord injury and the potential for reduction. Doctoral dissertation, sn: sl.2021
  5. 5.0 5.1 5.2 Perrouin-Verbe B, Lefevre C, Kieny P, Gross R, Reiss B, Le Fort M. Spinal cord injury: A multisystem physiological impairment/dysfunction. Revue Neurologique. 2021 May 1;177(5):594-605.
  6. Moshi HI, Sundelin GG, Sahlen KG, Sörlin AV. A one-year prospective study on the occurrence of traumatic spinal cord injury and clinical complications during hospitalisation in North-East Tanzania. African health sciences. 2021 Aug 2;21(2):788-94.
  7. Kasabwala K, Borofsky M, Stoffel JT, Welk B, Myers JB, Lenherr SM, Elliott SP. MP54-16 ASSOCIATION OF URINARY STONES WITH PATIENT-REPORTED COMPLICATIONS IN SPINAL CORD INJURY. The Journal of Urology. 2021 Sep;206(Supplement 3):e955-6.
  8. Sun WM, Ma CL, Xu J, He JP. Reduction in post-spinal cord injury spasticity by combination of peripheral nerve grafting and acidic fibroblast growth factor infusion in monkeys. Journal of International Medical Research. 2021 Jun;49(6):03000605211022294.
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