Transverse myelitis

Transverse myelitis (TM) is a rare neurological condition in which the spinal cord is inflamed. Transverse implies that the inflammation extends across the entire width of the spinal cord.[2] Partial transverse myelitis and partial myelitis are terms used to define inflammation of the spinal cord that affects part of the width of the spinal cord.[2] TM is characterized by weakness and numbness of the limbs, deficits in sensation and motor skills, dysfunctional urethral and anal sphincter activities, and dysfunction of the autonomic nervous system that can lead to episodes of high blood pressure. Signs and symptoms vary according to the affected level of the spinal cord. The underlying cause of TM is unknown. The spinal cord inflammation seen in TM has been associated with various infections, immune system disorders, or damage to nerve fibers, by loss of myelin.[2] Decreased electrical conductivity in the nervous system can result.

Transverse myelitis
An MRI scan showing a transverse myelitis lesion, which is lighter, oval shape at center-right. The patient recovered 3 months later.
SpecialtyNeurology
CausesUncertain[1]
Diagnostic methodNeurological exam[1]
TreatmentCorticosteroids[1]

Signs and symptoms

Symptoms include weakness and numbness of the limbs, deficits in sensation and motor skills, dysfunctional urethral and anal sphincter activities, and dysfunction of the autonomic nervous system that can lead to episodes of high blood pressure.[2] Symptoms typically develop over the course of hours to a few weeks.[2][3] Sensory symptoms of TM may include a sensation of pins and needles traveling up from the feet.[2] The degree and type of sensory loss will depend upon the extent of the involvement of the various sensory tracts, but there is often a "sensory level" at the spinal ganglion of the segmental spinal nerve, below which sensation to pain or light touch is impaired. Motor weakness occurs due to involvement of the pyramidal tracts and mainly affects the muscles that flex the legs and extend the arms.[2]

Disturbances in sensory nerves and motor nerves and dysfunction of the autonomic nervous system at the level of the lesion or below, are noted. Therefore, the signs and symptoms depend on the area of spine involved.[4] Back pain can occur at the level of any inflamed segment of the spinal cord.[2]

If the upper cervical segment of the spinal cord is involved, all four limbs may be affected and there is risk of respiratory failure – the phrenic nerve which is formed by the cervical spinal nerves C3, C4, and C5 innervates the main muscle of respiration, the diaphragm.

Lesions of the lower cervical region (C5–T1) will cause a combination of upper and lower motor neuron signs in the upper limbs, and exclusively upper motor neuron signs in the lower limbs. Cervical lesions account for about 20% of cases.[4]

A lesion of the thoracic segment (T1–12) will produce upper motor neuron signs in the lower limbs, presenting as a spastic paraparesis. This is the most common location of the lesion, and therefore most individuals will have weakness of the lower limbs.[5]

A lesion of the lumbar segment, the lower part of the spinal cord (L1S5) often produces a combination of upper and lower motor neuron signs in the lower limbs. Lumbar lesions account for about 10% of cases.[4]

Causes
Borrelia burgdorferi spirochetes cause Lyme disease and are one of many infections associated with transverse myelitis.
Cytomegalovirus

TM is a heterogeneous condition, that is, there are several identified causes. Sometimes the term Transverse myelitis spectrum disorders is used.[6] In 60% of patients the cause is idiopathic.[7]

When it appears as a comorbid condition with neuromyelitis optica (NMO), it is considered to be caused by NMO-IgG autoimmunity, and when it appears in multiple sclerosis cases, it is considered to be produced by the same underlying condition that produces the MS plaques.

Other causes of TM include infections, immune system disorders, and demyelinating diseases.[8] Viral infections known to be associated with TM include HIV, herpes simplex, herpes zoster, cytomegalovirus, and Epstein-Barr.[9] Flavivirus infections such as Zika virus and West Nile virus have also been associated. Viral association of transverse myelitis could result from the infection itself or from the response to it.[8] Bacterial causes associated with TM include mycoplasma pneumoniae, Bartonella henselae, and the types of Borrelia that cause Lyme disease. Lyme disease gives rise to neuroborreliosis which is seen in a small percentage (4 to 5 per cent) of acute transverse myelitis cases.[10] The diarrhea-causing bacteria Campylobacter jejuni is also a reported cause of transverse myelitis.[11]

Other associated causes include the helminth infection schistosomiasis, spinal cord injuries, vascular disorders that impede the blood flow through vessels of the spinal cord, and paraneoplastic syndrome.[8]

Pathophysiology

This progressive loss of the fatty myelin sheath surrounding the nerves in the affected spinal cord occurs for unclear reasons following infections or due to multiple sclerosis. Infections may cause TM through direct tissue damage or by immune-mediated infection-triggered tissue damage.[3] The lesions present are usually inflammatory. Spinal cord involvement is usually central, uniform and symmetric in comparison to multiple sclerosis which typically affects the cord in a patchy way and the lesions are usually peripheral. The lesions in acute TM are mostly limited to the spinal cord with no involvement of other structures in the central nervous system.[3]

Longitudinally extensive transverse myelitis

A proposed special clinical presentation is the "longitudinally extensive transverse myelitis" (LETM), which is defined as a TM with a spinal cord lesion that extends over three or more vertebral segments.[12] The causes of LETM are also heterogeneous[13] and the presence of MOG auto-antibodies has been proposed as a biomarker for discrimination.[14]

Diagnosis
Axial T2 MRI of cervical spine demonstrating normal cord signal (green circle) and increased T2 signal in the central cord (red circle).

Diagnostic criteria

In 2002, the Transverse Myelitis Consortium Working Group proposed the following diagnostic criteria for idiopathic acute transverse myelitis:[15]

Investigations

Individuals who develop TM are typically transferred to a neurologist or neurosurgeon who can urgently investigate the patient in a hospital. If breathing is affected, particularly in upper spinal cord lesions, methods of artificial ventilation must be on hand before and during the transfer procedure. The patient should also be catheterized to test for and, if necessary, drain an over-distended bladder. A lumbar puncture can be performed after the MRI or at the time of CT myelography. Corticosteroids are often given in high doses when symptoms begin with the hope that the degree of inflammation and swelling of the spinal cord will be lessened, but whether this is truly effective is still debated.[1]

Differential diagnosis

The differential diagnosis of acute TM includes demyelinating disorders, such as multiple sclerosis and neuromyelitis optica, infections, such as herpes zoster and herpes simplex virus, and other types of inflammatory disorders, such as systemic lupus erythematosus and neurosarcoidosis. It is important to also rule out an acute cause of compression on the spinal cord.[16]

Treatment

Recovery from TM is variable between individuals and also depends on the underlying cause. Some patients begin to recover between weeks 2 and 12 following onset and may continue to improve for up to two years. Other patients may never show signs of recovery.[17] However, if treated early, some patients experience complete or near complete recovery. Treatment options also vary according to the underlying cause. One treatment option includes plasmapheresis.[18]

Prognosis

The prognosis for TM depends on whether there is improvement in 3 to 6 months. Complete recovery is not likely if no improvement occurs within this time. Incomplete recovery can still occur; however, aggressive physical therapy and rehabilitation will be very important. One-third of people with TM experience full recovery, one-third experience fair recovery but have significant neurological deficits, such as spastic gait. The final third experience no recovery at all.[8]

Epidemiology

The incidence of TM is 4.6 in 1 million, affecting men and women equally. TM can occur at any age, but there are peaks around age 10, age 20, and after age 40.[19]

History
Henry Charlton Bastian

The earliest reports describing the signs and symptoms of transverse myelitis were published in 1882 and 1910 by the English neurologist Henry Bastian.[4][20]

In 1928, Frank Ford noted that in mumps patients who developed acute myelitis, symptoms only emerged after the mumps infection and associated symptoms began to recede. In an article in The Lancet, Ford suggested that acute myelitis could be a post-infection syndrome in most cases (i.e. a result of the body's immune response attacking and damaging the spinal cord) rather than an infectious disease where a virus or some other infectious agent caused paralysis. His suggestion was consistent with reports in 1922 and 1923 of rare instances in which patients developed "post-vaccinal encephalomyelitis" subsequent to receiving the rabies vaccine that constituted of brain tissue carrying the virus. The pathological examination of those who had succumbed to the disease, revealed inflammatory cells and demyelination as opposed to the vascular lesions predicted by Bastian.[21]

Ford's theory of an allergic response being at the root of the disease was later shown to be only partially correct, as some infectious agents such as mycoplasma, measles and rubella[22] were isolated from the spinal fluid of some infected patients, suggesting that direct infection could contribute to the manifestation of acute myelitis in certain cases.

In 1948, Dr. Suchett-Kaye described a patient with rapidly progressing impairment of lower extremity motor function that developed as a complication of pneumonia. In his description, he coined the term transverse myelitis to reflect the band-like thoracic area of altered sensation that patients reported.[4] The term 'acute transverse myelopathy' has since emerged as an acceptable synonym for 'transverse myelitis', and the two terms are currently used interchangeably in the literature.[23]

The definition of transverse myelitis has also evolved over time. Bastian's initial description included few conclusive diagnostic criteria; by the 1980s, basic diagnostic criteria were established, including acutely developing paraparesis combined with bilateral spinal cord dysfunction over a period of <4 weeks and a well-defined upper sensory level, no evidence of spinal cord compression, and a stable, non-progressive course.[24][25] Later definitions, were written in order to exclude patients with underlying systemic or neurological illnesses and to include only those who progressed to maximum deficit in fewer than 4 weeks.[26]

Etymology

The word is from Latin: myelitis transversa and the disorder's name is derived from Greek myelós referring to the "spinal cord", and the suffix -itis, which denotes inflammation.[27]

See also

References
  1. "Transverse myelitis". Genetic and Rare Diseases Information Center (GARD) – an NCATS Program. Retrieved 3 January 2018.
  2. West TW (October 2013). "Transverse myelitis--a review of the presentation, diagnosis, and initial management". Discovery Medicine. 16 (88): 167–77. PMID 24099672.
  3. Awad A, Stüve O (September 2011). "Idiopathic transverse myelitis and neuromyelitis optica: clinical profiles, pathophysiology and therapeutic choices". Current Neuropharmacology. 9 (3): 417–28. doi:10.2174/157015911796557948. PMC 3151596. PMID 22379456.
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  7. "What is Transverse Myelitis (TM)? | Johns Hopkins Transverse Myelitis Center". Retrieved 2018-07-22.
  8. "Transverse Myelitis Fact Sheet". National Institute of Neurological Disorders and Stroke (NINDS). Retrieved 2015-08-06.
  9. Levin SN, Lyons JL (January 2018). "Infections of the Nervous System". The American Journal of Medicine (Review). 131 (1): 25–32. doi:10.1016/j.amjmed.2017.08.020. PMID 28889928.
  10. Blanc, F.; Froelich, S.; Vuillemet, F.; Carré, S.; Baldauf, E.; de Martino, S.; Jaulhac, B.; Maitrot, D.; Tranchant, C.; de Seze, J. (1 November 2007). "Myélite aiguë et neuroborréliose". Revue Neurologique. 163 (11): 1039–1047. doi:10.1016/S0035-3787(07)74176-0. ISSN 0035-3787. PMID 18033042.
  11. Ross AG, Olds GR, Cripps AW, Farrar JJ, McManus DP (May 2013). "Enteropathogens and chronic illness in returning travelers". The New England Journal of Medicine (Review). 368 (19): 1817–25. doi:10.1056/NEJMra1207777. PMID 23656647.
  12. Cuello JP, Romero J, de Ory F, de Andrés C "Longitudinally extensive varicella-zoster virus myelitis in a multiple sclerosis patient, Spine 2013 Sep;38(20):E1282-4. doi: 10.1097/BRS.0b013e31829ecb98, PMID 23759816
  13. Pekcevik Y, Mitchell CH, Mealy MA, Orman G, Lee IH, Newsome SD, et al. (March 2016). "Differentiating neuromyelitis optica from other causes of longitudinally extensive transverse myelitis on spinal magnetic resonance imaging". Multiple Sclerosis (Houndmills, Basingstoke, England). 22 (3): 302–11. doi:10.1177/1352458515591069. PMC 4797654. PMID 26209588.
  14. Cobo-Calvo Á, Sepúlveda M, Bernard-Valnet R, Ruiz A, Brassat D, Martínez-Yélamos S, et al. (March 2016). "Antibodies to myelin oligodendrocyte glycoprotein in aquaporin 4 antibody seronegative longitudinally extensive transverse myelitis: Clinical and prognostic implications". Multiple Sclerosis. 22 (3): 312–9. doi:10.1177/1352458515591071. PMID 26209592.
  15. Transverse Myelitis Consortium Working Group (August 2002). "Proposed diagnostic criteria and nosology of acute transverse myelitis". Neurology. 59 (4): 499–505. doi:10.1212/WNL.59.4.499. PMID 12236201.
  16. Jacob A, Weinshenker BG (February 2008). "An approach to the diagnosis of acute transverse myelitis". Seminars in Neurology. 28 (1): 105–20. doi:10.1055/s-2007-1019132. PMID 18256991.
  17. "Transverse Myelitis Fact Sheet". National Institute of Neurological Disorders and Stroke (NINDS). About one-third of patients do not recover at all: These patients are often wheelchair-bound or bedridden, with marked dependence on others for basic functions of daily living.
  18. Cohen JA, Rudick RA (2011-10-20). Multiple Sclerosis Therapeutics. Cambridge University Press. p. 625. ISBN 978-1-139-50237-5.
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  20. Quain R, ed. (1882). A Dictionary of Medicine: Including General Pathology, General Therapeutics, Hygiene, and the Diseases Peculiar to Women and Children. 2. Longmans, Green, and Company. pp. 1479–1483.
  21. Kerr D. "The History of TM: The Origins of the Name and the Identification of the Disease". The Transverse Myelitis Association. Retrieved 2018-07-22.
  22. Morris MH, Robbins A (1943-09-01). "Acute infectious myelitis following rubella". The Journal of Pediatrics. 23 (3): 365–367. doi:10.1016/S0022-3476(43)80017-2.
  23. Krishnan C, Kaplin AI, Deshpande DM, Pardo CA, Kerr DA (May 2004). "Transverse Myelitis: pathogenesis, diagnosis and treatment". Frontiers in Bioscience. 9 (1–3): 1483–99. doi:10.2741/1351. PMID 14977560.
  24. Berman M, Feldman S, Alter M, Zilber N, Kahana E (August 1981). "Acute transverse myelitis: incidence and etiologic considerations". Neurology. 31 (8): 966–71. doi:10.1212/WNL.31.8.966. PMID 7196523.
  25. Ropper AH, Poskanzer DC (July 1978). "The prognosis of acute and subacute transverse myelopathy based on early signs and symptoms". Annals of Neurology. 4 (1): 51–9. doi:10.1002/ana.410040110. PMID 697326.
  26. Christensen PB, Wermuth L, Hinge HH, Bømers K (May 1990). "Clinical course and long-term prognosis of acute transverse myelopathy". Acta Neurologica Scandinavica. 81 (5): 431–5. doi:10.1111/j.1600-0404.1990.tb00990.x. PMID 2375246.
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Further reading
Classification


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