Tetraplegia

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Definition/Description
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Tetraplegia is a paralysis caused by an injury of the cervical spinal cord. This can result in a partial or total sensory and motor loss of the four limbs and torso[1]. The injuries that occur above level C4 often result in respiratory deficiency.[2]

Epidemiology /Etiology[edit | edit source]

In the United States there is an estimated incidence of tetraplegia or paraplegia of 230 000 persons a year.[3][4]
Eighty percent of the tetraplegic cases are men and almost 60 percent of the cases arise from traffic accidents. Almost 50 percent of the patients were between 18 and 25 years old at the time of the accident. The most often affected levels are C4 - C7. Half of the patients have physiotherapy, with an average of 3 times a week.[5]

Characteristics/Clinical Presentation[edit | edit source]

Patients with tetraplegia have different clinical presentations, depending on the level of the injury. In general all patients have motor and sensory deficits in arms, trunk and legs.[1]
The spinal cord can be crushed (e.g. due to compressing forces caused by translation of a vertebrae or segment) or thorn (e.g. due to extreme tension caused by an extreme movement of the spine causing trauma of multiple tissues). In case it is thorn, it will likely have a better prognosis. When the spinal cord is crushed the decompression is urgent within 2-3 hours, otherwise the prognosis will worsen.[6]
In case of a high tetraplegic lesion (above C3) it is possible that the patient experiences a locked-in-syndrome. This means that he or she is aware of everything, but there is no communication possible or communication is reduced to vertical eye movements and blinking.[7]

The most common complications are [3] [8] [9]
- respiratory problems such as atelectasis, hypersecretion, brochospasms, pulmonary edema and pneumonia.
- pulmonary thromboembolism and other embolisms (blood clots).
- urinary and pulmonary infections
- pressure sores
- spastic muscles
- loss of bladder and bowel control
- pain

Frankel or ASIA classification: Only grade A is a para- or tetraplegia

Differential Diagnosis[edit | edit source]

There is no differential diagnosis, the ASIA classification excludes other disorders.
We can differentiate between tetraplegia and paraplegia, and between tetraplegia and tetraparese. We speak of tetraparese is the paralysis is not complete.
The difference between tetraplegia and paraplegia lies in the affected levels, we say everything above level Th1 is in the category of tetraplegia. Below C8 until the cauda equina is paraplegia.[10]

Diagnostic Procedures
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An early and accurate diagnosis of lesions of the spine and cervical spinal cord in tetraplegic patients is important. To find out which part of the spine is damaged they could use imagining studies such as computed tomography (CT) and magnetic resonance imaging. Sometimes they use CT or MRI scan with contrast for a more accurate diagnosis. In case of diseases of the spinal cord they do a blood test and/or spinal tap to investigated the blood and/or spinal fluid.[11] [12]

Examination
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The initial assessment of individuals with acute spinal cord injury should include a complete history, physical, and neurologic examination to determine the level of injury as accurately as possible. Physical assessment should include an evaluation of breathing pattern and effectiveness of cough. The most common abnormal breathing pattern is an isolated diaphragmatic breathing with chest wall retraction during inspiration.[8]
The neurologic examination, more specific the motor and sensory examinations, of tetraplegia includes:
- The International Standards for Neurological Classification of Spinal Cord Injury (ISCSCI)
- Electrophysiological measures: stimulated muscle testing, strength-duration (SD) testing, evoked-potential testing, nerve conduction velocity (NCV) testing, and needle and dynamic electromyography (EMG) testing
These motor and sensory examinations could be used for the assessment of muscles strength and sensation.
For the assessment of upper limb in tetraplegia the Sollerman hand function test, Capabilities of the Upper Extremity instrument (CUE), the Motor Capacity Scale and the Tetraplegia Hand Activity Questionnaire are useful instruments. At least one or a battery of several of these tools should be used for the assessment of the hand function and to collect evidence for interventions. [13]

In the systematic review, Julio C. Furlan et al., they collect eight different outcome measures that were used to assess disability in the spinal cord injury population:[14]
- Functional Independence Measure (FIM)
- Spinal Cord Injury Measure
- Walking Index for Spinal Cord Injury (WISCI)
- Quadriplegia Index of Function (QIF)
- Modified Barthel Index (MBI)
- Timed Up & Go (TUG)
- 6-min walk test (6MWT)
- 10-m walk test (10MWT)

Medical Management[edit | edit source]

The medical management of tetraplegia could be the treatment of the cause, an invasive technique might be used to release pressure or attempts can be made to repair damage. Most of these techniques are still in an experimental stage (eg. use of stem cells.[15]
More often the treatment is aimed on the functional recovery. The ability to use the upper limb(s) has an important influence on the independency of the patient (use of a wheelchair, pressure relief manoeuvres, independent transfers, etc. Therefore procedures such as: the transfer of the teres minor motor branch for triceps reinnervation and biceps-to-triceps transfer for elbow extension could give the patient an improvement in function. Most physicians believe these procedures are beneficial but unfortunately they are not often used since the risk/benefit ratio is still unknown. The known literature consist of small case reports.[16]  [17] [18]
Patients that lost their ability to breathe autonomously are ventilated through a tracheotomy and are more likely to get a respiratory infection and/or decease. A better technique is the use of a diaphragm pacing system which electrically stimulates the phrenic nerve to pace the diaphragm. This technique has promising results but more trials are necessary to evaluate the impact on the patients. [19]

Physical Therapy Management
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As mentioned above, the ability to use the upper limbs is considered crucial to regain independence. A review of several studies showed that different training techniques may improve arm and hand functioning after cervical spinal cord injury, with tetraplegia as a consequence. There is some evidence that suggests that task-specific training (with functional electrical stimulation if the grasp function is to weak) is ideal to improve the hand function. Almost all studies showed an improvement in arm and hand function and/or activity level. Therefore a physical therapist should set individual goals for each patient and use a specific (suitable) training program to gain success. [20] [21][1]
If the surgeon and physician decide to use a procedure as mentioned above, the physiotherapist’s task will be to reinforce the muscle and learn the patient to control his muscle individually.

Furthermore the lack of physical activity which is often paired with chronic spinal cord injury should be one of the key points a physical therapist should address. Innovative techniques such as :the use of functional electrical stimulation lower extremities cycling[22] , treadmill gait and electrical stimulation during gait are used to regain/maintain muscle mass in the legs , strengthen the bones and to gain many other benefits from physical activity (cardiovascular) [23][24] Hypotension and orthostatic hypotension is often seen is these patients, a patient should be instructed to get up (form a lying or seated position) gradually and slowly. Circulatory exercises before standing up might be helpful to stimulate the blood flow. Furthermore medication, a special diet (with enough water and salt) and regular exercise therapy should be given to prevent hypotension.

For the respiratory problems that can come with tetraplegia secretion removal techniques, use of expiratory flow devices are recommended and the improvement of various components of cough (Vital capacity, flow rate, maximum respiratory pressures) are recommended. Intermittent positive pressure breathing (IPPB) can be used as a treatment for or to prevent atelectasis.
Studies have shown that inspiratory muscle training with a threshold trainer at low loads increases the strength of the respiratory muscles in quadriplegic patients. The efficacy for quadriplegics has not been proven but it is suggested that this will help the respiration as it does for COPD patients.[25]

Clinical Bottom Line[edit | edit source]

Patients with tetraplegia have different clinical presentations, depending on the level of the injury. An injury of the cervical spinal cord can result in a partial or total sensory and motor loss of the four limbs and torso.[26]. An early and accurate diagnosis of lesions of the spine and cervical spinal cord in tetraplegic patients is important.
The initial assessment of individuals with acute spinal cord injury should include a complete history, physical, and neurologic examination (CT-scan) to determine the level of injury as accurately as possible.
Physical assessment should include an evaluation of breathing pattern and effectiveness of cough.
A physical therapist should set individual goals for each patient and use a specific (suitable) training program to gain success.[27] The lack of physical activity which is often paired with chronic spinal cord injury should be one of the key points a physical therapist should address. In case of respiratory problems the proper treatment (see Physical Therapy Management) should be applied.

Case Sudies[edit | edit source]

Two case reports of cervical spinal cord injury in football (soccer) players P Silva1, S Vaidyanathan1, B N Kumar1, B M Soni1 and P Sett1

https://www.icf-casestudies.org/en/case_studies.php?id=13&cat_id=16&k=0

Recent Related Research (from Pubmed)[edit | edit source]


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References[edit | edit source]

  1. 1.0 1.1 1.2 Annemie I. F. Spooren etal., Outcome of motor training programmes on arm and hand functioning in patients with cervical spinal cord injury according to different levels of the ICF: a systematic review, J Rehabil Med 2009; 41: 497–505 1A
  2. W. Darlene Reid et al. Physiotherapy Secretion Removal Techniques in People With Spinal Cord Injury: A Systematic Review; J Spinal Cord Med. October 2010;33(4):353–370 2A
  3. 3.0 3.1 R Firsching, Moral dilemmas of tetraplegia; the `locked-in' syndrome, the persistent vegetative state and brain death, Spinal Cord (1998) 36, 741 - 743. 5
  4. Cynthia Hamou etal., Pinch and Elbow Extension Restoration in People With Tetraplegia: A Systematic Review of the Literature, JHS, Vol 34A, April 2009 2A
  5. . Enquête 1995 sur le devenir des tétraplégiques par AFIGAP 4
  6. CTR Brugmann, Jean-François Dinant, Coordination Paramedicale.5
  7. R Firsching, Moral dilemmas of tetraplegia; the `locked-in' syndrome, the persistent vegetative state and brain death, Spinal Cord (1998) 36, 741 - 743. 5
  8. 8.0 8.1 Michael Berlly etal., Respiratory Management During the First Five Days After Spinal Cord Injury, The Journal of Spinal Cord Medicine, Volume 30, Number 4, 2007.2A
  9. http://www.brainandspinalcord.org/spinal-cord-injury-types/quadriplegia/index.html
  10. http://www.apparelyzed.com/quadriplegia.html
  11. Kingsley R. Chin, “White Cord Syndrome” of Acute Tetraplegia after Anterior Cervical Decompression and Fusion for Chronic Spinal Cord Compression: A Case Report, Case Reports in Orthopedics Volume 2013, Article ID 697918, 5 pages 3B
  12. DANIEL FARIA DE CAMPOS PINHEIRO et all., Diagnostic value of tomography of the cervical spine in victims of blunt trauma, Rev. Col. Bras. Cir. 2011; 38(5): 299-3032B
  13. MJ Mulcahey et all., Assessment of upper limb in tetraplegia: Considerations in evaluation and outcomes research, Journal of Rehabilitation Research & Development, Volume 44, Number 1, 2007 2C
  14. Julio C. Furlan et all., Assessment of Disability in Patients with Acute Traumatic Spinal Cord Injury: A Systematic Review of the Literature, JOURNAL OF NEUROTRAUMA 28:1413–1430 (August 2011) 2A
  15. Li J, Lepski G;Cell transplantation for spinal cord injury: a systematic review; Epub; 2013 2A
  16. Jayme Augusto Bertelli, et al.; Transfer of the teres minor motor branch for triceps reinnervation in tetraplegia;J Neurosurg, Volume 114; 2011 3B
  17. Scott H. Kozin, et al; Biceps-to-Triceps Transfer for Elbow Extension in Persons With Tetraplegia; Elsevier, Inc.; 2009 2C
  18. Catherine M. Curtin, et al.; Physician Perceptions of Upper Extremity Reconstruction for the Person With Tetraplegia; The Journal of Hand Surgery; 2004 5
  19. Miguel L. Tedde, et al. ;Diaphragmatic pacing stimulation in spinal cord injury: anesthetic and perioperative management; CLINICAL SCIENCE 67(11):1265-1269; 2012 2B
  20. Lisa A Harvey, et al; Early intensive hand rehabilitation after spinal cord injury (“Hands On”): a protocol for a randomised controlled trial; Harvey et al. Trials 2011, 12:14 2B
  21. Spooren, Janssen-Potten, Kerckhofs, Bongers, Seelen; Evaluation of a task-oriented cliented-centered upper extremity skilled performance training module in persons with tetraplegia, Spinal Cord 2011, edition 49, p. 1049-1054.
  22. David R. Dolbow, et al.; Report of practicability of a 6-month homebased functional electrical stimulation cycling program in an individual with tetraplegia; The Journal of Spinal Cord Medicine 2012 VOL. 35 NO. 33B
  23. Daniela Cristina Carvalho de Abreu , et al.;Electrical Stimulation During Gait Promotes Increase of Muscle Cross-sectional Area in Quadriplegics; The Association of Bone and Joint Surgeons 2008 4
  24. . D.C.L. Carvalho, et al.; Effect of treadmill gait on bone markers and bone mineral density of quadriplegic subjects; Clin Orthop Relat Res 2009 467:553–557 2B
  25. Janne Marques Silveira, et al; Inspiratory muscle training in quadriplegic patients; J Bras Pneumol; 2010;36(3):313-319 2C
  26. Annemie I. F. Spooren etal., Outcome of motor training programmes on arm and hand functioning in patients with cervical spinal cord injury according to different levels of the ICF: a systematic review, J Rehabil Med 2009; 41: 497–505 1A
  27. Lisa A Harvey, et al; Early intensive hand rehabilitation after spinal cord injury (“Hands On”): a protocol for a randomised controlled trial; Harvey et al. Trials 2011, 12:14 2B


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