Cervical Stenosis: Difference between revisions

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<div class="noeditbox">Welcome to [[Vrije Universiteit Brussel Evidence-based Practice Project|Vrije Universiteit Brussel's Evidence-based Practice project]]. This space was created by and for the students in the Rehabilitation Sciences and Physiotherapy program of the Vrije Universiteit Brussel, Brussels, Belgium. Please do not edit unless you are involved in this project, but please come back in the near future to check out new information!!</div> <div class="editorbox">
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'''Original Editors '''  
'''Original Editors ''' - [[User:Demol Yves|Demol Yves]] as part of the [[Vrije Universiteit Brussel Evidence-based Practice Project]]  
 
'''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}}


'''Lead Editors''' &nbsp;
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== Search Strategy  ==
Databases searched: Pubmed, Pedro, Science Direct,…
Keywords searched: Cervical Stenosis, Physical Therapy, Spinal Stenosis, Treatment, Stenosis, Neck, …
*Most successfull keywords are Cervical Stenosis and Spinal Stenosis<br>
*Most succesfull combinations are Cervical Stenosis AND&nbsp;Treatment AND&nbsp;Physical Therapy
== Definition/Description  ==
== Definition/Description  ==


The changes that occur to the vertebrae is that the spinal canals of these vertebrae are narrowing, and that this narrowing may result in a pinch of the spinal cord and/or the nerve roots. Because of this, the function of the spinal cord or the nerve may be affected, which may cause symptoms like [http://www.physio-pedia.com/index.php?title=Cervical_Radiculopathy cervical radiculopathy] or [http://www.physio-pedia.com/index.php?title=Cervical_Myelopathy cervical myelopathy.]<br>
Cervical stenosis is a narrowing of the cervical spinal canal. This narrowing of the spinal canal may result in compression of the spinal cord and/or the nerve roots and affect the function of the spinal cord or the nerve, which may cause symptoms associated with [[Cervical Radiculopathy|cervical radiculopathy]] or [[Cervical Myelopathy|cervical myelopathy]].  
 
== Clinically Relevant Anatomy  ==


The cervical vertebrae are the smallest vertebrae if they are compared with the other spinal vertebrae. Their purpose is to contain and protect the spinal cord, support the skull and enable diverse head movements. <br>  
[[Spinal Stenosis|Spinal stenosis]] may occur as a result of [[Cervical Spondylosis|spondylosis]] (degenerative changes in the cervical spine) but can also be the result of traumatic (fractures and instability) and inflammatory conditions or caused by herniated discs or tumours.
The below 4-minute video brings in the most relevant information
{{#ev:youtube|https://www.youtube.com/watch?v=sWPB0fzX8ao&app=desktop|width}}<ref>Mayo Clinic Cervical spinal stenosis Available from:https://www.youtube.com/watch?v=sWPB0fzX8ao&app=desktop (last accessed 3.2.2020)</ref>  


The ligaments are not only used to prevent excessive movements, which may lead to serious injuries but most specifically to guide the intra-articular movements in the most optimal directions among others avoiding cartilage damage and muscle hypertonicity. <br>  
== Clinically Relevant Anatomy    ==
* See also [[Cervical Anatomy]]
The cervical spinal canal normally provides enough room for the neural elements. The sagittal diameter of the spinal canal varies with height and between individuals. The first cervical vertebral body (C 1) is about 21.8 mm high and the spinal cord makes up about 50% of the spinal canal. On the other hand, C 6 is about 17.8 mm in height and the spinal cord takes up about 75% of the spinal canal<ref name=":4">Meyer F, Börm W, Thomé C. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2696878/ Degenerative cervical spinal stenosis: current strategies in diagnosis and treatment.] Deutsches Ärzteblatt International. 2008 May;105(20):366.</ref>.
* Average anterior-posterior canal diameter at all levels is 14.1 +/- 1.6 mm.  
* The canal diameters range from 9.0 to 20.9 mm, with a median diameter of 14.4 mm.  
* Men have significantly larger cervical spinal canals than women at all of the levels<ref name=":8">Lee MJ, Cassinelli EH, Riew KD. [https://www.ncbi.nlm.nih.gov/pubmed/17272453 Prevalence of cervical spine stenosis: anatomic study in cadavers]. JBJS. 2007 Feb 1;89(2):376-80.</ref>. 
Stenosis is usually the secondary consequences of space-occupying lesions eg:
* Progressive disk degeneration, accompanied by disk protrusion,
* Ventral spondylophyte formation,
* Thickening of the ligamenta flavum
* Hypertrophy of the dorsal facets.
Movement affects the diameter of the spinal canal and cord: 
* The diameter of the spinal canal in flexion and extension is reduced.
* During extension, the ligamentum flavum is folded, which further constricts the spinal canal.
* Changes in length of the spinal canal also affect the length of the spinal cord. eg the shortening of the spinal cord in extension is linked to an increase in diameter and can be additionally damaged by movement. It is pinched between the pincers of the posteroinferior end of one vertebral body and the lamina or ligamentum flavum of the caudal segment. .<ref name=":4" />
{| width="100%" cellspacing="1" cellpadding="1"
|-
| [[Image:Normal-cervical.jpg|thumb|center|Normal cervical vertebrae]]
| [[Image:Cervica-Stenosis.jpg|thumb|center|Cervical stenosis]]
|}


There are muscles that help the cervical spine to maintain its balance and stability for example: <br>  
=== Pathophysiology ===
Many theories regarding the pathophysiology of spinal stenosis suggest a number of confluent mechanisms:
* The spinal cord can be directly compressed by osteophytic bones and ligamentous hypertrophy.
* Compression of local vascular structures can lead to ischemia of the spinal cord from arterial insufficiency and venous stasis.
* A herniated disk can exert repeated local trauma to the spinal cord or nerve root during repetitive flexion and extension movements, especially in the unstable spine with multiple levels of subluxations.
* In the cervical spine, segments C5-6 and C6-7 are often affected.<ref name=":0">Raja A, Hanna A, Hoang S, Mesfin FB. [https://www.ncbi.nlm.nih.gov/books/NBK441989/ Spinal Stenosis] dec 2019.Available from:https://www.ncbi.nlm.nih.gov/books/NBK441989/ (last accessed 3.2.2020)</ref>


*Longus capitis
== Epidemiology  ==
*Longus colli
*Spinalis cervicis


*Spinalis capitis
Cervical spine stenosis appears to be very common and it estimated that cervical stenosis is present in:
*...
* 4.9% of the adult population,
* 6.8% of the population fifty years of age or older
* 9% of the population seventy years of age or older<ref name=":8" />.
Most patients’ symptoms chronically deteriorate over the years however deterioration can occur rapidly and is then mostly irreversible:
* 75% of patients experience phases of neurological deterioration.  
* About 5% of all patients with asymptomatic spinal cord compression become symptomatic each year.  
* Some patients present with an acute clinical course (mostly patients with significant but asymptomatic stenosis who suffer acute spinal cord compression after a trivial injury)<ref name=":4" />.
Risk factors that lead to the development of spinal stenosis are multifactorial:
* Genetic influence as demonstrated in the study of twins
* Cumulative trauma can lead to the progression of the disease
* Osteoporosis can be a contributing factor
* Cigarette smoking in several epidemiological studies has been shown to lead to back pain and degenerative spinal diseases.<ref name=":0" />


But there are also muscles that ensure that the head can move for example:<br>  
=== Etiology ===
Cervical spine stenosis can be caused by a combination of factors.
* Some individuals can have a congenitally narrowed spinal canal that is exacerbated by pathologic factors.
* Disk herniation together with the formation of osteophytic spurs, hypertrophy of the articular facets and ligamentum flavum, and ossification of posterior longitudinal ligaments can lead to central and foraminal stenosis.
* Structural factors such as subluxation from disk and facet joint degeneration and changes in the normal lordotic curvatures of the spine can lead to spinal compression.<ref name=":0" />  


*Sternocleidomastoid
== Characteristics/Clinical Presentation ==
*Scalenus anterior
Initial evaluation of a patient with spinal stenosis often begins with a detailed history of symptoms and physical exam, with a focus on sensation, motor strength, reflexes, and gait.<ref name=":0" />
*Scalenus medius
* Cervical stenosis does not necessarily cause symptoms, but if symptoms are present they will mainly be caused by associated [[Cervical Radiculopathy|cervical radiculopathy]] or [[Cervical Myelopathy|cervical myelopathy]].
*Scalenus posterior
* Cervical spondylotic myelopathy can be seen in patients with greater than 30% spinal narrowing, leading to [[gait]] disturbance, lower extremity weakness, and [[Coordination Exercises|ataxia]].
*...
Cervical spinal stenosis can lead to radicular symptoms due to nerve root compression and myelopathy due to spinal cord compression, radicular symptoms are dependent on the level affected eg a C5-6 disk herniation leads to C6 radiculopathy.
* C4-5 [[Disc Herniation|disk herniation]] can lead to deltoid weakness and shoulder paresthesia. Patients also can experience pain and paresthesia in the head, neck, and shoulder.
* C6-7 disk herniation is the most common, leading to a wrist drop and paresthesia in the 2 and three fingers.
* C5-6 disk herniation is the next common, resulting in weakness in forearm flexion and paresthesia in the thumb and radial forearm.
* C7-T1 disk herniation can lead to weakness in the hand intrinsic muscles and numbness in the 4 and five digits.<ref name=":0" /> 
Potential symptoms include:<ref name="p1">North American Spine Society Public Education Series. Cervical stenosis and myelopathy. http://www.spine.org/Documents/cervical_stenosis_2006.pdf (Accessed 22 November 2011).</ref><ref name="p2">Williams SK, et al. Concomitant cervical and lumbar stenosis: Strategies for treatment and outcomes. Semin Spine Surg 2007;19(3):165-176.</ref><ref name="p3">Countee RW, et al. Congenital stenosis of the cervical spine: Diagnosis and management. J Natl Med Assoc 1979;71(3):257-264.</ref>


== Epidemiology /Etiology  ==
*Pain in the neck or arms  
 
Cervical stenosis may occur at a very slow or fast rate. The changes that occur to the vertebrae is that the spinal canals of these vertebrae are narrowing, and that this narrowing may result in a pinch of the spinal cord and/or the nerve roots. Because of this, the function of the spinal cord or the nerve may be affected, which may cause symptoms like [http://www.physio-pedia.com/index.php?title=Cervical_Radiculopathy cervical radiculopathy] or [http://www.physio-pedia.com/index.php?title=Cervical_Myelopathy cervical myelopathy]. <ref name="1" /><br>
 
<br>
 
Normal cervical vertebrae&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; Cervical vertebrae with cervical stenosis <br>
 
[[Image:Cervica-Stenosis.jpg|right|290x208px]][[Image:Normal-cervical.jpg|left|281x202px]]
 
<br>
 
== <br><br><br><br><br><br>Characteristics/Clinical Presentation  ==
 
Cervical stenosis does not necessarily cause symptoms, but if symptoms are present they will mainly be caused by [http://www.physio-pedia.com/index.php?title=Cervical_Radiculopathy cervical radiculopathy] or [http://www.physio-pedia.com/index.php?title=Cervical_Myelopathy cervical myelopathy]. <br>
 
The symptoms are:<ref name="1">North Amercian Spine Society, Cervical Stenosis, http://www.spine.org/Documents/cervical_stenosis_2006.pdf (accesed 22 november 2011</ref><ref name="2">Williams S.K. et al, Concomitant Cervical and Lumbar Stenosis: Strategies for Treatment and Outcomes, Semin Spine Surg, 2007 Sep, volume 19 issue 3: 165-176. (Level of Evidence 2A)</ref><ref name="3">Countee R.W. et al, Congenital Stenosis of the Cervical Spine: Diagnosis and Management , J Natl Med Assoc, 1979 March, Volume 71, Issue 3, 257-264 (Level of Evidence 2B)</ref> (Level of evidence 2A, 2B, grade of evidence B)
 
*Pain in neck or arms  
*Arm and leg dysfunction  
*Arm and leg dysfunction  
*Weakness, stiffness or clumsiness in the hands  
*Weakness, stiffness or clumsiness in the hands  
Line 64: Line 80:
*Difficulty walking  
*Difficulty walking  
*Frequent falling  
*Frequent falling  
*The need to use a cane or walker
*Urinary urgency which may progress to bladder and bowel [[Urinary Incontinence]]
*Urinary urgency which may result in later cases in bladder and bowel incontinence
*Diminished [[proprioception]]
*Diminished proprioception


<br>
The progression of the symptoms may also vary in the following ways:  
 
The progression of the symptoms may also vary:  


*A slow and steady decline  
*A slow and steady decline  
*Progression to a certain point and stabilizing  
*Progression to a certain point and stabilizing  
*Rapidly declining <br>
*Rapidly declining  


<br>
== Differential Diagnosis  ==


== Differential Diagnosis  ==
* [[Diabetes]]
* [[Inflammatory Myopathies|Inflammatory spondyloarthropathy]] (e.g., ankylosing spondylitis)
* [[Paget's Disease|Paget's disease]] of the bone
* Peripheral neuropathy (paralysis)
* [[Peripheral Arterial Disease|Peripheral vascular disease]]
* [[Disc Herniation|Single level lumbar disc herniation]]
* Spinal cord tumor
* Vascular insufficiency (atherosclerosis of the aorta and/or leg arteries)
* Vertebral disc disease


add text here
== Pathophysiology  ==
Many theories regarding the pathophysiology of spinal stenosis suggest a number of confluent mechanisms. The spinal cord can be directly compressed by osteophytic bones and ligamentous hypertrophy. Compression of local vascular structures can lead to ischemia of the spinal cord from arterial insufficiency and venous stasis. A herniated disk can exert repeated local trauma to the spinal cord or nerve root during repetitive flexion and extension movements, especially in the unstable spine with multiple levels of subluxations.


== Diagnostic Procedures  ==
In the cervical spine, segments C5-6 and C6-7 are often affected


Physical examination: <ref name="1" /><ref name="2" /><ref name="3" /><ref name="4">Santhosh A. et al., Spinal stenosis: history and physical examination, Phys Med Rehabil Clin N Am , 2003, 14,</ref>&nbsp;(Level of evidence 2A en 2B&nbsp;, Grade of Evidence B)<br>&nbsp;
Most patients will experience some type of pain associated with the spine but luckily, even without surgery, the majority will have an uneventful recovery. Only 1-3% will have a herniated disc and less than 2% will have compression of a nerve root.


*Increased reflexes in the knee and ankle, this is called a hyperreflexia, it’s sometimes found with depressed reflexes in the arm
Spinal stenosis is common with aging but predicting which individual will develop symptoms is not possible. In most cases, the degenerative process can be controlled by changes in lifestyle.
*Changes in the gait such as clumsiness or loss of balance
*Loss of sensitivity in the hand/or feet
*Rapid foot beating that is triggered by turning the ankle upward.  
*Babinski’s sign
*Hoffman’s sign


X- rays of the cervical spine doesn’t provide enough information to confirm cervical stenosis, but can be used to rule out other conditions. Cervical stenosis can occur at one level or multiple levels of the spine, therefore is an MRI useful for looking at several levels at one time. It’s also useful to use MRI images because they are very detailed and show the tight spinal canal and pinching of the spinal cord. But a CT scan can give better information about the bony invasion of the canal and can be combined with myelography. <ref name="1" /><ref name="2" /><br>
=== Evaluation ===
Diagnosis can be made through imaging with extended release x-ray, CT, and MRI. With the availability of MRI, a plain radiograph is of limited value although dynamic views in flexion and extension modes can demonstrate dynamic instability or spondylolisthesis. CT can help differentiate calcified disks or bone osteophytes from “soft disks,” differentiate ossification of the posterior longitudinal ligament from a thickened posterior longitudinal ligament and detect bone fractures or lytic lesions. MRI is the gold standard; it is able to show intrinsic cord abnormalities, the degree of spinal stenosis, and differentiate other conditions such as tumors, hematoma, or infection. If a patient has a pacemaker and cannot obtain an MRI, a CT myelogram can be performed to identify the level and degree of stenosis.{{#ev:youtube|9n09uGsCEkA|300}}   


== Outcome Measures  ==
== Outcome Measures  ==
<sup></sup>
*[[Neck Disability Index]]
*[[Neck Pain and Disability Scale]]


add links to outcome measures here (also see [[Outcome Measures|Outcome Measures Database]])
== Medical Management  ==
 
Initial treatment can include both conservative and nonsurgical methods. These methods include physical therapy such as stretching, strengthening, and aerobic fitness to improve and stabilize muscles and posture; anti-inflammatory and analgesic medications; and epidural steroid injections<ref name=":5">Foris LA, Varacallo M. [https://www.statpearls.com/kb/viewarticle/29357 Spinal stenosis and neurogenic claudication.] Florida: StatPearls Publishing. 2018. Available from:https://www.statpearls.com/kb/viewarticle/29357 (last accessed 3.2.2020)</ref>.
== Examination  ==
* Surgery is for only those who fail repeated nonoperative treatments (aimed at improving symptoms and function rather than preventing neurologic complications) and only considered after attempting nonsurgical modalities, or if a patient's symptoms result in disability.  
 
* If a patient presents with rapidly progressive neurological deficits or if there is the presence of bladder dysfunction, urgent surgery is necessary eg cauda equina syndrome, conus medullaris syndrome, trauma, or an intraspinal canal tumor.  
add text here related to physical examination and assessment<br>
* The surgical approach is multilevel decompressive laminectomy with or without lumbar fusion.  
 
* Lumbar fusion is generally reserved for patients with spondylolisthesis.<ref name=":5" />
== Medical Management <br> ==
 
In cases with increasing weakness, pain or instability to walk, then is surgical management of[http://www.physio-pedia.com/index.php/Surgical_and_Post-Operative_Management_of_Cervical_Spine_Stenosis cervical spine stenosis][http://www.physio-pedia.com/index.php/Surgical_and_Post%E2%80%90Operative_Management_of_Cervical_Spine_Stenosis]recommended.&nbsp;<ref name="5">Fassett D. R. et al, Asymptomatic Cervical Stenosis: To Operate or Not?, Semin Spine Surg, 2007 March, Volume 19, Issue 1, 47-50 (Level of Evidence 2A)</ref><ref name="6">Kadanka Z. et al, Approaches to Spondylotic Cervical Myelopathy Conservative Versus Surgical Results in a 3-year Follow-up Study, SPINE, 2002, Volume 27, Number 20, 2205-2211 (Level of Evidence 1B)</ref>&nbsp;(Level of evidence&nbsp;2A, Grade of Evidence B&nbsp;) <br>
 
Surgical options include anterior decompression and fusion, where the disc and bone material are causing spinal cord compression is removed from the front and the spine is stabilized. The stabilizing
 
of the spine, which is called fusion, places an implant between the two cervical segments to support the spine and compensate for the bone and the disc that has been removed. <ref name="1" /><ref name="2" /><ref name="3" /><ref name="7">Boni M. et al, The Cervical Stenosis Syndrome with a Review of 83 Patients Treated by Operation, International Orthopaedics; 1982, Volume 6, Issue 3 , 185-195 (Level of Evidence 2B)</ref><ref name="8">Caron T. H. et al , Combined (Tandem) Lumbar and Cervical Stenosis, Semin Spine Surg, 2007 Sep, Volume 19 Issue 3, 44-46 (Level of Evidence 2A)</ref><ref name="9">Engle C.A. et al, CERVICAL STENOSIS IN THE ATHLETE, Operative Techniques in Orthopaedics; 1995 Jul , Volume 5, Issue 3, 218-222 (Level of Evidence 2A)</ref>
 
Another surgical option is laminectomy. This is a procedure where the bone and ligaments that are pressing against the spinal cord are being removed. In this treatment the surgeon might add also a fusion to stabilize the spine. <ref name="1" /><ref name="2" /><ref name="3" /><ref name="7" /><ref name="8" /><ref name="9" />  


After the surgery, the patient has to remain in the hospital for several days. [http://www.physio-pedia.com/index.php/Surgical_and_Post-Operative_Management_of_Cervical_Spine_Stenosis A postoperative rehabilitation program] may be given, so that the patient can return to his activities and his normal life. <br>  
== Physical Therapy Management ==
Nonoperative treatments, such as physical therapy management, are aimed at reducing pain and increasing the patient's function. Nonoperative treatments do not change the narrowing of the spinal canal, but can provide the patient of a long-lasting pain control and improved function without surgery. A rehabilitation program may require 3 or more months of supervised treatment. <ref name="p1" />  


== Physical Therapy Management <br> ==
A physical therapy program may include<ref>May, S. &amp; Comer, C. Is surgery more effective than non-surgical treatment for spinal stenosis, and which non-surgical treatment is more effective? A systematic review. Physiotherapy, 2013, 99(1), 12-20</ref>)<ref name=":2">Hu SS, et al. Cervical spondylosis section of Disorders, diseases, and injuries of the spine. In HB Skinner, ed., Current Diagnosis and Treatment in Orthopedics, 4th ed., pp. 238–242. New York: McGraw-Hill.,2006</ref><ref name=":3">Atlas SJ, Delitto A. Spinal stenosis: surgical versus nonsurgical treatment. Clin Orthop Relat Res 2006; 443:198.</ref>  
* Stretching exercises: These exercises are aimed at restoring the flexibility of the muscles of the neck, trunk, arms and legs.
* Manual therapy:&nbsp;Cervical and thoracic joint manipulation to improve or maintain the range of motion.
* Heat therapy:&nbsp;to improve blood circulation to the muscles and other soft tissues.
* Cardiovascular exercises for arms and legs: This will improve blood circulation and enhance the patient's cardiovascular endurance and promote good physical conditioning.
* Aquatic exercises: to allow your body to exercise without pressure on the spine.
* Training of activity of daily living (ADL) and functional movements.
Exercises and techniques that may help relieve symptoms of spinal stenosis and prevent progression of the condition include:<ref name=":1">.Yeh et Al., Expansive open-door laminoplasty secured with titanium miniplates is a good surgical method for multiple-level cervical stenosi, Journal of Orthopaedic Surgery and Research, August 2014</ref><ref name=":2" /><ref name=":3" />
* Specific strengthening exercises for the arm, trunk and leg muscles.
* Stretching
* Postural re-education
* Scapular stabilization 
* Ergonomics and frequent changes of position, to avoid sustained postures that compress the spine
* Planning ahead so that you take breaks in between potentially back-stressing activities such as walking and yard work.
* Proper lifting, pushing, and pulling.


Nonoperative treatments, such as physical therapy management, are aimed at reducing pain and increasing the function. Nonoperative treatments do not change the narrowing of the spinal canal, but it can provide the patient of a long-lasting pain control and improved life function without surgery. A rehabilitation program may require 3 or more months of supervised treatment. <ref name="1" /><br>  
== '''Prognosis''' ==
Spinal stenosis has significant morbidity and affects the quality of life. With time it can lead to chronic pain and muscle weakness. In some cases, it may lead to cauda equina syndrome. Patients with central spinal stenosis may have difficulty walking and have gait disturbances. While some patients may improve with time, the majority have a progression of the condition, leading to disability. The cost of managing spinal stenosis is enormous, and for patients can lead to high healthcare bills.<ref name=":5" />


A physical therapy or exercise program consists of the following exercises: <ref name="1" /><ref name="9" /> (Level of evidence 2A, Grade of Evidence B)
*Stretching exercises, these exercises are restoring the flexibility of the muscles of the neck, trunk, arms and legs.
*Cardiovascular exercises for arms and legs, this will improve the blood circulation of the patient and will also train the endurance.
*Specific strengthening exercises for the arm, trunk and leg muscles.
*Training of activity of daily living (ADL).
<br>
There also exists [http://www.physio-pedia.com/index.php/Surgical_and_Post-Operative_Management_of_Cervical_Spine_Stenosis a postoperative rehabilitation program] for patients who underwent a surgical intervention. <br>
== Key Research  ==
add links and reviews of high quality evidence here (case studies should be added on new pages using the [[Template:Case Study|case study template]])<br>
== Resources <br>  ==
add appropriate resources here <br>
== Clinical Bottom Line  ==
add text here <br>
== Recent Related Research (from [http://www.ncbi.nlm.nih.gov/pubmed/ Pubmed])  ==
see tutorial on [[Adding PubMed Feed|Adding PubMed Feed]]
<div class="researchbox">
<rss>Feed goes here!!|charset=UTF-8|short|max=10</rss>
</div>
== References  ==
== References  ==
see [[Adding References|adding references tutorial]].


<references />  
<references />  


<br>  
<br>
[[Category:Cervical Spine - Conditions]]


[[Category:Vrije_Universiteit_Brussel_Project]][[Category:Cervical_Conditions]]
[[Category:Vrije_Universiteit_Brussel_Project]]
[[Category:Cervical Spine]]
[[Category:Conditions]]

Latest revision as of 11:37, 15 November 2023

Original Editors - Demol Yves as part of the Vrije Universiteit Brussel Evidence-based Practice Project

Top Contributors - Demol Yves, Rachael Lowe, Lucinda hampton, Sara Evenepoel, Kim Jackson, WikiSysop, Nicolas Casier, Simisola Ajeyalemi, Rucha Gadgil, Admin, Daphne Jackson, David Herteleer, Jess Bell, Olajumoke Ogunleye, Tony Lowe and Evan Thomas

Definition/Description[edit | edit source]

Cervical stenosis is a narrowing of the cervical spinal canal. This narrowing of the spinal canal may result in compression of the spinal cord and/or the nerve roots and affect the function of the spinal cord or the nerve, which may cause symptoms associated with cervical radiculopathy or cervical myelopathy.

Spinal stenosis may occur as a result of spondylosis (degenerative changes in the cervical spine) but can also be the result of traumatic (fractures and instability) and inflammatory conditions or caused by herniated discs or tumours. The below 4-minute video brings in the most relevant information

[1]

Clinically Relevant Anatomy[edit | edit source]

The cervical spinal canal normally provides enough room for the neural elements. The sagittal diameter of the spinal canal varies with height and between individuals. The first cervical vertebral body (C 1) is about 21.8 mm high and the spinal cord makes up about 50% of the spinal canal. On the other hand, C 6 is about 17.8 mm in height and the spinal cord takes up about 75% of the spinal canal[2].

  • Average anterior-posterior canal diameter at all levels is 14.1 +/- 1.6 mm.  
  • The canal diameters range from 9.0 to 20.9 mm, with a median diameter of 14.4 mm.  
  • Men have significantly larger cervical spinal canals than women at all of the levels[3]

Stenosis is usually the secondary consequences of space-occupying lesions eg:

  • Progressive disk degeneration, accompanied by disk protrusion,
  • Ventral spondylophyte formation,
  • Thickening of the ligamenta flavum
  • Hypertrophy of the dorsal facets.

Movement affects the diameter of the spinal canal and cord:

  • The diameter of the spinal canal in flexion and extension is reduced.
  • During extension, the ligamentum flavum is folded, which further constricts the spinal canal.
  • Changes in length of the spinal canal also affect the length of the spinal cord. eg the shortening of the spinal cord in extension is linked to an increase in diameter and can be additionally damaged by movement. It is pinched between the pincers of the posteroinferior end of one vertebral body and the lamina or ligamentum flavum of the caudal segment. .[2]
Normal cervical vertebrae
Cervical stenosis

Pathophysiology[edit | edit source]

Many theories regarding the pathophysiology of spinal stenosis suggest a number of confluent mechanisms:

  • The spinal cord can be directly compressed by osteophytic bones and ligamentous hypertrophy.
  • Compression of local vascular structures can lead to ischemia of the spinal cord from arterial insufficiency and venous stasis.
  • A herniated disk can exert repeated local trauma to the spinal cord or nerve root during repetitive flexion and extension movements, especially in the unstable spine with multiple levels of subluxations.
  • In the cervical spine, segments C5-6 and C6-7 are often affected.[4]

Epidemiology[edit | edit source]

Cervical spine stenosis appears to be very common and it estimated that cervical stenosis is present in:

  • 4.9% of the adult population,
  • 6.8% of the population fifty years of age or older
  • 9% of the population seventy years of age or older[3].

Most patients’ symptoms chronically deteriorate over the years however deterioration can occur rapidly and is then mostly irreversible:

  • 75% of patients experience phases of neurological deterioration.
  • About 5% of all patients with asymptomatic spinal cord compression become symptomatic each year.
  • Some patients present with an acute clinical course (mostly patients with significant but asymptomatic stenosis who suffer acute spinal cord compression after a trivial injury)[2].

Risk factors that lead to the development of spinal stenosis are multifactorial:

  • Genetic influence as demonstrated in the study of twins
  • Cumulative trauma can lead to the progression of the disease
  • Osteoporosis can be a contributing factor
  • Cigarette smoking in several epidemiological studies has been shown to lead to back pain and degenerative spinal diseases.[4]

Etiology[edit | edit source]

Cervical spine stenosis can be caused by a combination of factors.

  • Some individuals can have a congenitally narrowed spinal canal that is exacerbated by pathologic factors.
  • Disk herniation together with the formation of osteophytic spurs, hypertrophy of the articular facets and ligamentum flavum, and ossification of posterior longitudinal ligaments can lead to central and foraminal stenosis.
  • Structural factors such as subluxation from disk and facet joint degeneration and changes in the normal lordotic curvatures of the spine can lead to spinal compression.[4]

Characteristics/Clinical Presentation[edit | edit source]

Initial evaluation of a patient with spinal stenosis often begins with a detailed history of symptoms and physical exam, with a focus on sensation, motor strength, reflexes, and gait.[4]

  • Cervical stenosis does not necessarily cause symptoms, but if symptoms are present they will mainly be caused by associated cervical radiculopathy or cervical myelopathy.
  • Cervical spondylotic myelopathy can be seen in patients with greater than 30% spinal narrowing, leading to gait disturbance, lower extremity weakness, and ataxia.

Cervical spinal stenosis can lead to radicular symptoms due to nerve root compression and myelopathy due to spinal cord compression, radicular symptoms are dependent on the level affected eg a C5-6 disk herniation leads to C6 radiculopathy.

  • C4-5 disk herniation can lead to deltoid weakness and shoulder paresthesia. Patients also can experience pain and paresthesia in the head, neck, and shoulder.
  • C6-7 disk herniation is the most common, leading to a wrist drop and paresthesia in the 2 and three fingers.
  • C5-6 disk herniation is the next common, resulting in weakness in forearm flexion and paresthesia in the thumb and radial forearm.
  • C7-T1 disk herniation can lead to weakness in the hand intrinsic muscles and numbness in the 4 and five digits.[4]

Potential symptoms include:[5][6][7]

  • Pain in the neck or arms
  • Arm and leg dysfunction
  • Weakness, stiffness or clumsiness in the hands
  • Leg weakness
  • Difficulty walking
  • Frequent falling
  • Urinary urgency which may progress to bladder and bowel Urinary Incontinence
  • Diminished proprioception

The progression of the symptoms may also vary in the following ways:

  • A slow and steady decline
  • Progression to a certain point and stabilizing
  • Rapidly declining

Differential Diagnosis[edit | edit source]

Pathophysiology[edit | edit source]

Many theories regarding the pathophysiology of spinal stenosis suggest a number of confluent mechanisms. The spinal cord can be directly compressed by osteophytic bones and ligamentous hypertrophy. Compression of local vascular structures can lead to ischemia of the spinal cord from arterial insufficiency and venous stasis. A herniated disk can exert repeated local trauma to the spinal cord or nerve root during repetitive flexion and extension movements, especially in the unstable spine with multiple levels of subluxations.

In the cervical spine, segments C5-6 and C6-7 are often affected

Most patients will experience some type of pain associated with the spine but luckily, even without surgery, the majority will have an uneventful recovery. Only 1-3% will have a herniated disc and less than 2% will have compression of a nerve root.

Spinal stenosis is common with aging but predicting which individual will develop symptoms is not possible. In most cases, the degenerative process can be controlled by changes in lifestyle.

Evaluation[edit | edit source]

Diagnosis can be made through imaging with extended release x-ray, CT, and MRI. With the availability of MRI, a plain radiograph is of limited value although dynamic views in flexion and extension modes can demonstrate dynamic instability or spondylolisthesis. CT can help differentiate calcified disks or bone osteophytes from “soft disks,” differentiate ossification of the posterior longitudinal ligament from a thickened posterior longitudinal ligament and detect bone fractures or lytic lesions. MRI is the gold standard; it is able to show intrinsic cord abnormalities, the degree of spinal stenosis, and differentiate other conditions such as tumors, hematoma, or infection. If a patient has a pacemaker and cannot obtain an MRI, a CT myelogram can be performed to identify the level and degree of stenosis.

Outcome Measures[edit | edit source]

Medical Management[edit | edit source]

Initial treatment can include both conservative and nonsurgical methods. These methods include physical therapy such as stretching, strengthening, and aerobic fitness to improve and stabilize muscles and posture; anti-inflammatory and analgesic medications; and epidural steroid injections[8].

  • Surgery is for only those who fail repeated nonoperative treatments (aimed at improving symptoms and function rather than preventing neurologic complications) and only considered after attempting nonsurgical modalities, or if a patient's symptoms result in disability.
  • If a patient presents with rapidly progressive neurological deficits or if there is the presence of bladder dysfunction, urgent surgery is necessary eg cauda equina syndrome, conus medullaris syndrome, trauma, or an intraspinal canal tumor.
  • The surgical approach is multilevel decompressive laminectomy with or without lumbar fusion.
  • Lumbar fusion is generally reserved for patients with spondylolisthesis.[8]

Physical Therapy Management[edit | edit source]

Nonoperative treatments, such as physical therapy management, are aimed at reducing pain and increasing the patient's function. Nonoperative treatments do not change the narrowing of the spinal canal, but can provide the patient of a long-lasting pain control and improved function without surgery. A rehabilitation program may require 3 or more months of supervised treatment. [5]

A physical therapy program may include[9])[10][11]

  • Stretching exercises: These exercises are aimed at restoring the flexibility of the muscles of the neck, trunk, arms and legs.
  • Manual therapy: Cervical and thoracic joint manipulation to improve or maintain the range of motion.
  • Heat therapy: to improve blood circulation to the muscles and other soft tissues.
  • Cardiovascular exercises for arms and legs: This will improve blood circulation and enhance the patient's cardiovascular endurance and promote good physical conditioning.
  • Aquatic exercises: to allow your body to exercise without pressure on the spine.
  • Training of activity of daily living (ADL) and functional movements.

Exercises and techniques that may help relieve symptoms of spinal stenosis and prevent progression of the condition include:[12][10][11]

  • Specific strengthening exercises for the arm, trunk and leg muscles.
  • Stretching
  • Postural re-education
  • Scapular stabilization
  • Ergonomics and frequent changes of position, to avoid sustained postures that compress the spine
  • Planning ahead so that you take breaks in between potentially back-stressing activities such as walking and yard work.
  • Proper lifting, pushing, and pulling.

Prognosis[edit | edit source]

Spinal stenosis has significant morbidity and affects the quality of life. With time it can lead to chronic pain and muscle weakness. In some cases, it may lead to cauda equina syndrome. Patients with central spinal stenosis may have difficulty walking and have gait disturbances. While some patients may improve with time, the majority have a progression of the condition, leading to disability. The cost of managing spinal stenosis is enormous, and for patients can lead to high healthcare bills.[8]

References[edit | edit source]

  1. Mayo Clinic Cervical spinal stenosis Available from:https://www.youtube.com/watch?v=sWPB0fzX8ao&app=desktop (last accessed 3.2.2020)
  2. 2.0 2.1 2.2 Meyer F, Börm W, Thomé C. Degenerative cervical spinal stenosis: current strategies in diagnosis and treatment. Deutsches Ärzteblatt International. 2008 May;105(20):366.
  3. 3.0 3.1 Lee MJ, Cassinelli EH, Riew KD. Prevalence of cervical spine stenosis: anatomic study in cadavers. JBJS. 2007 Feb 1;89(2):376-80.
  4. 4.0 4.1 4.2 4.3 4.4 Raja A, Hanna A, Hoang S, Mesfin FB. Spinal Stenosis dec 2019.Available from:https://www.ncbi.nlm.nih.gov/books/NBK441989/ (last accessed 3.2.2020)
  5. 5.0 5.1 North American Spine Society Public Education Series. Cervical stenosis and myelopathy. http://www.spine.org/Documents/cervical_stenosis_2006.pdf (Accessed 22 November 2011).
  6. Williams SK, et al. Concomitant cervical and lumbar stenosis: Strategies for treatment and outcomes. Semin Spine Surg 2007;19(3):165-176.
  7. Countee RW, et al. Congenital stenosis of the cervical spine: Diagnosis and management. J Natl Med Assoc 1979;71(3):257-264.
  8. 8.0 8.1 8.2 Foris LA, Varacallo M. Spinal stenosis and neurogenic claudication. Florida: StatPearls Publishing. 2018. Available from:https://www.statpearls.com/kb/viewarticle/29357 (last accessed 3.2.2020)
  9. May, S. & Comer, C. Is surgery more effective than non-surgical treatment for spinal stenosis, and which non-surgical treatment is more effective? A systematic review. Physiotherapy, 2013, 99(1), 12-20
  10. 10.0 10.1 Hu SS, et al. Cervical spondylosis section of Disorders, diseases, and injuries of the spine. In HB Skinner, ed., Current Diagnosis and Treatment in Orthopedics, 4th ed., pp. 238–242. New York: McGraw-Hill.,2006
  11. 11.0 11.1 Atlas SJ, Delitto A. Spinal stenosis: surgical versus nonsurgical treatment. Clin Orthop Relat Res 2006; 443:198.
  12. .Yeh et Al., Expansive open-door laminoplasty secured with titanium miniplates is a good surgical method for multiple-level cervical stenosi, Journal of Orthopaedic Surgery and Research, August 2014


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