Pathophysiology
- Neurologic symptoms in cervical spondylosis are result of a cascade of degenerative changes that most likely begin at the cervical disc
- Age-related changes in chemical composition of nucleus pulposus & annulus fibrosus result in a progressive loss of their viscoelastic properties (begins from age of 21)
- Disc loses height & bulges posteriorly into canal
- With this loss of height, vertebral bodies drift toward one another
- Posterior, there is infolding of ligamentum flavum & facet joint capsule, causing a decrease in canal & foraminal dimensions
- Osteophytes form around disc margins & at uncovertebral & facet joints
- Posterior protruded disc material, osteophytes, or thickened soft tissue within canal or foramen results in extrinsic pressure on nerve root or spinal cord
- Mechanical distortion of nerve root may lead to motor weakness or sensory deficits
- Pathogenesis of radicular pain is unclear, but is generally thought that, in addition to compression, an inflammatory response of some kind is necessary for pain to develop
- Within compressed nerve root intrinsic blood vessels show increased permeability, which secondarily results in oedema of nerve root
- Chronic oedema & fibrosis within nerve root can alter response threshold & increase sensitivity of nerve root to pain
- Neurogenic chemical mediators of pain released from cell bodies of sensory neurons & non-neurogenic mediators released from disc tissue may play a role in initiating & perpetuating this inflammatory response
- Dorsal root ganglion has been implicated in pathogenesis of radicular pain
- Prolonged discharges originate from cell bodies of dorsal root ganglion as a result of brief pressure
- In addition to chemicals produced by cell bodies of dorsal root ganglion, membrane surrounding dorsal root ganglion is more permeable than that around nerve root, allowing a more florid local inflammatory response
- Certain arm positions may decrease stress within nerve root & relieve radicular pain
Natural History
- Most patients with axial symptoms from cervical spondylosis do reasonably well:
- Following 3 months of non-operative management, 70% have good to excellent relief of pain
- Patients with radicular symptoms or findings have a less favourable prognosis
- Disability tends to progress in patients >60 years of age
Clinical Manifestations
- Symptoms are specific to a dermatomal distribution in the upper extremity, & may include sharp pain & tingling or burning sensations in involved area
- There may be sensory or motor loss corresponding to the involved nerve root, & reflex activity may be diminished
- Pain relief may be obtained by tilting head to the contralateral side
- Shoulder abduction sign:
- Relief of severe radicular pain when patient rests hand, wrist or forearm on top of head
- In addition to decreasing tension within nerve root, this position may lift sensory root or dorsal root ganglion directly cephalad or lateral to source of compression, & decompression of epidural veins may contribute to pain relief
- Spurling manoeuver:
- Symptoms are usually aggravated by extension or lateral rotation of head to side of pain
- Aggravation of symptoms by neck extension often helps to differentiate a radicular aetiology from muscular neck pain or a pathological condition of shoulder with secondary muscle pain in neck
- Patients with metabolic disorders, such as diabetes, who have neuropathy may be more susceptible to radiculopathy & compressive neuropathy
- Adaptations to initial radiculopathy may result in secondary pathological changes in the shoulder, carpal tunnel syndrome, or ulnar nerve irritation, which may persist long after initial radiculopathy has resolved
- Neurologic deficits correspond with offending disc level in 80% of patients
- Diaphragmatic involvement may result from involvement of 3rd, 4th, & 5th cervical nerve roots, manifest as paradoxical respiration
- Nerve-specific radicular symptoms:
-
- C2
- Jaw pain & occipital headaches
- C3
- Headaches & pain along posterior aspect of neck that extends to posterior occipital region & occasionally to ear
- C4
- Numbness & pain at base of neck that extends to shoulder & scapular region
- C5
- Pain &/or numbness in an “epaulet” pattern that includes superior aspect of shoulders & lateral aspect of upper arm
- Deltoid, supraspinatus, infraspinatus, elbow flexor motor function weakened
- Absent biceps reflex is an inconsistent finding
- C6
- Pain or sensory abnormalities extending from neck to biceps region, down lateral aspect of forearm to dorsal surface of hand, between thumb & index finger, & including tips of these fingers
- Wrist extensor +/- infraspinatus, serratus anterior, triceps, supinator, or EPL&B muscles weakness
- Brachioradialis reflex may be depressed
- C7
- Pain & sensory abnormalities extend down posterior aspect of arm, posterolateral aspect of forearm & typically involves middle finger
- Triceps +/- wrist flexors, wrist pronators, finger extensors, or latissimus dorsi weakness
- Absent triceps reflex
- C8
- Sensory changes are usually restricted to below wrist
- Interossei weakness
- C2
- Atypical presentations:
- Cervical angina
- Chronic breast pain
- Facial pain or paraesthesia
- Dysphagia, dyspnoea, or dysphonia
- Pressure on oesophagus, larynx, or trachea from marked spurring along anterior aspects of vertebral bodies as a result of proliferative degenerative changes
- Wallenberg syndrome
- Palsy of ipsilateral V, IX, X, & XI cranial nerves, Horner syndrome, cerebellar ataxia, & possibly death
- Result of hypertrophic spurs arising from uncovertebral & facet joints occluding vertebral artery in its foramen & leading to thrombosis of vertebral artery which in turn spreads to posterior inferior cerebellar artery
- Dizziness, vision blurring, tinnitus, retroocular pain, facial or jaw pain
- Results from sympathetic chain involvement
- Radiculopathy occasionally presents in association with myelopathy, exhibiting long tract signs
Differential Diagnosis
- Peripheral entrapment syndromes
- Rotator cuff / shoulder pathology
- Idiopathic brachial plexus neuritis
- Herpes zoster
- Thoracic outlet syndrome
- Sympathetic mediated pain syndrome (CRPS)
- Intraspinal or extraspinal tumor:
- Schwannoma involving sensory root
- Meningioma
- Benign or malignant vertebral body tumours
- Pancoast tumour of apical lung
- Epidural abscess
- Cardiac ischaemia
Non-operative Management
- NSAIDs
- Heat & cold therapy
- Antispasmodic agents (dextropropoxyphene, diazepam)
- Narcotic analgesics may be used in acute setting
- Epidural or zygapophyseal joint corticosteroid injection
- Short course of cervical immobilisation in a soft collar
- Prolonged immobilisation should be avoided, because cervical musculature atrophies rapidly
- Duration of immobilisation should not exceed 10 days to 2 weeks & should be followed by gradual weaning
- During weaning period, paraspinal muscles can be strengthened with isometric exercises
- Stretching exercises can also be instituted at this time
- If patient is free of pain after 6 weeks, more aggressive exercise regimens can be introduced to build up paraspinal muscles & protect neck from further attacks
Operative Management
- Indications:
- Persistent or recurrent radicular symptoms unresponsive to non-operative management for >6 weeks
- Disabling motor weakness of <6 weeks (i.e. deltoid palsy, wrist drop)
- Progressive neurologic deficit
- Static neurologic deficit combined with radicular or referred pain
- Instability or deformity of functional spinal unit in combination with radicular symptoms
- Anterior cervical discectomy & fusion:
- Smith-Robinson technique
- Autogenous tricortical corticocancellous horseshoe-shaped graft placed in evacuated disk space
- This has now been superceded by cervical cages (titanium alloy or PEEK) which are hollowed out for the placement of autologous or synthetic bone graft, and predominantly rigidly stabilized with anterior plate fixation
- Smith-Robinson technique
- Anterolateral cervical exposure provides access from C3 to T1
- Left-sided approach minimises potential risk of recurrent laryngeal palsy
- A longitudinal roll is placed in interscapular area for extension
- Head is positioned away from operative field, & a transverse incision is made in line with naturally occurring skin creases
- A more vertical incision may be made roughly parallel to course of sternocleidomastoid if decompression of ³3 levels is anticipated
- Subcutaneous tissue & platysma incised in line with skin incision
- Superficial layer of deep cervical fascia is divided to expose length of sternocleidomastoid
- Middle layer of deep cervical fascia is divided as carotid sheath & its contents are retracted laterally with sternocleidomastoid
- Pretracheal & prevertebral layers of deep cervical fascia overlying spine are incised vertically to permit direct visualisation of vertebral body & disk spaces
- Planned operative level(s) are confirmed with image intensifier (Xray)
- Longus colli muscle should be elevated from cervical spine beginning at midline & proceeding bilaterally with use of a cautery for subperiosteal dissection
- Longus colli should be stripped no farther laterally than point at which vertebral body curves posterior, so as to avoid injury to vertebral artery & sympathetic chain
- Posterior longitudinal ligament is removed in addition to disk only if soft disk herniation posterior to it, or if ligament is part of compressive lesion, such as in ossification of posterior longitudinal ligament
- Alternative to Smith-Robinson technique, for multilevel involvement, vertebrectomy & strut grafting with tricortical iliac crest or a fibular strut graft maybe undertaken
- Anterior plate & screw instrumentation
- Plates with screws that can be rigidly locked & that require only unicortical purchase are preferred – double screws at each level prevents potential for “windscreen wiper” effect
- Decrease orthotic need, earlier functional return, & enhance fusion rate (88% for single level fusion)
- Complications
- Persistence of neurologic symptoms
- Recurrent laryngeal nerve palsy (increased incidence with right-sided approach); manifested by hoarse voice
- Thoracic duct laceration leading to chylothorax (left-sided approach)
- Oesophageal laceration intra-operatively, or following hardware loosening or graft dislodgement (intravenous nutrition required until healing occurs)
- Cervical sympathetic chain damage leading to Horner’s syndrome
- Spinal cord penetration from over-drilling or excessive screw length
- Pseudarthrosis (incidence increases with increasing number of levels attempted to fuse)
- 12% single level
- 25% multiple level
- 15% overall
- Important to note that may not be symptomatic
- Adjacent segment degeneration (<20%)
- Graft donor site morbidity
- Haematoma (5%)
- Infection (1%)
- Lateral femoral cutaneous nerve injury (10%)
- Persistent iliac crest pain (15%)
- Not an issue with cages
- Posterior laminoforaminotomy:
- Posterior approach
- Prone position
- Midline skin incision
- Dissection to spinous processes, preserving interspinous ligament
- Paraspinous muscles dissected laterally
- If herniated disk material is present, nerve root is retracted superiorly to gain access to lesion
- Soft collar for comfort post-operatively
- 95% good to excellent results
- Complications
- Transient worsening radiculopathy (lasting <1 week) (8%)
- Prolonged post-operative paresis (2%)
- Venous air embolism (2%)
- Wound infection (1%)
- Post-operative instability
- In absence of segmental kyphosis, preoperative instability, concomitant laminectomy, or excessive (>50%) facet resection, postoperative instability should not be an issue
- Posterior approach
- Which surgical option?:
- Factors affecting operative choice are the patient’s age, types of pathologic changes, number of motion segments involved, whether disease is unilateral or bilateral, & overall sagittal alignment
- Younger patients & athletes with soft disk herniations should be considered for posterior laminoforaminotomy, as well as smokers, who are at increased risk for nonunion from ACDF
- However, if radiculopathy is secondary to degenerative changes resulting in facet hypertrophy & uncovertebral-joint osteophyte formation (i.e. hard disk disease), an anterior approach may be preferable
- Technical difficulties can preclude use of an anterior approach in C7-T1 disc herniations in obese or burly individuals with short necks
- Patients with bilateral symptoms from a single level may be addressed with a posterior approach with bilateral keyhole laminoforaminotomy
- However, bilateral foraminotomy places motion segment at increased risk for instability, & in addition, osteophyte resection is more easily & safely addressed with ACDF
- Although there is some controversy, an anterior approach is preferred in cases of multilevel lateral radiculopathy
- In patients without kyphosis & with less severe axial neck pain, some surgeons advocate a multiple foraminotomy because of its ease & minimal complications
- However, if a laminectomy is utilised in addition to foraminotomies, development of instability & postlaminectomy kyphosis is frequent; therefore, simultaneous posterior fusion should be considered to prevent occurrence of late deformity
- In general, however, cervical laminectomy is utilised only in instances of spinal cord compression in lordotic spine
- There is little controversy regarding radiculopathy with midline pathologic changes, as ACDF permits surgeon to address lesions without having to manipulate spinal cord
- Patients with severe axial neck pain & segmental kyphosis are optimally treated with an anterior surgical procedure
Summary