Difference between revisions of "Intervertebral Disc Degeneration"

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Also Known As: '''''IVDD''''' — '''''Hansen Type I IVDD''''' — '''''Hansen Type II IVDD''''' — '''''Fibrocartilagenous Embolic Myelopathy''''' — '''''FCE''''' — '''''Explosive Disc'''''
 +
 
==Introduction==
 
==Introduction==
  
The term ''''Intervertebral Disc Disease'''' ('''IVDD''') refers to several pathological processes involving the intervertebral discs. It is common in the '''dog''', and the type of degeneration of the disc is normally related to the breed of dog. Although any disc in the spinal column may be affects it is normally the '''cervical, thoracic or lumbar discs''' that are affected as they are less supported by surrounding structures.  
+
The term ''''Intervertebral Disc Disease'''' ('''IVDD''') refers to several pathological processes involving the intervertebral discs. It is common in the '''dog''', and the type of degeneration of the disc is normally related to the breed of dog. Although any disc in the [[Spinal Column - Anatomy & Physiology|spinal column]] may be affects it is normally the '''cervical, thoracic or lumbar discs''' that are affected as they are less supported by surrounding structures.  
  
 
=Hansen Type I IVDD=
 
=Hansen Type I IVDD=
  
In '''chondrodystrophic breeds''' such as the '''dachshund''' and the '''bassett hound''', the nucleus propulsus undergoes '''chondroid degeneration'''. This is normal in these breeds and changes such as '''mineralisation''' are normally apparent in more than one disc by the time the dog is one year old. However '''extrusion''' of the degenerate nuclei can occur at any point, causing '''acute''' spinal cord '''trauma'''. The initial impact of the nucleus causes '''contusion''' of the spinal cord, and the extruded nucleus continues to '''compress''' the cord. This is known as '''Type I (Hansen) IVDD'''.  
+
In '''[[Chondrodysplasia|chondrodystrophic breeds]]''' such as the '''dachshund''' and the '''bassett hound''', the [[Spinal Column - Anatomy & Physiology|nucleus propulsus]] undergoes '''chondroid degeneration'''. This is normal in these breeds and changes such as '''[[Mineralisation - Pathology|mineralisation]]''' are normally apparent in more than one disc by the time the dog is one year old. However '''extrusion''' of the degenerate nuclei can occur at any point, causing '''acute''' [[Spinal Cord - Anatomy & Physiology|spinal cord]] '''trauma'''. The initial impact of the nucleus causes '''contusion''' of the spinal cord, and the extruded nucleus continues to '''compress''' the cord. This is known as '''Type I (Hansen) IVDD'''.  
  
Type I IVDD most commonly occurs in '''small and chondrodystrophic breeds''', but it can occur in any dog. It is most likely to occur in '''young to middle-aged''' dogs. Clinical signs are '''acute''' in onset. Neurolocalisation will depend on which disc is affected but the classic signs are a T3-L3 myelopathy (the most common localistaion) are '''a non-ambulatory pelvic limb para-paresis, poor paw placement and the presence of withdrawl and patellar reflexes'''.  
+
Type I IVDD most commonly occurs in '''small and [[Chondrodysplasia|chondrodystrophic breeds]]''', but it can occur in any dog. It is most likely to occur in '''young to middle-aged''' dogs. Clinical signs are '''acute''' in onset. Neurolocalisation will depend on which disc is affected but the classic signs are a T3-L3 myelopathy (the most common localistaion) are '''a non-ambulatory pelvic limb para-paresis, poor paw placement and the presence of withdrawl and patellar reflexes'''.  
  
* Cervical discs - neck pain is the most common clinical sign
+
* '''Cervical discs''' - neck pain is the most common clinical sign, paresis is less common as there is more space in the vertebral canal at this point, so compression is less severe
  
* Thoracolumbar discs - paresis and ataxia are the most common clinical signs
+
* '''Thoracolumbar discs''' - paresis and ataxia are the most common clinical signs
  
* Lumbosacral discs - pelvic limb lameness and pain and incontinence are the most common clinical signs.
+
* '''Lumbosacral discs''' - pelvic limb lameness and pain and incontinence are the most common clinical signs
  
 
=Hansen Type II IVDD=
 
=Hansen Type II IVDD=
'''Type II IVDD''' is more common in '''older, large breed dogs''' such as the German Shepard Dog. IVDD type II involves '''fibroid degeneration of the nucleus propulsus''' and '''protrusion of the annulus fibrosis'''. Over time the fibroid tissue in the disc is replaced by '''collagenous tissue'''. At the same time '''hypertrophy''' of the surrounding '''annulus''' occurs, causing '''progressive compression of the spinal cord'''. Mineralisation of the discs is rare.  
+
'''Type II IVDD''' is more common in '''older, large breed dogs''' such as the German Shepard Dog. IVDD type II involves '''fibroid degeneration of the [[Spinal Column - Anatomy & Physiology|nucleus propulsus]]''' and '''protrusion of the [[Spinal Column - Anatomy & Physiology|annulus fibrosis]]'''. Over time the fibroid tissue in the disc is replaced by '''collagenous tissue'''. At the same time '''hypertrophy''' of the surrounding '''annulus''' occurs, causing '''progressive compression of the spinal cord'''. Mineralisation of the discs is rare.  
  
 
Clinical signs are normally '''insidious''' but the dog may present acutely. It is common for the dog to only show signs of '''dynamic compression''' of the spinal cord, for example when jumping. As the onset of disease is normally '''gradual''' and '''progressive''', so clinical signs are normally less severe on presentation. These include:   
 
Clinical signs are normally '''insidious''' but the dog may present acutely. It is common for the dog to only show signs of '''dynamic compression''' of the spinal cord, for example when jumping. As the onset of disease is normally '''gradual''' and '''progressive''', so clinical signs are normally less severe on presentation. These include:   
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* Restlessness and panting
 
* Restlessness and panting
  
 
+
=Fibrocartilagenous Embolic Myelopathy ([[Embolism|FCE]])=
=Fibrocartilagenous Embolic Myopathic (FCE)=
+
This '''vascular''' disease most is typically seen in '''young medium to large breed dogs''' but it can occur in any dog or cat. It occurs when a '''[[Embolism|fibrocartilagenous emboli]]''' causes an '''[[Infarction|infarction]] of the [[Spinal Cord - Anatomy & Physiology|spinal cord]] parenchyma'''.  
This '''vascular''' disease most is typically seen in '''young medium to large breed dogs''' but it can occur in any dog or cat. It occurs when a '''fibrocartilagenous emboli''' causes an '''infarction of the spinal cord parenchyma'''.  
 
  
 
It is typically '''peracute''' in onset and clinical signs are '''non-progressive''', with a classic history of a dog jumping for a toy, yelping, and collapsing with paresis. The disease is '''non-painful''' as no pain receptors are present in the spinal cord '''parenchyma'''.
 
It is typically '''peracute''' in onset and clinical signs are '''non-progressive''', with a classic history of a dog jumping for a toy, yelping, and collapsing with paresis. The disease is '''non-painful''' as no pain receptors are present in the spinal cord '''parenchyma'''.
  
 
='Explosive Disc'=
 
='Explosive Disc'=
Explosive disc is the '''low volume, high velocity extrusion of the normal nucleus propulsus'''. This causes an '''non-compressive contusion injury to the spinal cord'''. The signalment, clinical signs and history are normally similar to FCE, with the dog presenting with a non-progressive paresis of peracute onset.  
+
Explosive disc is the '''low volume, high velocity traumatic extrusion of the normal nucleus propulsus'''. This causes an '''non-compressive contusion injury to the spinal cord'''. The signalment, clinical signs and history are normally similar to FCE, with the dog presenting with a non-progressive paresis of peracute onset.  
  
==Diagnosis==
+
=Diagnosis=
  
 
A thorough '''history, clinical exam and neurological exam''' should be performed on presentation. The neurological exam should reveal the '''severity and neuro-localisation''' of the disease. Motor function, proprioception, spinal reflex arcs, the location of spinal pain and most importantly the presence or absence of conscious pain perception can provide an overall picture of location and severity.
 
A thorough '''history, clinical exam and neurological exam''' should be performed on presentation. The neurological exam should reveal the '''severity and neuro-localisation''' of the disease. Motor function, proprioception, spinal reflex arcs, the location of spinal pain and most importantly the presence or absence of conscious pain perception can provide an overall picture of location and severity.
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===Radiography===
 
===Radiography===
Survey radiographs should be taken to identify any signs of intervertebral disc prolapse. These signs include:
+
Survey radiographs should be taken to identify any signs of intervertebral disc disease. These signs include:
* A narrowing of the intervertebral disc space
+
* '''A narrowing of the intervertebral disc space'''
* Small or opaque intervertebral foramen
+
* '''Small or opaque intervertebral foramen'''
* The presence of gas in the intervertebral foramen  
+
* '''The presence of gas in the intervertebral foramen'''
* Calcificiation of disc material overlying the vertebral canal
+
* '''Calcificiation of disc material overlying the vertebral canal'''
 +
* '''Presence of disc material in the spinal canal'''
  
Radiographs are normally taken when the animal in anaesthatised to allow appropriate positioning. Lateral and VD views should be taken.  
+
Radiographs are normally taken when the animal in '''anaesthatised''' to allow appropriate positioning. '''Lateral and VD views''' should be taken. Should these radiographs fail to demonstrate the full extent of the lesion, a '''CSF sample''' should be taken to provide more information.  
  
 
===Myelography===
 
===Myelography===
Myelography involves injection of non-ionic contrast medium into the subarachnoid space, which outlines the spinal cord. It should be performed in all cases which showed no clinical signs on survey radiographs, cases where the survey radiographs do not match the clinical signs, cases where the extent of the lesion in unknown and any potentially surgical cases. The procedure should be performed under general anaesthesia - often the animal will be moved directly to theatre following myelography. Myelography can identify the lesion and confirm IVDD:
+
Myelography involves injection of '''non-ionic contrast medium''' into the '''subarachnoid space''', which '''outlines the spinal cord'''. It should be performed in all cases which showed no clear signs on survey radiographs, cases where the survey radiographs do not match the clinical signs, cases where the extent of the lesion in unknown and any potentially surgical cases. The procedure should be performed under general anaesthesia - often the animal will be moved directly to theatre following myelography. Myelography can identify the lesion and confirm IVDD:
  
 
'''1) Extradural'''
 
'''1) Extradural'''
  
The contrast medium bulges towards the cord - this is the sign you would expect to see in IVDD.
+
The contrast medium bulges towards the cord - this is the sign you would expect to see in Type I and II IVDD.
  
 
'''2) Intramedullary'''
 
'''2) Intramedullary'''
  
The contrast lines are further pushed apart by an intramedullary lesion. Common differentials are neoplasia and spinal cord oedema.
+
The contrast lines are further pushed apart by an intramedullary lesion. This pattern is seen with FCE. Common differentials are neoplasia and spinal cord oedema.
  
 
'''3) Intradural-extramedullary'''
 
'''3) Intradural-extramedullary'''
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===MRI===
 
===MRI===
MRI is the gold-standard for identifying IVDD, however it is generally only available in referral hospitals and is very expensive.
+
MRI is the '''gold-standard''' for identifying IVDD, however it is generally only available in '''referral hospitals''' and is very expensive.
 +
 
 +
=Treatment=
 +
With '''Type I IVDD''' you may consider '''immediate referral'''. Providing there are no cost constraints, performing '''prompt surgery''' to relieve the pressure on the spinal cord results in an '''improved prognosis''' and specialist refferal units are equipped to do this. '''Conservative treatment''' may be considered if signs are '''mild''' (presence of peen pain) and '''non-progressive''', if performing surgery is against the owners wishes or there are significant '''cost constraints'''. '''Type II IVDD''' is treated in the same way as type I but as clinical signs are less acute, a rapid decision about the choice of treatment is rarely necessary. 
 +
 
 +
===Surgery===
 +
The surgical procedure performed depends on the location of the lesion. The procedure performed on a '''thoracolumbar lesion''' is a '''hemilaminectomy'''. A '''ventral slot''' is performed on '''cervical lesions'''. Generally a fenestration is made in the vertebral canal and the extruded disc material is cooped out to relieve pressure on the spinal cord. Prophylactic laminectomies may be performed on unaffected discs to prevent recurrence.
 +
 
 +
Post-operatively it is essential that the dog is placed on a program of '''strict cage rest and physiotherapy''' for a minimum of '''6 weeks'''. NSAIDs may also be given.
 +
 
 +
===Conservative Treatment===
 +
The aims of conservative treatment are to; allow the '''extruded disc material time to dissipate''', relieving pressure on the spinal cord and; to allow the '''dorsal annulus to heal''', preventing further extrusion of disc material. This involves '''strict cage rest for a minimum of 6 weeks''', very short '''lead walk''' and '''physiotherapy'''. NSAIDs may also be given.
 +
 
 +
FCE and 'explosive disc' are non-progressive the appropriate treatment is '''supportive care''' (management of the recumbent animal), '''time''' and '''physiotherapy'''.
 +
 
 +
Steroid treatment is now contraindicated in acute spinal trauma.
 +
 
 +
=Prognosis=
 +
Prognosis for IVDD type I depends on the '''severity and duration of clinical signs and the treatment options'''. If '''[[Sensory Pathways - Anatomy & Physiology|deep pain''' sensation]] is present and surgery is performed immediately then prognosis is good. Prognosis worsens the longer deep pain is absent - prognosis is grave with a loss of deep pain longer than 48 hours.
 +
 
 +
Type II IVDD prognosis depends on the '''severity of the presenting signs''', but as there is a more chronic loss of function recovery is '''slower''' and some functional deficits may never be regained.
  
 +
Prognosis for FCE and explosive disc can be judged on the level of '''deep pain sensation and [[Peripheral Nervous System Pathology Overview|LMN function]]'''. Although clinical signs may look bad (especially to the owners), dogs with appropriate deep pain sensation have the ability to make an impressive recovery.
  
==Treatment==
+
{{Learning
With Type I IVDD you may consider immediate referral. Providing there are no cost constraints, prompt surgery to relieve the pressure on the spinal cord results in an improved prognosis and specialist refferal units are equipped to do this.
+
|flashcards = [[Small Animal Emergency and Critical Care Medicine Q&A 16]]
 +
}}
  
 +
==References==
 +
Kirby, R (1998) '''Self-Assessment Colour Review - Small Animal Emergency & Critical Care Medicine''' ''Manson''
  
*Associated with loss of water from the nucleus pulposus due to lowering of proteoglycan content
+
McKee, M (2000) '''Intervertebral disc disease in the dog 1. Pathophysiology and diagnosis''' ''In Practice 2000 22: 355-36''
**Reduces the cushioning function
 
**Can lead to herniation of the nucleus pulposus through the annular rings and impinge on the spinal cord.
 
*Breeds
 
**Dachshund (45-75% of cases), Pekingese, beagle, Lhaso apso and cocker spaniel
 
**Probably partly because all are chondrodysplastic to a varying degree
 
***Occurs in all disks simultaneously (cf: non chondrodysplastic dogs – degeneration in only one disk at a time).
 
**Chondrodysplastic dogs -> chondroid metaplasia of the nucleus pulposus, with progressive calcification
 
***Occurs at a young age … cf non-chondrodysplastic breeds , occurs as  a senile change
 
***Progressive decrease in amount of glycosaminoglycans, and changes from chondroitin sulphate to keratin sulphate over the first few years of life
 
***Hansen type I protrusions – explosive and large
 
**Non-chondrodysplastic dogs -> progressive fibrous metaplasia of the nucleaus pulposus, starting at the periphery
 
***Increased amount of type I collagen (poor at withstanding compressive loads)
 
***Can lead with time, to bulging of the remaining nucleus pulposus dorsally, as it becomes increasingly constricted by the annular fibrosa
 
***Calcification is uncommon
 
***Hansen type II protrusions -> small and progressive
 
  
 +
McKee, M (2000) '''Intervertebral disc disease in the dog 2. Management options''' ''In Practice 2000 22: 458-47''
  
 +
RVC staff (2009) '''Nervous System and Special Senses''' RVC Integrated BVetMed Course, ''Royal Veterinary College''
 
[[Category:Joints - Degenerative Pathology]]
 
[[Category:Joints - Degenerative Pathology]]
 
[[Category: To Do - Siobhan Brade]]
 
[[Category: To Do - Siobhan Brade]]
 +
[[Category:To Do - Manson review]]

Revision as of 09:35, 25 August 2011

Also Known As: IVDDHansen Type I IVDDHansen Type II IVDDFibrocartilagenous Embolic MyelopathyFCEExplosive Disc

Introduction

The term 'Intervertebral Disc Disease' (IVDD) refers to several pathological processes involving the intervertebral discs. It is common in the dog, and the type of degeneration of the disc is normally related to the breed of dog. Although any disc in the spinal column may be affects it is normally the cervical, thoracic or lumbar discs that are affected as they are less supported by surrounding structures.

Hansen Type I IVDD

In chondrodystrophic breeds such as the dachshund and the bassett hound, the nucleus propulsus undergoes chondroid degeneration. This is normal in these breeds and changes such as mineralisation are normally apparent in more than one disc by the time the dog is one year old. However extrusion of the degenerate nuclei can occur at any point, causing acute spinal cord trauma. The initial impact of the nucleus causes contusion of the spinal cord, and the extruded nucleus continues to compress the cord. This is known as Type I (Hansen) IVDD.

Type I IVDD most commonly occurs in small and chondrodystrophic breeds, but it can occur in any dog. It is most likely to occur in young to middle-aged dogs. Clinical signs are acute in onset. Neurolocalisation will depend on which disc is affected but the classic signs are a T3-L3 myelopathy (the most common localistaion) are a non-ambulatory pelvic limb para-paresis, poor paw placement and the presence of withdrawl and patellar reflexes.

  • Cervical discs - neck pain is the most common clinical sign, paresis is less common as there is more space in the vertebral canal at this point, so compression is less severe
  • Thoracolumbar discs - paresis and ataxia are the most common clinical signs
  • Lumbosacral discs - pelvic limb lameness and pain and incontinence are the most common clinical signs

Hansen Type II IVDD

Type II IVDD is more common in older, large breed dogs such as the German Shepard Dog. IVDD type II involves fibroid degeneration of the nucleus propulsus and protrusion of the annulus fibrosis. Over time the fibroid tissue in the disc is replaced by collagenous tissue. At the same time hypertrophy of the surrounding annulus occurs, causing progressive compression of the spinal cord. Mineralisation of the discs is rare.

Clinical signs are normally insidious but the dog may present acutely. It is common for the dog to only show signs of dynamic compression of the spinal cord, for example when jumping. As the onset of disease is normally gradual and progressive, so clinical signs are normally less severe on presentation. These include:

  • Yelping (unprovoked or when handled)
  • Reluctance to jump or climb
  • Low head carriage and arched back
  • Reluctance to move head and neck
  • Restlessness and panting

Fibrocartilagenous Embolic Myelopathy (FCE)

This vascular disease most is typically seen in young medium to large breed dogs but it can occur in any dog or cat. It occurs when a fibrocartilagenous emboli causes an infarction of the spinal cord parenchyma.

It is typically peracute in onset and clinical signs are non-progressive, with a classic history of a dog jumping for a toy, yelping, and collapsing with paresis. The disease is non-painful as no pain receptors are present in the spinal cord parenchyma.

'Explosive Disc'

Explosive disc is the low volume, high velocity traumatic extrusion of the normal nucleus propulsus. This causes an non-compressive contusion injury to the spinal cord. The signalment, clinical signs and history are normally similar to FCE, with the dog presenting with a non-progressive paresis of peracute onset.

Diagnosis

A thorough history, clinical exam and neurological exam should be performed on presentation. The neurological exam should reveal the severity and neuro-localisation of the disease. Motor function, proprioception, spinal reflex arcs, the location of spinal pain and most importantly the presence or absence of conscious pain perception can provide an overall picture of location and severity.

Once this has been achieved imaging modalities can be used to further localise and classify the lesion.

Radiography

Survey radiographs should be taken to identify any signs of intervertebral disc disease. These signs include:

  • A narrowing of the intervertebral disc space
  • Small or opaque intervertebral foramen
  • The presence of gas in the intervertebral foramen
  • Calcificiation of disc material overlying the vertebral canal
  • Presence of disc material in the spinal canal

Radiographs are normally taken when the animal in anaesthatised to allow appropriate positioning. Lateral and VD views should be taken. Should these radiographs fail to demonstrate the full extent of the lesion, a CSF sample should be taken to provide more information.

Myelography

Myelography involves injection of non-ionic contrast medium into the subarachnoid space, which outlines the spinal cord. It should be performed in all cases which showed no clear signs on survey radiographs, cases where the survey radiographs do not match the clinical signs, cases where the extent of the lesion in unknown and any potentially surgical cases. The procedure should be performed under general anaesthesia - often the animal will be moved directly to theatre following myelography. Myelography can identify the lesion and confirm IVDD:

1) Extradural

The contrast medium bulges towards the cord - this is the sign you would expect to see in Type I and II IVDD.

2) Intramedullary

The contrast lines are further pushed apart by an intramedullary lesion. This pattern is seen with FCE. Common differentials are neoplasia and spinal cord oedema.

3) Intradural-extramedullary

The contrast medium surrounds the lesion in these cases, producing a fork-shape in the contrast line. This is most commonly caused by a nerve root tumour.

MRI

MRI is the gold-standard for identifying IVDD, however it is generally only available in referral hospitals and is very expensive.

Treatment

With Type I IVDD you may consider immediate referral. Providing there are no cost constraints, performing prompt surgery to relieve the pressure on the spinal cord results in an improved prognosis and specialist refferal units are equipped to do this. Conservative treatment may be considered if signs are mild (presence of peen pain) and non-progressive, if performing surgery is against the owners wishes or there are significant cost constraints. Type II IVDD is treated in the same way as type I but as clinical signs are less acute, a rapid decision about the choice of treatment is rarely necessary.

Surgery

The surgical procedure performed depends on the location of the lesion. The procedure performed on a thoracolumbar lesion is a hemilaminectomy. A ventral slot is performed on cervical lesions. Generally a fenestration is made in the vertebral canal and the extruded disc material is cooped out to relieve pressure on the spinal cord. Prophylactic laminectomies may be performed on unaffected discs to prevent recurrence.

Post-operatively it is essential that the dog is placed on a program of strict cage rest and physiotherapy for a minimum of 6 weeks. NSAIDs may also be given.

Conservative Treatment

The aims of conservative treatment are to; allow the extruded disc material time to dissipate, relieving pressure on the spinal cord and; to allow the dorsal annulus to heal, preventing further extrusion of disc material. This involves strict cage rest for a minimum of 6 weeks, very short lead walk and physiotherapy. NSAIDs may also be given.

FCE and 'explosive disc' are non-progressive the appropriate treatment is supportive care (management of the recumbent animal), time and physiotherapy.

Steroid treatment is now contraindicated in acute spinal trauma.

Prognosis

Prognosis for IVDD type I depends on the severity and duration of clinical signs and the treatment options. If deep pain sensation is present and surgery is performed immediately then prognosis is good. Prognosis worsens the longer deep pain is absent - prognosis is grave with a loss of deep pain longer than 48 hours.

Type II IVDD prognosis depends on the severity of the presenting signs, but as there is a more chronic loss of function recovery is slower and some functional deficits may never be regained.

Prognosis for FCE and explosive disc can be judged on the level of deep pain sensation and LMN function. Although clinical signs may look bad (especially to the owners), dogs with appropriate deep pain sensation have the ability to make an impressive recovery.


Intervertebral Disc Degeneration Learning Resources
FlashcardsFlashcards logo.png
Flashcards
Test your knowledge using flashcard type questions
Small Animal Emergency and Critical Care Medicine Q&A 16


References

Kirby, R (1998) Self-Assessment Colour Review - Small Animal Emergency & Critical Care Medicine Manson

McKee, M (2000) Intervertebral disc disease in the dog 1. Pathophysiology and diagnosis In Practice 2000 22: 355-36

McKee, M (2000) Intervertebral disc disease in the dog 2. Management options In Practice 2000 22: 458-47

RVC staff (2009) Nervous System and Special Senses RVC Integrated BVetMed Course, Royal Veterinary College