Intervertebral Disk Disease

canine lateral spine

WHAT IS A DISK?

Most people are aware of the fact that the backbone is not just one long, tubular bone. The backbone (or spine) is actually made of numerous smaller bones called “vertebrae” which house and protect the spinal cord. The fact that numerous vertebrae make up the spine allows for flexibility of the back. The vertebrae are connected by special joints called “intervertebral disks.”

Intervertebral Disk

The disk serves as a cushion between the vertebral bodies of the vertebrae. It consists of a fibrous outer shell (called the “annulus fibrosus”), a jelly-like interior (called the “nucleus pulposus”), and cartilage caps on each side connecting it to the vertebral bones. Ligaments run below and above the discs, with the ligament above the discs being particularly rich in sensitive nerves. These ligaments are called the “dorsal” (above) and “ventral” (below) longitudinal ligaments.

 

Skeleton of a dog

There are 7 cervical (neck) vertebrae, 13 Thoracic (chest) vertebrae, 7 lumbar (lower back) vertebrae, 3 sacral vertebrae (which are fused), and a variable number of tail vertebrae.

TYPE I AND TYPE II DISK DISEASE

There are two types of disease that can afflict the intervertebral disk causing the disk to press painfully against the spinal cord: Hansen Type I Disk Disease and Hansen Type II Disk Disease. In Type I Disk Disease, the nucleus pulposus becomes calcified (mineralized). A wrong jump by the patient causes the rocklike disk material to shoot out of the annulus fibrosus. If the disk material shoots upward, it will press painfully on the ligament above and potentially cause compression of the spinal cord further above.

Type II Disk Disease is a much slower degenerative process. Here the annulus fibrosus collapses and protrudes upward creating a more chronic problem with pain and spinal cord compression.

Hansen Type I Disk Disease

Hansen Type II Disk Disease

Nucleus pulposus is shown in blue.
Normal disk on the left shows nucleus pulposus
happliy inside the annulus fibrosis.
On the right the nucleus pulposus has herniated upward into the dorsal longitudinal ligament and spinal cord, creating swelling and inflammation.

Again the normal disk is on the left (although in this diagram we did not
draw in the nucleus pulposus). On the
right the disk has been squashed between
the adjacent vertebral bodies and the
annulus fibrosis is bulging into the dorsal longitudinal ligament and spinal cord.

The condition where disk material presses against the ligament above and spinal cord is called “Disk Herniation.”

The most common sites of disk herniation are T11 - T12
(between the 11th and 12th thoracic vertebrae)
and L2 - L3 (between the 2nd and 3rd lumbar vertebrae).

Cervical (neck) disk herniations occur in 15% of disk herniation patients
but 80% of these patients are dachshunds, beagles, or poodles.

(C2 - C3 (between the 2nd and 3rd cervical vertebrae)
is the most common site of disk herniation in the neck.)

The area of the back or neck just over the disk involved is generally painful (whereas many degenerative spinal processes are not painful). In milder cases, pain at the site of the disk may be the only symptom. As inflammation increases in the spinal cord, neurologic deficits can occur. Disk herniations in the neck tend to have more pain and less dysfunction.

The first thing to go is what is called “conscious proprioception.” This concept refers to the ability to perceive where one’s feet are and orient them properly. The examiner will turn the foot over so that the top of the foot is on the ground and will see if the patient replaces the foot in the proper position. Dogs with poor proprioception will scuff their toes or even occasionally fail to flip their feet while walking and will walk on the tops of their feet. Nerves responsible for conscious proprioception are located on the outside of the spinal cord so when the disk herniates, these nerves feel the pressure first.

After that go the nerves for voluntary motion (including voluntary control of urination/defecation), followed by the nerves for superficial pain perception and ultimately the nerves for deep pain perception (usually tested by applying a strong pinch to the toe).

HANSEN TYPE I DISK HERNIATION

DachshundAs mentioned, in Hanson Type I disk herniation, the nucleus pulposus becomes dehydrated and mineralized. It loses its gelatinous cushioning properties and suddenly extrudes, slapping right into the spinal cord and its tender surrounding ligaments. The classic victim is a young dog of a breed that involves a long back and short legs, though any conformation dog can be affected. The damage to the spinal cord can range from mild inflammation to total destruction.

German Shepherd 2HANSEN TYPE II DISK HERNIATION

Here the degeneration is slower and the fibers of the annulus fibrosus become soft. As the disk is compressed by the normal forces between the vertebrae, the annulus fibrosus bulges upwards and puts pressure on the spinal cord more slowly. The classic victim here is an older large breed dog. The German Shepherd dog seems predisposed.

DIAGNOSTICS

When presented with a patient with spinal weakness, it is important to determine whether the problem involves spinal cord compression. This is important because compressive lesions can benefit from surgery while degenerative lesions cannot. A compressive lesion in the spinal cord does not have to be a disk herniation; it could be a vertebral fracture or dislocation, a tumor, or a disk infection. A non-compressive lesion will not benefit from surgery. Such lesions include: spinal degeneration, spinal infection or inflammation, demyelination injuries, or fibrocartilaginous embolism.

Step One: The Neurologic Examination
By testing different reflexes, the doctor can localize the area of the spinal cord that is affected. This might be the cervical area (neck), the thoracolumbar area (where the chest and abdomen come together), the lumbar (lower back), or the sacral area (where the tail starts). The thoracic area of the spinal cord is usually spared in disk disease because the ligaments connecting the ribs to the back provide extra protection for the spinal cord.

Step Two: Plain Radiographs

spine radiograph

While advanced modes of imaging such as MRI and CT scanning are not available to most veterinary hospitals, plain radiography usually is. It is also relatively inexpensive compared to other forms of imaging. The first step of imaging typically involves plain radiographs to rule out obvious spinal issues. Broken bones or dislocations are generally obvious. Calcified disks and disk space collapse can often be seen. The location of a disk herniation can be determined in 50-75% of disk cases. Radiography of the neck requires general anesthesia or sedation to get proper relaxation of the muscles.

Step Three: Advanced Imaging

If surgery is being considered, then it becomes necessary to identify the exact disk space involved so that the surgeon will know where to cut. Classically, myelography has been the next step. Myelography requires general anesthesia and the injection of iodine based dye around the spinal cord. The image of the dye can be seen to narrow at the area of spinal cord compression identifying the area of compression in 85-95% of cases. The patient typically then goes directly to surgery without even waking from anesthesia. As a general rule, there is not much point in performing a procedure to specifically localize a compressive lesion unless surgery is being considered.

disc hernia radiograph

Myelogram showing dye column obstructed
between the 5th and 6th cervical vertebrae (where arrow is)

As CT becomes more available, a scan is often performed in addition or instead of a myelogram. This gives an even more accurate image of the disk herniation and its location (as well as whether there is more than one disk involved).

TREATMENT

Once it is clear from the plain radiographs and neurologic examination that the patient has disk disease, the decision must be made as to whether or not surgery should be pursued. Spinal surgery is very expensive and requires a long recovery period but may be the best choice if the dog is to regain normal function. There are some general rules that are typically applied in making this decision:

  • If the dog cannot walk, surgery affords the best chance at recovery.
     
  • If the dog can walk, medical (non-surgical) treatment is a reasonable choice but this also depends on how much pain the patient is in.
     
  • The longer the neurologic deficits have been going on, the poorer the results of treatment.
     
  • If the dog cannot walk but deep pain is present in the limbs, there is a 83-90% success rate for recovery with surgery.
     
  • If the dog has been unable to walk, has no deep pain perception in the limbs but has only been down less than 48 hours, success with surgery drops to 50%. After 48 hours in this situation, prognosis is much worse and it may not be worth considering surgery.
     
  • If the dog cannot walk, medical management may still have success though surgery is definitely more likely to yield success.

LOSING THE ABILITY TO WALK IS AN EMERGENCY!

MEDICAL/CONSERVATIVE TREATMENT (NO SURGERY)

It would be wonderful if there were a magic medication that could completely relieve the pain and inflammation in the spinal cord but, sadly, medications are merely of secondary importance here. While, medication can be used to assist in recovery the centerpiece of therapy is CONFINEMENT. Confinement must be strict which means a cage or pen must be provided. This will be difficult as the dog will typically not want to be isolated and may cry or fuss. An owner will be tempted to say that the painful dog will confine himself. In reality, poor results in a dog are almost always traceable to inadequate confinement and if cage rest is not possible at home, consider boarding the dog at the veterinary hospital to ensure proper rest. The dog can be walked (or carried) outside to urinate and defecate but then must be walked (or carried) right back in.

THREE WEEKS OF CAGE REST IS A MINIMUM COURSE.
AFTER THIS TIME, THE PATIENT CAN TAKE ANOTHER
2-3 WEEKS TO GRADUALY RESUME NORMAL ACTIVITY.

Medications typically accompany confinement. Steroids, non-steroidal anti-inflammatories, muscle relaxants, and pain relievers are commonly prescribed. Often the patient is hospitalized for the first week or so of confinement so that can be accompanied by injectable medications and progress can be monitored. Ice packs applied for 10-15 minutes (with a cloth separating the ice pack from the dog) is also helpful in relieving inflammation. During the first 3-5 days of an acute episode, icing can be performed as many times daily as possible ultimately tapering to three times daily for the duration of the confinement (or for as long as there is pain).

MORE PHYSICAL THERAPY EXERCISES THAT ARE HELPFUL|
DURING THE FIRST 3-4 WEEKS OF CONFINEMENT

  1. Massage the area gently to improve circulation to the area. This is done as many times a day as possible during the first 3-5 days and after that drop to three times daily.
     
  2. Sensory input is important caudal to the spinal lesion. This entails tickling and pinching the toes. (A withdraw reflex should be elicited. The idea is to make the dog aware of the feet.)
     
  3. Traction exercise: pick up the dog from the front end under the arm pits and dangle him. This is done 10 times daily to start and down to 3 times daily by the third week.
     
  4. Traction exercise (can be done lying down or standing). Pull the tail at its natural angle for 30 seconds or so. This is done 10 times daily to start and drop down to three times daily by the third week.
     

PHYSICAL THERAPY EXERCISES THAT ARE HELPFUL AFTER THE INITIAL 3-4 WEEKS CONFINEMENT PERIOD OR WITH MORE CHRONIC DISK CASES

  1. Stand the dog up and see how long it takes before he had to sit or lie down. Do not push the dog to exhaustion. For example, if he sits after 30 seconds then the standing exercise should be 20 seconds. Assist standing as needed.
     
  2. Stand the dog and gently push him to one side. Do 5 reps, 3x daily. This is a balance exercise.
     
  3. Have the dog sit and then stand. Do 5 reps, 3x daily. This is a strengthening exercise.
     
  4. While the dog is walking, follow along and twist and pinch the tip of the tail. This also improves awareness of where the limbs and tail are.
     
  5. Walk the dog on lumpy ground. An obstacle course can be made by putting broomsticks or a ladder on the ground, setting up a wastebasket to walk around etc. The dog should be walked through this three times daily.
     
  6. Flexibility exercise involves 60 very small food treats. The dog is standing (assist if needed). The treat is held up (skyward) so the dog must reach for the treat. This is done 15 times. The treat is held down at chest level so the dog must reach down for the treat. This is done 15 times. The treat is held just at the shoulder blade so the dog must reach for it. This is done 15 times on the right and 15 times on the left. The treat is held back at the level of the hip so the dog must reach around for the treat. This is done 15 times for the right and 15 times for the left.
     

The dog should at no time be left free to run and jump during this period even if he seems to be feeling good. Agility, jumping and fetching games or other performance activities are best removed from the dog’s lifestyle permanently lest another disk herniated.

Patients who have suddenly lost the ability to walk may be treated conservatively as above but their best chance at regaining the ability to walk is with surgery.

SURGERY

Hemilaminectomy

Hemilaminectomy

“Arial” view of vertebrate. See how the bone has been removed to make room for the swollen spinal cord and nerve root. Herniated disk material can also be removed. This is called a hemi laminectomy because surgery is performed on one side.

Several procedures can be used to decompress the spinal cord and remove the disk material. Several common procedures one may hear about are: hemilaminectomy, pediculectomy, dorsal laminectomy, ventral slot, and fenestration.

 

Hemilaminectomy
This is most commonly performed on disk herniations in the thoracolumbar area. In this surgery the articular facets (where the two vertebrae connect) are removed as is the vertebral bone adjacent to the spinal cord. This procedure can safely be performed over up to 5 adjacent disk spaces.

 

Pediculectomy

Dorsal Laminectomy

Dorsal Laminectomy
Entire top of vertebra has been removed to make room for swolen spinal cord

Similar to hemilaminectomy except only the articular facets are preserved. This is best performed when the disk herniation is slightly off to the side rather than straight upward. This procedure is less invasive and less destabilizing to the vertebrae than is hemilaminectomy.

Pediculectomy

Pediculectomy
“Pedicular” bone is removed from the vertebrae to create room for the spinal cord but the articular facets are preserved above

 

 

 

 

 

 

 

 

 

 

Dorsal Laminectomy
This is probably the most invasive of all the procedures and involves decompressing the spinal cord from the top rather than from the bottom. It can only be done over one disk space and involves removing the dorsal spinous process and lamina as shown below.
 

Ventral Slot
This procedure is reserved for neck disks. Here a slot is drilled in the vertebral bodies of the bones on either side of the disk creating a small window over the disk space. Mineralized disk material can be removed and, since the window includes adjacent bone, there is room for the swollen spinal cord to decompress.

Fenestration
This is a preventive procedure often performed on the disk spaces near the herniated space. It involves making a slit over the annulus fibrosus and removal of any mineralized nucleus pulposus. For some patients, this is the only surgery needed but it is not truly a decompressive surgery. Whether or not fenestration truly reduces the chance of recurrence of signs is a controversial subject.

Recovery after Surgery
The goal of surgery is to restore the pet’s quality of life. In most cases this means return of the ability to walk. How long it takes the patient to walk again after surgery is highly dependent on how much dysfunction was present prior to surgery. Patients with voluntary motor control commonly recovery the ability to walk within 2 weeks while those with deep pain but no voluntary motor control might require up to 4 weeks. Nursing care for a dog that cannot walk can be intense including expressing the patient’s bladder, keeping the patient bedded, and performing physical therapy exercises. Check with your surgeon regarding the exercises listed above as to which might be recommended for your particular pet.

dog in cartWHEN THE PET IS NOT EXPECTED TO WALK

Taking care of a dog that is “down in back” is a big project definitely not something that every dog owner is able to commit to. Still, it can be done and for the right dog and the right person, it is a highly rewarding experience. A great deal of progress can often be made using physical therapy exercises as described above plus there are a number of resources and products available to assist in the care of the immobile pet. Click here for more information on what is involved in this situation.

MORE ON PHYSICAL THERAPY

Physical therapy for pets is a relatively new field of specialization and we are finding that rehabilitation exercises make a huge difference to patient comfort and ability in many situations. Our area is fortunate enough to have a rehabilitation clinic where therapy programs can be devised and/or carried out. For consultation information see the link below:

CARE

(310) 998-2273

To find a physical therapist for your pet outside of the Los Angeles area, please use this link:

www.caninerehabinstitute.com/Find_A_Therapist.html

Page posted: 8/27/10
Page last updated: 6/1/2012