Musculoskeletal
Spinal and Vertebral Birth Defects in Dogs
Congenital Spinal and Vertebral Malformations in Dogs
Dogs most often genetically inherit congenital spinal and vertebral malformations (as opposed to adverse conditions during fetal development). Specifically, sacrococcygeal dysgenesis (defective development) is a dominant trait, while thoracic hemivertebra (chest half-vertebra) of German shorthaired pointers is a recessive trait.
Spinal malformations are usually evident at birth or in the first few weeks of life. On the other hand, vertebral malformations can be latent until the dog undergoes a growth spurt around five to nine months of age. Visible signs of a distorted spinal column are lordosis (curvature of the spine at the lower back) and kyphosis (a posterior curvature of the spine).
Scoliosis (a lateral curvature of the spine) is also an easily visible form of vertebral malformation. If the malformations lead to secondary spinal cord compression and trauma, the affected dog will display ataxia and paresis. Medicine often does not resolve neurological manifestations of spinal and vertebral malformations. If the condition is severe and untreatable, euthanasia should be considered.
Symptoms and Types
- Malformation of the occipital bones – atlas and axis (the first and second cervical vertebrae at the base of the skull):
- Causes compression of the upper spinal cord, which can lead to paralysis, sudden death
- More common in small-breed dogs
- Hemivertebra (half a vertebra)
- Kyphosis, scoliosis, lordosis
- Wedge shaped vertebrae, causes angle in the spine
- Most likely to affect the neurological system
- Rear limb weakness (paraparesis), paralysis
- May remain without symptoms
- Affects breeds with a short skull, and “screw-tailed” breeds (may be desired in some breeds)
- Pugs, Boston terriers, French and English bulldogs
- Transitional vertebra
- Has characteristics of two types of vertebrae
- May result in cord compression, disc changes
- Block vertebra
- Fused vertebrae due to improper segmentation of vertebrae
- Animal may live normally without symptoms
- Butterfly vertebra (vertebra with a cleft through the body and a funnel shape at the ends):
- Vertebra with a cleft through the body and a funnel shape at the ends (giving appearance of butterfly on X-ray examination)
- Causes instability of the vertebral canal, and rarely, compression of the spinal cord with paralysis
- Sacrococcygeal dysgenesis
- Defective formation of lowest vertebrae in the spine
- Associated with spina bifida (lack of vertebral arches in the spinal column)
- Spina bifida
- Variable spinal dysplasia (abnormal development); dysraphism (defective spinal fusion); syringomyelia (cyst in the spinal cord); hydromyelia (enlarged central canal in the spinal cord where excess cerebrospinal fluid builds up); and myelodysplasia (defective development of the bone marrow)
- Dog may not show symptoms
- Bulldogs, pugs, Boston terriers
- Myelodysplasia
- Defective development of the bone marrow
- Weimaraners
- Congenital spinal stenosis (narrowing of the spinal canal – malformation from birth, hereditary)
- Chondrodystrophic (dwarf) breeds
- Basset hound, beagle, dachshunds, lhasa apso, shih tzu, Pekingese
- Doberman pinschers are also genetically disposed
Causes
- Genetic inheritance
- Possibly, exposure of pregnant bitches to:
- Compounds causing birth defects during fetal development
- Toxins
- Nutritional deficiencies
- Stress
Diagnosis
You will need to give your veterinarian a thorough history of your dog’s health and onset of symptoms. A full physical exam will be performed. X-rays of the spinal column (including all vertebrae) can often reveal the exact malformation. If neurological signs (paralysis) are present, a myelography can be used to indicate with precision at which level the spinal cord is compressed. This imaging technique uses a radiopaque substance that is injected into the spine, or into the membranous space that surrounds the spinal cord so that the defects in the spine will be visible on X-ray projections.
Computed tomography (CT) and magnetic resonance imaging (MRI) may also be helpful, and are in some cases much more sensitive than X-rays. However, myelography is generally the diagnostic imaging technique of choice.
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