Congenital Dz Flashcards
Three categories of congenital disorders
Congenital anomalies
Normal skeletal variants
Skeletal dysplasias
______ are the result of faulty development and can grouped according to the features of the disease:
Proximal or distal limb shortening
Sclerosis of osseous structures
Specific spinal abnormalities
Agenesis or duplication of specific anatomic structures
Skeletal dysplasias
Congenital stenosis of spinal canal and foramen magnum
Prone to hydrocephalus
Altered biomechanics for early DJD (fibular head at level of tibial plateau)
Decreased acetabular angle (FAI?)
Achondroplasia
Multiple enostomas about the skeleton…largely about joints
“dont touch me” lesion
Osteopoikilosis
A “block vertebrae” = a lack of segmentation and separation of the craniovertebral junction
May be partial or complete
Radiographs:
Decreased or absent space between posterior arch of C1 and occiput
Occipitalization of the atlas
May cause compression of the medulla oblongata and spinal cord by the dens protruding through the foramen magnum
May be associated with other conditions, e.g., Arnold-Chiari malformation, atlantoaxial instability, Klippel-Feil syndrome
MRI – valuable to detect any associated neural or vascular anomalies
Occipitalization of the atlas
Easily seen on lateral radiographs as a lack of a bony posterior neural arch
Commonly also see enlargement of the C2 spinous process, aka “mega-spinous process”
May also see increased size or density of the C1 anterior tubercle (stress related)
Agenesis of the C1 posterior arch
May have compromise of the transverse ligament; need flexion lateral view
Calcification/ossification of the atlanto-occipital ligament
May be partial or complete, forming an arcuate foramen
Unilateral (m/c) or bilateral
Posterior ponticle
A smooth, wide, lucent defect separates the odontoid process from the C2 body
Stress hypertrophy of the anterior tubercle of C1
Os odontoideum
_______ + high-velocity injury can produce central cord syndrome or fatal injury
May have atlantoaxial instability, or compression of the vertebral artery from stretching of the artery during C1 subluxation
Need flexion/extension lateral views; maybe also MRI
Os odontoideum
Failure of segmentation
Body +/- posterior elements
Radiographic features:
Diminished AP diameter of the vertebral body
Concave anterior margins of the vertebrae, aka “wasp waist”
Hypoplastic/rudimentary disc space
Block vertebrae
Triad of short, webbed neck, low hairline, and decreased C/S range of motion (multiple block vertebrae)
May also include scoliosis or Sprengle’s deformity
Includes genitourinary, nervous and cardiopulmonary anomalies
Klippel-Feil syndrome
An anomalous rib that forms a joint with a transverse process that is oriented in a caudal direction (cervical)
Variable length
No clinical significance
Cervical rib
Failure of the lateral ossification centers to unite
On the AP view there is an hourglass central lucency with indentation of the endplate cortices toward the central body and slight increase in the interpediculate distance
The halves are usually symmetrical; therefore, scoliosis is not associated
Butterfly vertebrae
T/S and L/S
Failure of one of the lateral ossification centers to grow
Results in a triangular deformity of the body with the endplates tapering to a point
An isolated ______ will cause a structural scoliosis, the _______ at the apex of the curve
Usually associated with other spinal anomalies
Hemivertebra
