10 Computed Tomography of Spinal Abnormalities(Table 10.1 – Table 10.2)



10.1055/b-0034-75794

10 Computed Tomography of Spinal Abnormalities(Table 10.1 – Table 10.2)



































































































Table 10.1 Spine: Congenital and developmental abnormalities

Lesions


CT Findings


Comments


Congenital


Chiari I malformation


Fig. 10.1


Cerebellar tonsils extend > 5 mm below the foramen magnum in adults, 6 mm in children younger than 10 y. Syringohydromyelia in 20% to 40%; hydrocephalus in 25%; basilar impression in 25%. Less common association: Klippel–Feil syndrome, atlanto-occipital assimilation.


Cerebellar tonsillar ectopia. Most common anomaly of central nervous system (CNS). Not associated with myelomeningocele.


Chiari II malformation (Arnold–Chiari malformation)


Fig. 10.2


Small posterior cranial fossa with gaping foramen magnum through which there is an inferiorly positioned vermis associated with a cervicomedullary kink; beaked dorsal margin of the tectal plate. Myeloceles or myelomeningoceles seen in nearly all patients. Hydrocephalus and syringohydromyelia are common. Dilated lateral ventricles are seen posteriorly (colpocephaly).


Complex anomaly involving the cerebrum, cerebellum, brainstem, spinal cord, ventricles, skull, and dura. Failure of fetal neural tube to develop properly results in altered development affecting multiple sites of the CNS.


Chiari III malformation


Features of Chiari II plus lower occipital or high cervical encephalocele.


Rare anomaly associated with high mortality.


Myelomeningocele/myelocele


Posterior protrusion of spinal contents and unfolded neural tube (neural placode) through defects in the bony dorsal elements of the involved vertebrae or sacral elements. The neural placode is usually located at the lower lumbar-sacral region with resultant tethering of the spinal cord. If the neural placode is flush with the adjacent skin surface, the anomaly is labeled a myelocele. If the neural placode extends above the adjacent skin surface, the anomaly is labeled a myelomeningocele; with or without syringohydromyelia.


Failure of developmental closure of the caudal neural tube results in an unfolded neural tube (neural placode) exposed to the dorsal surface in the midline without overlying skin. Other features associated with myelomeningoceles and myeloceles include dorsal bony dysraphism, deficient dura posteriorly at the site of the neural placode, and Chiari II malformations. By definition, the spinal cords are tethered. Usually repaired surgically soon after birth.


Terminal myelocystocele


Posterior lower spina bifida through which the distal portion of a tethered spinal cord (containing a localized cystic dilation), cerebrospinal fluid (CSF), and meninges extends beneath the dorsal subcutaneous fat.


Represent 1% to 5% of skin-covered masses at dorsal lumbosacral region. Anomalous development of the lower spinal cord, vertebral column, sacrum, and meninges, with or without association with anomalies of genitourinary tract (epispadias, caudal regression syndrome, and anomalies of the genitourinary system and hindgut).


Lipomyelocele/lipomyelomeningocele


Unfolded caudal neural tube (neural placode) covered by a lipoma that is contiguous with the dorsal subcutaneous fat through defects (spina bifida) involving the bony dorsal vertebral elements. The neural placode is usually located at the lower lumbar-sacral region with resultant tethering of the spinal cord, with or without syringohydromyelia. With lipomyelo meningocele, the dorsal lipoma that extends into the spinal canal is asymmetric, resulting in rotation of the placode and meningocele.


Failure of developmental closure of the caudal neural tube results in an unfolded neural tube (neural placode) covered by a lipoma that is contiguous with the subcutaneous fat. The overlying skin is intact, although the lipoma usually protrudes dorsally. The nerve roots arise from the placode. Features associated with lipomyelomeningoceles and lipomyeloceles include tethered spinal cords, dorsal bony dysraphism, and deficient dura posteriorly at the site of the neural placode. Not associated with Chiari II malformations. Diagnosis often in children, occasionally in adults.


Intradural lipoma


Focal dorsal dysraphic spinal cord attached to a lipoma with low attenuation that often extends from the central canal of the spinal cord to the pial surface; intact dorsal dural margins and posterior vertebral elements.


Intradural lipomas are usually in the cervical or thoracic region.


Diastematomyelia


Division of spinal cord into two hemicords usually from T9 to S1, with or without fibrous or bony septum partially or completely separating the two hemicords. Hemicords located either within a common dural tube (50%, type I) or within separate dural tubes (50%, type II), with or without syringohydromyelia at, above, or below the zone of diastematomyelia. Often associated with tethering of the conus medullaris, osseous anomalies (spina bifida with laminar fusion, butterfly vertebrae, hemivertebrae, and block vertebrae). Diastematomyelia seen in 15% of patients with Chiari II malformations.


Developmental anomalies related to abnormal splitting of the embryonic notochord with abnormal adhesions between the ectoderm and endoderm. Can present in children with clubfeet or adults and children with neurogenic bladder, lower extremity weakness, and chronic pain; with or without association with nevi, lipomas.


Os odontoideum


Fig. 10.3a, b


Separate corticated bony structure positioned superior to the C2 body at site of normally expected dens, often associated with enlargement of the anterior arch of C1 (may sometimes be larger than os odontoideum).


Independent bony structure positioned superior to the C2 body at site of normally expected dens, often associated with hypertrophy of the anterior arch of C1, with or without cruciate ligament incompetence/instability (with or without zone of high signal on T2-weighted images in spinal cord). Os odontoideum associated with Klippel–Feil anomaly, spondyloepiphyseal dysplasia, Down syndrome, and Morquio syndrome. Etiology suggested to be normal variant or childhood injury (before age 5–7 y) with fracture/separation of the cartilaginous plate between the dens and body of axis.


Ossiculum terminale


Fig. 10.4a, b


Small corticated bone located cranial to the dens and superior to the level of the transverse ligament.


Congenital nonunion of the upper margin of the dens with a terminal ossicle located superior to the transverse ligament. No associated spinal instability.


Short pedicles: congenital/developmental spinal stenosis


Narrowing of the anteroposterior dimension of the thecal sac to < 10 mm resulting predominantly from developmentally short pedicles. May occur at one or multiple levels.


Developmental variation with potential predisposition to spinal cord injury from traumatic injuries or disk herniations, as well as early symptomatic spinal stenosis from degenerative changes.


Achondroplasia


Fig. 10.5


Anomalies of vertebrae: Shortening and flattening of vertebral bodies, with or without anterior wedging of one or multiple vertebral bodies, shortened pedicles with spinal stenosis.


Achondroplasia represents a congenital type of osteochondrodysplasia that results in short-limbed dwarfism (decreased rate of endochondral bone formation). Usually autosomal dominant/sporadic mutations.


 


Anomalies at the craniovertebral junction: Small foramen magnum, basioccipital hypoplasia, odontoid hypoplasia, basilar invagination, hypertrophy of posterior arch of C1, platybasia, and atlanto-occipital dislocation.


 


Klippel–Feil anomaly


Fig. 10.6


Fusion of vertebral bodies that have either a narrow tall configuration or wide/flattened configuration, absent or small intervening disk, with or without fusion of posterior elements, occipitalization of atlas, congenital scoliosis, and kyphosis.


Represents congenital fusion of two or more adjacent vertebrae resulting from failure of segmentation of somites (third to eighth weeks of gestation). Can be associated with Chiari I malformations, syringohydromyelia, diastematomyelia, anterior meningocele, and neurenteric cyst.


Hemivertebrae


Fig. 10.7


Wedge-shaped vertebral body, with or without molding of adjacent vertebral bodies toward shortened side of hemivertebra.


Disordered embryogenesis in which the paramedian centers of chondrification fail to merge, resulting in failure of formation of the ossification center on one side of the vertebral body; with scoliosis.


Butterfly vertebra


Paired hemivertebrae with constriction of height in midsagittal portion of vertebral body, with or without molding of adjacent vertebral bodies toward midsagittal constriction.


Disordered embryogenesis in which there is persistence of separate ossification centers in each side of the vertebral body (failure of fusion).


Tripediculate vertebra


Fig. 10.8a, b


Wedge-shaped vertebral body containing two pedicles on enlarged side and one pedicle on the shortened side; may be multiple levels of involvement, with or without adjacent hemivertebrae, with or without molding of adjacent vertebral bodies toward shortened side of involved segments; with scoliosis.


Disordered embryogenesis at more than one level with asymmetric malsegmentation, with scoliosis.


Spina bifida occulta


Minimal defect near midline where laminae do not fuse; no extension of spinal contents through defect. Most commonly seen at the S1 level; other sites include C1, C7, T1, and L5.


Mild anomaly with failure of fusion of dorsal vertebral arches (laminae) in midline; usually benign normal variation.


Spina bifida aperta (spina bifida cystica)


Fig. 10.9a, b


Wide defect where lamina are unfused, and through which spinal contents extend dorsally (myelocele, myelomeningocele, meningocele, lipomyelocele, lipomyelomeningocele, myelocystocele).


Usually associated with significant clinical findings related to the severity and type of neural tube defect.


Meningoceles


Vertebral defect either from surgical laminectomies or congenital anomaly. Sacral meningoceles can alternatively extend anteriorly through a defect in the sacrum.


Meningoceles resulting from congenital dorsal bony dysraphism. Anterior sacral meningoceles can result from trauma or be associated with mesenchymal dysplasias (neurofibromatosis 1 [NF1], Marfan syndrome, and syndrome of caudal regression).


Syndrome of caudal regression


Fig. 10.10a –c


Partial or complete agenesis of sacrum/coccyx, with or without involvement of lower thoracolumbar spine. Symmetric sacral agenesis > lumbar agenesis > lumbar agenesis with fused ilia > unilateral sacral agenesis. Prominent narrowing of thecal sac and spinal canal below lowermost normal vertebral level; with or without myelomeningocele, diastematomyelia, tethered spinal cord, thickened filum, and lipoma.


Congenital anomalies related to failure of canalization and retrogressive differentiation resulting in partial sacral agenesis and/or distal thoracolumbar agenesis; with or without association with other anomalies, such as imperforate anus, anorectal atresia/stenosis, malformed genitalia, and renal dysplasia. May not have clinical correlates in mild forms; with or without distal muscle weakness, paralysis, hypoplasia of lower extremities, sensory deficits, lax sphincters, and neurogenic bladder.

Fig. 10.1 Chiari I malformation. Sagittal image shows extension of the cerebellar tonsils below the foramen magnum to the level of the posterior arch of C1, as well as a normal-shaped fourth ventricle.
Fig. 10.2 Chiari II malformation. Sagittal image shows a small posterior cranial fossa, inferior extension of the cerebellum through a widened foramen magnum, and an abnormal-shaped fourth ventricle.
Fig. 10.3a, b Os odontoideum. Sagittal (a) and coronal (b) images show a corticated bony structure positioned superior to the C2 body at the site of a normally expected dens (arrows).
Fig. 10.4a, b Ossiculum terminale. Coronal (a) and sagittal (b) images show a small corticated bone located cranial to the dens and superior to the level of the transverse ligament.
Fig. 10.5 Achondroplasia. Axial image shows a narrow foramen magnum.
Fig. 10.6 Klippel-Feil syndrome. Sagittal image shows a segmentation anomaly involving the C3 and C4 vertebral bodies, which have narrowed anteroposterior dimensions with a small intervening disk. Partial fusion of the posterior elements is also seen involving these vertebrae.
Fig. 10.7 Hemivertebra. Volume-rendered image shows a hemivertebra causing scoliosis (arrow).
Fig. 10.8a, b Tripediculate vertebra. Sagittal (a) and coronal (b) images show a vertebra with two pedicles on the left side and one pedicle on the right.






































































































































































Table 10.2 Solitary osseous lesions involving the spine

Lesions


CT Findings


Comments


Neoplasms (malignant)


Metastatic tumor


Single or multiple well-circumscribed or poorly defined infiltrative lesions involving the vertebral marrow, dura, and/or leptomeninges; low to intermediate attenuation; may show contrast enhancement, with or without medullary and cortical bone destruction (radiolucent), with or without bone sclerosis, with or without pathologic vertebral fracture, with or without epidural tumor extension causing compression of neural tissue or vessels. Leptomeningeal tumor often best seen on postcontrast images.


May have variable destructive or infiltrative changes involving single or multiple sites of involvement.


Myeloma/plasmacytoma


Fig. 10.11a, b


Multiple (myeloma) or single (plasmacytoma), well- circumscribed or poorly defined, diffuse infiltrative radiolucent lesions involving the vertebra (e), and dura; involvement of vertebral body lesions typically radiolucent/bone lysis, rarely involves posterior elements until late stages, low to intermediate attenuation; may show contrast enhancement. Pathologic vertebral fracture, with or without epidural tumor extension causing compression of neural tissue or vessels.


May have variable destructive or infiltrative changes involving the axial and/or appendicular skeleton.


Lymphoma and leukemia


Single or multiple, well-circumscribed or poorly defined, infiltrative radiolucent lesions involving the marrow of the vertebrae, dura, and/or leptomeninges; low to intermediate attenuation, pathologic vertebral fracture, with or without epidural tumor extension causing compression of neural tissue or vessels. May show contrast enhancement, with or without bone destruction. Diffuse involvement of vertebra with Hodgkin lymphoma can produce bone sclerosis, as well as an “ivory vertebra” pattern that has diffuse high attenuation. Leptomeningeal tumor often best seen on postcontrast images.


May have variable destructive or infiltrative marrow/bony changes involving single or multiple vertebral sites. Lymphoma may extend from paraspinal lymphadenopathy into the spinal bone and adjacent soft tissues within or outside the spinal canal or initially involve only the epidural soft tissues or only the subarachnoid compartment. Can occur at any age (peak incidence third to fifth decades).


Chordoma


Fig. 10.12a–d


Well-circumscribed, lobulated radiolucent lesions, low to intermediate attenuation, usually shows contrast enhancement (usually heterogeneous); locally invasive associated with bone erosion/destruction; usually involves the dorsal portion of the vertebral body with extension toward the spinal canal. Also occurs in sacrum.


Rare, slow-growing tumors (~3% of bone tumors); usually occur in adults 30 to 70 y old; M > F (2:1); sacrum (50%) > skull base (35%) > vertebrae (15%).


Chondrosarcoma


Fig. 10.13a–c


Lobulated radiolucent lesions, low to intermediate attenuation, with or without matrix mineralization; may show contrast enhancement (usually heterogeneous); locally invasive associated with bone erosion/destruction, encasement of vessels and nerves; can involve any portion of the vertebra.


Rare, slow-growing malignant cartilaginous tumors (~16% of bone tumors), usually occur in adults (peak in fifth to sixth decades), M > F; sporadic (75%), malignant degeneration/transformation of other cartilaginous lesion, enchondroma, osteochondroma, etc. (25%).


Osteogenic sarcoma


Fig. 10.14a, b


Destructive malignant lesions, low to high attenuation, usually with matrix mineralization/ossification within lesion or within extraosseous tumor extension; can show contrast enhancement (usually heterogeneous). Cortical bone destruction and epidural extension of tumor can compress the spinal canal and spinal cord.


Malignant bone lesions rarely occur as primary tumor involving the vertebral column; locally invasive, high metastatic potential. Occurs in children as primary tumors and adults associated with Paget disease, irradiated bone, chronic osteomyelitis, osteoblastoma, giant cell tumor, and fibrous dysplasia.


Ewing sarcoma


Destructive malignant lesions involving the vertebral column, radiolucent with low to intermediate attenuation; typically lack matrix mineralization; can show contrast enhancement (usually heterogeneous). Cortical bone destruction and epidural extension of tumor can compress the spinal canal and spinal cord.


Usually occurs between the ages of 5 and 30, M > F; rarely occurs as primary tumor involving the spinal column; locally invasive, high metastatic potential.


Malignant fibrous histiocytoma (MFH)


Tumors are often associated with zones of cortical destruction and extraosseous soft tissue masses. Tumors have low to intermediate attenuation, can show contrast enhancement. Cortical bone destruction and epidural extension of tumor can compress the spinal canal and spinal cord.


Malignant tumors involving soft tissue and rarely bone that are presumed to derive from undifferentiated mesenchymal cells. The World Health Organization (WHO) now uses the term undifferentiated pleomorphic sarcoma for pleomorphic MFH.


Hemangioendothelioma


Lesions usually have sharp margins that may be slightly lobulated and often have low to intermediate attenuation; can be intraosseous radiolucent lesions or extradural soft tissue lesions. Can be multifocal. Extraosseous extension of tumor through zones of cortical destruction can be seen. Lesions can show contrast enhancement.


Vasoformative/endothelial low-grade malignant neoplasms that are locally aggressive and rarely metastasize compared with high-grade angiosarcoma.


Hemangiopericytoma


Tumors often have well-defined margins; intraosseous lesions can be radiolucent with or without lobulated margins; extraosseous lesions can have low to intermediate attenuation. Lesions may contain slightly prominent vessels centrally or peripherally, with or without hemorrhagic zones. Can show contrast enhancement.


Rare malignant tumors of pericytic origin that occur in soft tissues and less frequently in bone.


Neoplasms (benign)


Enchondroma


Lobulated radiolucent lesions, low to intermediate attenuation, with or without matrix mineralization; can show contrast enhancement (usually heterogeneous). Locally invasive associated with bone erosion/destruction; usually involves posterior elements.


Rare, slow-growing tumors (~12% of bone tumors); usually occur in children and young adults (10–30 y), M > F.


Chondroblastoma


Tumors are typically radiolucent with lobular margins and typically have low to intermediate attenuation. Up to 50% have chondroid matrix mineralization. May show contrast enhancement. Cortical destruction is uncommon. Bone expansion secondary to the lesion can result in spinal cord compression.


Benign cartilaginous tumors with chondroblast-like cells and areas of chondroid matrix formation that rarely occur in the spine. Spinal tumors most often involve the thoracic vertebrae and usually involve both the body and pedicles.


Osteoid osteoma


Fig. 10.15


Intraosseous circumscribed radiolucent lesion often < 1.5 cm in diameter located in posterior elements, central zone with low to intermediate attenuation that can show contrast enhancement, surrounded by a peripheral zone of high attenuation (reactive bone sclerosis).


Benign osseous lesion containing a nidus of vascularized osteoid trabeculae surrounded by osteoblastic sclerosis; 14% of osteoid osteomas are located in the spine; usually occurs between the ages of 5 and 25 y, M > F. Focal pain and tenderness associated with lesion are often worse at night, relieved with aspirin.


Osteoblastoma


Fig. 10.16


Expansile radiolucent vertebral lesion often < 1.5 cm in diameter located in posterior elements (90%) with or without extension into vertebral body (30%), with or without epidural extension (40%), low to intermediate attenuation, often surrounded by a zone of bone sclerosis; can show contrast enhancement, with or without spinal cord/spinal canal compression.


Rare benign bone neoplasm (2% of bone tumors) usually occurs between age 6 and 30 y. One third of osteoblastomas involve the spine.


Giant cell tumor


Fig. 10.17a, b


Circumscribed radiolucent vertebral lesion with low to intermediate attenuation; can show contrast enhancement. Location: vertebral body > vertebral body and vertebral arch > vertebral arch alone. With or without spinal cord/spinal canal compression, with or without pathologic fracture.


Locally aggressive lesions that rarely metasta-size. Account for 5% of primary bone tumors. Usually involve lone bones; only 4% involve vertebrae. Occur in adolescents and adults (age 20–40 y).


Aneurysmal bone cyst


Fig. 10.18a–c


Circumscribed vertebral lesion usually involving the posterior elements with or without involvement of the vertebral body; variable low, intermediate, high, and/or mixed attenuation, with or without surrounding thin shell of bone, with or without lobulations, with or without one or multiple fluid/fluid levels, with or without pathologic fracture.


Expansile blood/debris-filled lesions that may be primary or occur secondary to other bone lesions, such as giant cell tumor, fibrous dysplasia, and chondroblastoma. Most occur in patients younger than 30 y. Locations: lumbar > cervical > thoracic. Clinical findings can include neurologic deficits and pain.


Osteochondroma


Fig. 10.19a, b


Circumscribed sessile or protuberant osseous lesion typically arising from posterior elements of vertebrae, central zone contiguous with medullary space of bone, with or without cartilaginous cap. Increased malignant potential when cartilaginous cap is > 2 cm thick.


Benign cartilaginous tumors arising from defect at periphery of growth plate during bone formation with resultant bone outgrowth covered by a cartilaginous cap.


Usually benign unless associated with pain and increasing size of cartilaginous cap. Can occur as multiple lesions (hereditary exostoses) with increased malignant potential.


Hemangioma


Fig. 10.20


Circumscribed or diffuse vertebral lesion usually radiolucent without destruction of bone trabeculae, located in the vertebral body with or without extension into pedicle or isolated within pedicle; typically low to intermediate attenuation with thickened vertical trabeculae; can show contrast enhancement; multiple in 30%. Location: thoracic (60%) > lumbar (30%) > cervical (10%).


Most common benign lesions involving vertebral column, F > M, composed of endotheliallined capillary and cavernous spaces within marrow associated with thickened vertical trabeculae and decreased secondary trabeculae; seen in 11% of autopsies. Usually asymptomatic; rarely cause bone expansion and epidural extension resulting in neural compression (usually in thoracic region); increased potential for fracture with epidural hematoma.


Other tumorlike lesions


Paget disease


Fig. 10.21a–c


Expansile sclerotic/lytic process involving a single or multiple vertebrae with mixed intermediate to high attenuation. Irregular/indistinct borders between marrow cortical bone; can also result in diffuse sclerosis, “ivory” vertebral pattern.


Chronic disease with disordered bone resorption and woven bone formation. Usually seen in older adults; polyostotic in 66%; can result in narrowing of neuroforamina and spinal canal.


Fibrous dysplasia


Fig. 10.22


Expansile process involving one or more vertebrae with mixed intermediate and high attenuation, often a “ground glass” appearance.


Benign medullary fibro-osseous lesion of bone usually seen in adolescents and young adults; can result in narrowing of the spinal canal and neuroforamina; mono- and polyostotic forms (with or without endocrine abnormalities such as with McCune-Albright syndrome/precocious puberty).


Arachnoid cyst


Well-circumscribed, extra-axial lesions with low attenuation similar to CSF. No contrast enhancement. Usually cause mass effect on the adjacent spinal cord. Chronic erosive changes can be seen at the vertebrae adjacent to the cyst.


Nonneoplastic acquired, developmental, or congenital extra-axial cysts filled with CSF. Cysts can be small or large, asymptomatic or symptomatic.


Tarlov cyst (perineural cyst)


Fig. 10.23a, b


Well-circumscribed cysts with CSF attenuation involving nerve root sleeves associated with chronic erosive changes involving adjacent bony structures. Sacral (with or without widening of sacral foramina) > lumbar nerve root sleeves. Usually range from 15 to 20 mm in diameter but can be larger.


Typically represent incidental asymptomatic anatomical variants associated with prior dural injury.


Dermoid


Well-circumscribed, spheroid or multilobulated, intradural extramedullary or intramedullary lesions that can contain zones with low, intermediate, and/or high attenuation and calcifications; usually show no contrast enhancement, with or without fluid–fluid or fluid–debris levels. Lumbar region most common location in spine. Can cause chemical meningitis if dermoid cyst ruptures into the subarachnoid space. Commonly located at or near midline.


Nonneoplastic congenital or acquired ectodermal inclusion cystic lesions filled with lipid material, cholesterol, desquamated cells, and keratinaceous debris; usually mild mass effect on adjacent spinal cord or nerve roots. Adults: M slightly > F; with or without related clinical symptoms.


Epidermoid


Well-circumscribed, spheroid or multilobulated, intradural extramedullary lesion with low to intermediate attenuation; typically shows no contrast enhancement.


Nonneoplastic extramedullary epithelial- inclusion lesions filled with desquamated cells and keratinaceous debris; usually mild mass effect on adjacent spinal cord and/or nerve roots. May be congenital (with or without associated with dorsal dermal sinus, spina bifida, hemivertebrae) or acquired (late complication of lumbar puncture).


Neurenteric (endodermal) cyst


Well-circumscribed, spheroid, intradural extramedullary lesions with low to intermediate attenuation; usually show no contrast enhancement. Lesions may extend into the spinal cord in 10%.


Developmental failure of separation of noto-chord and foregut resulting in sinus tract or cysts between ventrally located endoderm and dorsally located ectoderm. Distal long tract symptoms and progressive spinal cord compression.


Synovial cyst


Fig. 10.24a, b


Circumscribed lesion located adjacent to the facet joint. A thin rim of intermediate attenuation surrounds a central zone that may have low to intermediate attenuation. No contrast enhancement is usually seen, but a thin rim of peripheral enhancement may be observed.


Represents protrusion of synovium with fluid from degenerated facet joint into the spinal canal medially or dorsally into the posterior paraspinal soft tissues. Variable CT attenuation and MRI signal is related to the contents, which may include serous or mucinous fluid, blood, hemosiderin, and/or gas.


Bone island


Usually appears as a circumscribed radiodense ovoid or spheroid focus in medullary bone that may or may not contact the endosteal surface of cortical bone.


Bone islands (enostoses) are nonneoplastic intramedullary zones of mature compact bone composed of lamellar bone that are considered to be developmental anomalies resulting from localized failure of bone resorption during skeletal maturation.


Trauma


Fracture


Fig. 10.25


Fig. 10.26


Traumatic and osteopenic vertebral fracture: Acute/subacute fractures have sharply angulated cortical margins, no destructive changes at cortical margins of fractured end plates, with or without convex outward angulated configuration of compressed vertebral bodies, with or without spinal cord and/or spinal canal compression related to fracture deformity, with or without retropulsed bone fragments into spinal canal, with or without subluxation, with or without kyphosis, with or without epidural hematoma.


Malignancy-related vertebral fracture: Fractures related to radiolucent and/or sclerotic lesions, with or without destructive changes at cortical margins of vertebrae, with or without convex outward-bowed configuration of compressed vertebral bodies, with or without paravertebral mass lesions, with or without spheroid or poorly defined lesions in other noncompressed vertebral bodies.


Vertebral fractures can result from trauma, primary bone tumors/lesions, metastatic disease, bone infarcts (steroids, chemotherapy, and radiation treatment), osteoporosis, osteomalacia, metabolic (calcium/phosphate) disorders, vitamin deficiencies, Paget disease, and genetic disorders (osteogenesis imperfecta, etc.).


Inflammation/infection


Rheumatoid arthritis


Fig. 10.27a–c


Erosions of vertebral end plates, spinous processes, and uncovertebral and apophyseal joints. Irregular enlarged enhancing synovium (pannus: low to intermediate attenuation) at atlantodens articulation results in erosions of dens and transverse ligament, with or without destruction of transverse ligament with C1 on C2 subluxation and neural compromise; with or without basilar impression.


Most common type of inflammatory arthropathy that results in synovitis, causing destructive/erosive changes of cartilage, ligaments, and bone. Cervical spine involvement in two thirds of patients, juvenile and adult types.


Eosinophilic granuloma


Fig. 10.28a, b


Single or multiple circumscribed radiolucent lesions in the vertebral body marrow associated with focal bony destruction/erosion with extension into the adjacent soft tissues. Lesions usually have low to intermediate attenuation and involve the vertebral body and not the posterior elements; can show contrast enhancement, with or without enhancement of the adjacent dura. Progression of the lesion can lead to vertebra plana (a collapsed flattened vertebral body), with minimal or no kyphosis and relatively normalsized adjacent disks.


Single lesion: Commonly seen in male patients younger than 20 y; proliferation of histiocytes in medullary cavity with localized destruction of bone with extension into adjacent soft tissues.


Multiple lesions: Associated with syndromes such as Letterer–Siwe disease (lymphadenopathy, hepatosplenomegaly), children younger than 2 y; Hand–Schüller–Christian disease (lymphadenopathy, exophthalmos, and diabetes insipidus), children between 5 and 10 y.


Hematopoietic


Amyloidoma


Amyloid lesions in bone can occur as zones of osteopenia, permeative radiolucent destruction or uni- or multifocal radiolucency. Lesions can have low to intermediate attenuation and can show contrast enhancement.


Uncommon disease in which various tissues (including bone, muscle, tendons, tendon sheaths, ligaments, and synovium) are infiltrated with extracellular eosinophilic material composed of insoluble proteins with beta-pleated sheet configurations (amyloid protein). Amyloidomas are single sites of involvement. Amyloidosis can be a primary disorder associated with an immunologic dyscrasia or secondary to a chronic inflammatory disease.


Bone infarcts


Focal ringlike lesion or poorly defined zone with increased attenuation in medullary bone; usually no contrast enhancement, with or without associated fracture.


Bone infarcts can occur after radiation treatment, surgery, corticosterioid medications, chemotherapy, or trauma.


Congenital


Myelomeningocele/myelocele


Imaging is usually performed after surgical repair of myeloceles or myelomeningoceles. Posterior protrusion of spinal contents is seen with unfolded neural tube (neural placode) through defects in the bony dorsal elements of the involved vertebrae or sacral elements. The neural placode is usually located at the lower lumbar-sacral region with resultant tethering of the spinal cord. If the neural placode is flush with the adjacent skin surface, the anomaly is labeled a myelocele. If the neural placode extends above the adjacent skin surface, the anomaly is labeled a myelomeningocele, with or without syringohydromyelia.


Failure of developmental closure of the caudal neural tube results in an unfolded neural tube (neural placode) exposed to the dorsal surface in the midline without overlying skin. Other features associated with myelomeningoceles and myeloceles are dorsal bony dysraphism, deficient dura posteriorly at the site of the neural placode, and Chiari II malformations. By definition, the spinal cords are tethered. Usually repaired surgically soon after birth.


Meningoceles


Protrusion of CSF and meninges through a dorsal vertebral defect either from surgical laminectomies or congenital anomaly. Sacral meningoceles can alternatively extend anteriorly through a defect in the sacrum.


Acquired meningoceles are more common than meningoceles resulting from congenital dorsal bony dysraphism. Anterior sacral meningoceles can result from trauma or be associated with mesenchymal dysplasias (NF1, Marfan syndrome, and syndrome of caudal regression).


Lipomyelomeningocele


Unfolded caudal neural tube (neural placode) covered by a lipoma that is often contiguous with the dorsal subcutaneous fat through defects (spina bifida) involving the bony dorsal vertebral elements. The neural placode is usually located at the lower lumbar-sacral region with resultant tethering of the spinal cord, with or without syringohydromyelia.


Failure of developmental closure of the caudal neural tube results in an unfolded neural tube (neural placode) covered by a lipoma that is contiguous with the subcutaneous fat. The overlying skin is intact, although the lipoma usually protrudes dorsally. The nerve roots arise from the placode. Features associated with lipomyelomeningoceles and lipomyeloceles include tethered spinal cords, dorsal bony dysraphism, and deficient dura posteriorly at the site of the neural placode. Not associated with Chiari II malformations. Diagnosis often in children, occasionally in adults.

Fig. 10.9a, b Spina bifida aperta. Axial image show widely separated laminae in a patient who had postnatal surgery for a myelocele (Chiari II malformation).
Fig. 10.10a–c Caudal regression. Coronal (a) and axial (b) computed tomography (CT) images show severe hypoplasia of the sacrum as seen on a sagittal T2-weighted magnetic resonance imaging (MRI) (c).
Fig. 10.11a, b Plasmacytoma. Axial CT image (a) shows an expansile destructive lesion involving a cervical vertebra, as seen on an axial T2-weighted image (b). The tumor causes spinal cord compression.
Fig. 10.12a–d Chordoma. Sagittal (a), coronal (b), and axial (c) CT images show a destructive lesion involving the C2 vertebra that has high signal on a fat-suppressed, T2-weighted sagittal image (d).
Fig. 10.13a–c Chondrosarcoma. Axial CT image (a) shows a radiolucent destructive and expansile tumor involving the posterior elements that has high signal on axial T2-weighted MRI (b) and shows contrast enhancement on axial fat-suppressed, T1-weighted MRI (c).
Fig. 10.14a, b Osteosarcoma. Sagittal (a) and axial (b) images show an intraosseous osteosarcoma within a vertebral body that has malignant ossified mineralization with extension into the spinal canal.
Fig. 10.15 Osteoid osteoma. Axial image shows a small, circumscribed radiolucent lesion in the posterior left portion of the vertebral body that has a central zone with low to intermediate attenuation containing calcifications surrounded by a peripheral zone of high attenuation (reactive bone sclerosis).
Fig. 10.16 Osteoblastoma. Axial image shows an expansile radiolucent lesion involving the left lamina with low to intermediate attenuation containing calcifications and surrounded by a zone of bone sclerosis.
Fig. 10.17a, b Giant cell tumor. Sagittal (a) and axial (b) images show a circumscribed radiolucent lesion in the L5 vertebral body associated with focal destruction of the anterior cortical margin.
Fig. 10.18a–c Aneurysmal bone cyst. Sagittal (a) and axial (b) CT images show a large expansile lesion involving the posterior elements of C2 with a thinned surrounding shell of bone and containing multiple fluid–fluid levels, as seen on sagittal T1-weighted MRI (c).
Fig. 10.19a, b Osteochondroma. Axial images in two patients show protuberant osseous lesions arising from posterior elements with central zones contiguous with medullary spaces of adjacent bone.
Fig. 10.20 Hemangioma. Axial image shows a circumscribed vertebral lesion with low to intermediate attenuation and thickened vertical trabeculae.
Fig. 10.21a–c Paget disease. Sagittal (a,b) and axial (c) images show enlargement of a vertebral body with thickened cortical margins, indistinct borders between marrow and cortical bone, and mixed osteosclerotic and radiolucent zones.
Fig. 10.22 Fibrous dysplasia. Axial image shows a circumscribed lesion involving the left side of the vertebral body that extends into a widened left pedicle. The lesion has mixed intermediate and high attenuation.
Fig. 10.23a, b Tarlov cyst. Axial CT image (a) shows an expansile cystic lesion involving the right S1 sacral foramen, as seen on axial T1-weighted MRI (b) (arrows).
Fig. 10.24a, b Synovial cyst. Axial CT image (a) shows a large synovial cyst arising from the medial aspect of the degenerated left facet joint, as seen on axial T2-weighted MRI (b). The synovial cyst compresses and displaces the thecal sac (arrows).
Fig. 10.25 Traumatic fracture. Sagittal image shows compression fractures involving the anterior, superior, and posterior cortical margins of a vertebral body.
Fig. 10.26 Osteopenia-related fracture. Sagittal image shows diffuse osteopenia in an elderly patient, as well as a compression fracture deformity involving the inferior end plate of the L1 vertebral body.
Fig. 10.27a–c Rheumatoid arthritis. Sagittal (a) and axial (b) CT images show erosive changes involving the dens from a contrast- enhancing pannus, as seen on sagittal fat-suppressed T1-weighted MRI (c).
Fig. 10.28a, b Eosinophilic granuloma, 6-year-old boy. Sagittal (a) and axial (b) images show a destructive osteolytic lesion involving the upper dorsal portion of a vertebral body (arrows).

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Jul 6, 2020 | Posted by in GENERAL RADIOLOGY | Comments Off on 10 Computed Tomography of Spinal Abnormalities(Table 10.1 – Table 10.2)

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