Chondrosarkom der Schädelbasis

Radiological

review of skull lesions. Chondrosarcoma. Axial non-contrast CT (a) shows an osteolytic destructive lesion involving the right petro-occipital junction and clivus (arrowhead). Axial contrast-enhanced CT (b) demonstrates this lesion to have a soft-tissue component extending anteriorly into the sphenoid sinus (thick arrow) and posteriorly into the prepontine cistern with mass effect on the pons (dashed arrow). Axial (c) and coronal (d) CT angiogram images demonstrate involvement of the right petrous carotid canal (arrowheads) with the lesion surrounding the right internal carotid artery (thin arrow). Note the punctate calcifications (chondroid matrix) within the mass (curved arrow). Axial T1-weighted (e) and axial T2-weighted (f) images show a lobulated lesion involving the right petro-occipital junction and clivus (arrowhead). Note the extension of the lesion anteriorly into the sphenoid sinus (thick arrow) and posteriorly into the prepontine cistern with mass effect on the pons (dashed arrow). Axial SWAN (g) shows internal foci of low signal, consistent with calcifications (curved arrow). Post-contrast axial T1-weighted imaging (h) demonstrates heterogeneous (“whorls” of) enhancement (arrowhead)

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Chondrosarcoma

• Chondrosarcoma - sphenoid wing - Ganzer Fall bei Radiopaedia

Gaillard, F. Chondrosarcoma - sphenoid wing. Case study, Radiopaedia.org. (accessed on 21 Oct 2022) https://doi.org/10.53347/rID-6069 • CC by-nc-sa 3.0 (modified)

Cavernous

sinus mass • Chondrosarcoma - sphenoid wing - Ganzer Fall bei Radiopaedia

Gaillard, F. Chondrosarcoma - sphenoid wing. Case study, Radiopaedia.org. (accessed on 22 Oct 2022) https://doi.org/10.53347/rID-5421 • CC by-nc-sa 3.0 (modified)

Chondrosarcoma

of the skull base • Chondrosarcoma - occipital condyle - Ganzer Fall bei Radiopaedia

Gaillard F, Chondrosarcoma - occipital condyle. Case study, Radiopaedia.org (Accessed on 22 Jan 2023) https://doi.org/10.53347/rID-8969 • CC by-nc-sa 3.0 (modified)

Chondrosarcoma

of the skull base • Chondrosarcoma of skull base: grade II - Ganzer Fall bei Radiopaedia

Ramesh R, Chondrosarcoma of skull base: grade II. Case study, Radiopaedia.org (Accessed on 22 Jan 2023) https://doi.org/10.53347/rID-40948 • CC by-nc-sa 3.0 (modified)

Chondrosarcoma

of the skull base • Petrous apex chondrosarcoma - Ganzer Fall bei Radiopaedia

Hacking C, Petrous apex chondrosarcoma. Case study, Radiopaedia.org (Accessed on 22 Jan 2023) https://doi.org/10.53347/rID-42039 • CC by-nc-sa 3.0 (modified)

Chondrosarcoma

of the skull base • Chondrosarcoma - Ganzer Fall bei Radiopaedia

Gaillard F, Chondrosarcoma. Case study, Radiopaedia.org (Accessed on 22 Jan 2023) https://doi.org/10.53347/rID-41937 • CC by-nc-sa 3.0 (modified)

Chondrosarcoma

of the skull base • Chondrosarcoma - sphenoid wing - Ganzer Fall bei Radiopaedia

St-Amant M, Chondrosarcoma - sphenoid wing. Case study, Radiopaedia.org (Accessed on 22 Jan 2023) https://doi.org/10.53347/rID-58259 • CC by-nc-sa 3.0 (modified)

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Chondrosarkom der Schädelbasis

Chondrosarkom Radiopaedia • CC-by-nc-sa 3.0 • de

Chondrosarcomas are malignant cartilaginous tumors that account for ~25% of all primary malignant bone tumors. They are most commonly found in older patients within the long bones and can arise de novo or secondary from an existing benign cartilaginous neoplasm. On imaging, these tumors have ring-and-arc chondroid matrix mineralization with aggressive features such as lytic pattern, deep endosteal scalloping and soft-tissue extension.

Epidemiology

The typical presentation is in the 4 and 5 decades and there is a slight male predominance of 1.5-2:1.

Clinical presentation

Patients usually present with pain, pathological fracture, a palpable lump or local mass effect. Hyperglycemia can occur as a paraneoplastic syndrome.

Pathology

The histology of chondrosarcomas can differ according to their subtype (see below). In general, these tumors are multilobulated (due to hyaline cartilage nodules) with central high water content and peripheral endochondral ossification. This accounts not only for the high T2 MRI signal (see below) but also for rings and arcs calcification or popcorn calcification.

Grading

Chondrosarcomas are divided into three (sometimes four) grades based primarily on cellularity (see: chondrosarcoma grading).

Subtypes

Chondrosarcomas are either primary, arising de novo, or secondary and arise from a pre-existent cartilaginous mass (see: secondary chondrosarcoma).

Primary

conventional intramedullary chondrosarcoma (or central chondrosarcoma): low, intermediate or high grade (see: chondrosarcoma grading)
juxtacortical chondrosarcoma: low, intermediate or high grade
clear cell chondrosarcoma
myxoid chondrosarcoma: usually intermediate grade
mesenchymal chondrosarcoma: usually high grade
extraskeletal chondrosarcoma
dedifferentiated chondrosarcoma

Secondary

Arising from pre-existing cartilaginous lesions:

osteochondroma
- solitary osteochondroma
- hereditary multiple exostoses
enchondroma
- solitary enchondroma
- Ollier disease
- Maffucci syndrome

Distribution

long bones: 45% (the reason is that the cartilage is more abundant in the long, tubular bones)
- femur: 20-35%
- tibia: 5%
- upper limb (especially proximal humerus): 10-20%

pelvis: 25% especially around the triradiate cartilage
ribs: 8%
- patients often younger than at other sites
- anterior ribs/costochondral junction
spine: 7%
- greater male predominance 2-4:1
- thoracic most common
- location
  - posterior elements and vertebral body 45%
  - posterior elements only 40%
  - vertebral body only 15%
scapula: 5%
sternum: 2%
head and neck (including cervical spine): 6-7%
craniofacial: 2% (see chondrosarcoma of the skull base)
hands and feet: rare cf. enchondromas

Radiographic features

Imaging findings vary somewhat with different subtypes but do have some general features. Below are typical imaging appearances which are best demonstrated by conventional chondrosarcomas.

In general chondrosarcomas are large masses at the time of diagnosis, usually >4 cm in diameter and >10 cm in 50% of cases.

Plain radiograph

lytic (50%)
intralesional calcifications: ~70% (rings and arcs calcification or popcorn calcification)
endosteal scalloping: affecting more than two-thirds of the cortical thickness (c.f. less than two-thirds in enchondromas)
moth-eaten appearance or permeative appearance in higher grade tumors (see chondrosarcoma grading), e.g. myxoid, dedifferentiated and mesenchymal chondrosarcomas
cortical remodeling, thickening and periosteal reaction are also useful in distinguishing between an enchondroma and low-grade chondrosarcoma (see enchondroma vs. low-grade chondrosarcoma)

CT

The features seen on CT are the same as on plain film, but are simply better seen:

94% of cases demonstrate matrix calcification, c.f. 60-78% on plain film
endosteal scalloping
cortical breach, seen in ~90% of long bone chondrosarcoma, c.f. only ~10% of enchondromas
soft tissue mass: tumor cellularity, and therefore density, increases with increased grade of the tumor
heterogenous contrast enhancement

MRI

T1: low to intermediate signal
- iso- to slightly hyperintense cf. muscle
- iso- to slightly hypointense cf. grey matter (see chondrosarcoma of the base of skull)
T2: very high intensity in non-mineralized/calcified portions
gradient echo/SWI: blooming of mineralized/calcified portions
T1 C+ (Gd)
- most demonstrate heterogeneous moderate to intense contrast enhancement.
- enhancement can be septal and peripheral rim-like corresponding to fibrovascular septation between lobules of hyaline cartilage

Nuclear medicine

Typically chondrosarcomas demonstrate increased uptake on bone scan, seen in over 80% of cases, and usually the uptake is quite intense. This is useful in helping to distinguish low-grade chondrosarcoma from an enchondroma as the latter has increased uptake in ~20% of cases, and usually to a lesser degree (see: enchondroma vs low grade chondrosarcoma).