Chordoma

Etymology

The term derives — in analogy of carcinoma — from the Latin word chorda for string and the Greek suffix -oma designating a swelling.

Etiology

Chordomas are the result of abnormal tissue growth in remnants of the notochord. As such, they can occur anywhere in the bony tissue surrounding the spinal cord, with cranial, spinal and sacral tumours each representing about one third of the cases. The most common cranial location is in the clival region of the skull near the brainstem and the most common sacral lesion is in the body of the sacrum.^[2]

Demographics

The prevalence is about 1 in a million in the United States, and affected patients have an average life expectancy of five to ten years after diagnosis, with differences according to age of onset, gender and ethnicity.^[3]

Diagnostics

Chordomas are most frequently identified on the basis of MRI scans. They can also, with lower probability, be identified on CT scans, particularly if the tumour has grown considerably. Histologically, chordomas can be identified using a variety of immunohistochemical markers.

(CC) Photo: Larizza et al., 2005
Different immunohistochemical markers of chordoma. A: Ethyl eosin staining of a chordoma composed of nests and cords of tumour cells; B: Ethyl eosin staining of physaliphorous cells containing multiple clear cytoplasmic vacuoles; C: immunohistochemistry showing staining for S-100 protein; D: immunohistochemistry showing staining for cytokeratin; E: immunohistochemistry showing staining for EMA; F: immunohistochemistry showing staining for Vimentin. Scale: Panel A is 6.4 mm wide, all others 1.6 mm.

Genetics

At least one susceptibility gene has been identified^[4]

Therapy

Some variants of chemotherapy — notably imatinib-based ones — can achieve partial response or static disease in some cases^[5], and chordoma cell lines have been reported to be sensitive to several chemotherapeutics^[6]. However, no cure is in sight. This leaves surgery as the main option of treatment^[7], with prospects of success varying according to location.

References

↑ Anonymous (2024), Chordoma (English). Medical Subject Headings. U.S. National Library of Medicine.
↑ Primary Malignant Bone Tumors: Tumors of Bones and Joints: Merck Manual Professional. Retrieved on 2010-05-14.
↑ McMaster ML, Goldstein AM, Bromley CM, Ishibe N, Parry DM (2001). "Chordoma: incidence and survival patterns in the United States, 1973-1995". Cancer Causes Control 12 (1): 1-11. DOI:10.1023/A:1008947301735. PMID 11227920. Research Blogging. ^[e]
Reports on a long-term study involving 400 patients with microscopically confirmed chordoma, revealing an overall prevalence of about 1 per million in the United States and a median survival time of about 6 years after diagnosis. It also shows that cranial, spinal and sacral locations each represent about one third of the total number of cases, and that males are affected about twice as often as females.
↑ Yang XR, Ng D, Alcorta DA, Liebsch NJ, Sheridan E, Li S et al. (2009). "T (brachyury) gene duplication confers major susceptibility to familial chordoma". Nat Genet 41 (11): 1176-8. DOI:10.1038/ng.454. PMID 19801981. Research Blogging. ^[e]
Based on comparative genomic hybridization data from four affected families, variations in the 6q27 region of the human chromosome 6 were found to be correlated with chordoma, thus suggesting the T gene as a potential susceptibility gene for the disease.
↑ Treatments options — a list compiled by the Chordoma Foundation on the basis of the peer-reviewed literature on the subject
↑ Yang C, Hornicek FJ, Wood KB, Schwab JH, Choy E, Iafrate J et al. (2010). "Characterization and Analysis of Human Chordoma Cell Lines". Spine (Phila Pa 1976). DOI:10.1097/BRS.0b013e3181c2a8b0. PMID 20461036. Research Blogging. ^[e]
Describes three human chordoma cell lines and found them to grow preferentially on collagen substrates, to retain the characteristic expression of vimentin and cytokeratin and to be sensitive to the chemotherapeutics doxorubicin, yondelis, zalypsis, and cisplatin.
↑ Boriani S, Bandiera S, Biagini R, Bacchini P, Boriani L, Cappuccio M et al. (2006). "Chordoma of the mobile spine: fifty years of experience". Spine (Phila Pa 1976) 31 (4): 493-503. DOI:10.1097/01.brs.0000200038.30869.27. PMID 16481964. Research Blogging. ^[e]
Describes a set of 52 cases of chordoma along the mobile part of the spine (i.e. from the first thoracic to the fifth lumbar vertebra), discusses diagnostics, therapy and outcome and concludes that complete resection of the tumour is the only promising treatment.

[MeSH-1] Anonymous (2024), Chordoma (English). Medical Subject Headings. U.S. National Library of Medicine.

[urlPrimary_Malignant_Bone_Tumors:_Tumors_of_Bones_and_Joints:_Merck_Manual_Professional-2] Primary Malignant Bone Tumors: Tumors of Bones and Joints: Merck Manual Professional. Retrieved on 2010-05-14.

[McMaster2001-3] McMaster ML, Goldstein AM, Bromley CM, Ishibe N, Parry DM (2001). "Chordoma: incidence and survival patterns in the United States, 1973-1995". Cancer Causes Control 12 (1): 1-11. DOI:10.1023/A:1008947301735. PMID 11227920. Research Blogging. ^[e]
Reports on a long-term study involving 400 patients with microscopically confirmed chordoma, revealing an overall prevalence of about 1 per million in the United States and a median survival time of about 6 years after diagnosis. It also shows that cranial, spinal and sacral locations each represent about one third of the total number of cases, and that males are affected about twice as often as females.

[Yang2009-4] Yang XR, Ng D, Alcorta DA, Liebsch NJ, Sheridan E, Li S et al. (2009). "T (brachyury) gene duplication confers major susceptibility to familial chordoma". Nat Genet 41 (11): 1176-8. DOI:10.1038/ng.454. PMID 19801981. Research Blogging. ^[e]
Based on comparative genomic hybridization data from four affected families, variations in the 6q27 region of the human chromosome 6 were found to be correlated with chordoma, thus suggesting the T gene as a potential susceptibility gene for the disease.

[5] Treatments options — a list compiled by the Chordoma Foundation on the basis of the peer-reviewed literature on the subject

[6] Yang C, Hornicek FJ, Wood KB, Schwab JH, Choy E, Iafrate J et al. (2010). "Characterization and Analysis of Human Chordoma Cell Lines". Spine (Phila Pa 1976). DOI:10.1097/BRS.0b013e3181c2a8b0. PMID 20461036. Research Blogging. ^[e]
Describes three human chordoma cell lines and found them to grow preferentially on collagen substrates, to retain the characteristic expression of vimentin and cytokeratin and to be sensitive to the chemotherapeutics doxorubicin, yondelis, zalypsis, and cisplatin.

[7] Boriani S, Bandiera S, Biagini R, Bacchini P, Boriani L, Cappuccio M et al. (2006). "Chordoma of the mobile spine: fifty years of experience". Spine (Phila Pa 1976) 31 (4): 493-503. DOI:10.1097/01.brs.0000200038.30869.27. PMID 16481964. Research Blogging. ^[e]
Describes a set of 52 cases of chordoma along the mobile part of the spine (i.e. from the first thoracic to the fifth lumbar vertebra), discusses diagnostics, therapy and outcome and concludes that complete resection of the tumour is the only promising treatment.

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Chordoma

Contents

Etymology

Etiology

Demographics

Diagnostics

Genetics

Therapy

References

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Chordoma

Etymology

Etiology

Demographics

Diagnostics

Genetics

Therapy

References

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