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  • Author or Editor: Alisa M. Goldstein x
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Dilys M. Parry, Mary L. McMaster, Norbert J. Liebsch, Nicholas J. Patronas, Martha M. Quezado, Deborah Zametkin, Xiaohong R. Yang and Alisa M. Goldstein

OBJECTIVE

To gain insight into the role of germline genetics in the development of chordoma, the authors evaluated data from 2 sets of patients with familial chordoma, those with and without a germline duplication of the T gene (T-dup+ vs T-dup−), which was previously identified as a susceptibility mechanism in some families. The authors then compared the patients with familial tumors to patients with sporadic chordoma in the US general population reported to the National Cancer Institute’s Surveillance, Epidemiology, and End Results (SEER) program through 2015.

METHODS

Evaluation of family members included review of personal and family medical history, physical and neurological examination, and pre- and postcontrast MRI of the skull base and spine. Sixteen patients from 6 white families with chordoma had a chordoma diagnosis at family referral. Screening MR images of 35 relatives revealed clival lesions in 6, 4 of which were excised and confirmed to be chordoma. Thus, data were available for 20 patients with histologically confirmed familial chordoma. There were 1759 patients with histologically confirmed chordoma in SEER whose race was known.

RESULTS

The median age at chordoma diagnosis differed across the groups: it was lowest in T-dup+ familial patients (26.8 years, range 5.3–68.4 years); intermediate in T-dup− patients (46.2 years, range 11.8–60.1 years); and highest in SEER patients (57 years, range 0–98 years). There was a marked preponderance of skull base tumors in patients with familial chordoma (93% in T-dup+ and 83% in T-dup−) versus 38% in the SEER program (37% in white, 53% in black, and 48.5% in Asian/Pacific Islander/American Indian/Alaska Native patients). Furthermore, 29% of white and 16%–17% of nonwhite SEER patients had mobile-spine chordoma, versus no patients in the familial group. Several T-dup+ familial chordoma patients had putative second/multiple primary chordomas.

CONCLUSIONS

The occurrence of young age at diagnosis, skull base presentation, or multiple primary chordomas should encourage careful review of family history for patients diagnosed with chordoma as well as screening of at-risk family members by MRI for early detection of chordoma. Furthermore, given genetic predisposition in some patients with familial chordoma, identification of a specific mutation in a family will permit surveillance to be limited to mutation carriers—and consideration should be given for imaging the entire neuraxis in any chordoma patient presenting at an early age or with a blood relative with chordoma. Finally, future studies should explore racial differences in age at diagnosis and presenting site in chordoma.