BMC Cancer (Feb 2019)

Primary paediatric epidural sarcomas: molecular exploration of three cases

  • Sharon Y. Y. Low,
  • Chik Hong Kuick,
  • Wan Yi Seow,
  • Nurfahanah Bte Syed Sulaiman,
  • Huiyi Chen,
  • Derrick W. Q. Lian,
  • Kenneth T. E. Chang,
  • Enrica E. K. Tan,
  • Shui Yen Soh,
  • Grace I. L. Tan,
  • Lee Ping Ng,
  • Wan Tew Seow,
  • David C. Y. Low

DOI
https://doi.org/10.1186/s12885-019-5368-z
Journal volume & issue
Vol. 19, no. 1
pp. 1 – 8

Abstract

Read online

Abstract Background Primary paediatric epidural sarcomas are extremely rare. Overall, there remains a paucity of knowledge in paediatric epidural sarcomas owing to the infrequent number of cases. The Archer FusionPlex Sarcoma Kit (ArcherDX, Inc) is a next-generation sequencing assay that has been reported to be a useful technique to detect recurrent fusion in sarcomas. We report the molecular exploration of 3 primary paediatric epidural sarcomas—one in the cranium (mesenchymal chondrosarcoma) and 2 in the spine (mesenchymal chondrosarcoma and Ewing sarcoma respectively). Case presentation This is a study approved by the hospital ethics board. Clinico-pathological information from 3 consenting patients with primary epidural sarcomas was collected. These selected tumours are interrogated via Archer FusionPlex Sarcoma Kit (ArcherDX, Inc) for genomic aberrations. Results were validated with RT-PCR and Sanger sequencing. All findings are corroborated and discussed in concordance with current literature. Our findings show 2 variants of the HEY1-NCOA2 gene fusion: HEY1 (exon 4)-NCOA2 (exon 13) and HEY1 (exon 4)-NCOA2 (exon 14), in both mesenchymal chondrosarcoma patients. Next, the Ewing sarcoma tumour is found to have EWSR1 (exon 10)-FLI1 (exon 8) translocation based on NGS. This result is not detected via conventional fluorescence in situ testing. Conclusions This is a molecularly-centered study based on 3 unique primary paediatric epidural sarcomas. Our findings to add to the growing body of literature for these exceptionally rare and malignant neoplasms. The authors advocate global collaborative efforts and in-depth studies for targeted therapy to benefit affected children.

Keywords