Abstract Background Renal tumours account for one in twenty paediatric cancers, with Wilms tumour (WT) the most common in young children and renal cell carcinoma (RCC) predominating in adolescents and young adults. Diagnostic work-up has traditionally focused on clinical features, radiology, and histology, with a limited role for molecular analysis. However, it is estimated that up to one-third of children with WT have underlying cancer predisposition, which could necessitate prolonged treatment and intensive follow-up. Methods Here we describe five children and young adults treated at a single regional centre in England who had paired tumour and germline whole genome sequencing (WGS) as part of their routine diagnostic work-up. Results One child diagnosed radiologically with a WT underwent pre-operative chemotherapy with good clinical and imaging response. Histological examination of the resection raised concerns over RCC; however, WGS was able to confirm that this was a WT with pathognomonic somatic WT changes. A young adult with upfront nephrectomy had a difficult-to-classify tumour; WGS revealed a novel ERC1-CCNY fusion as a likely novel driver event. Two further children, who did not meet clinical criteria for cancer predisposition testing, had predisposition syndromes identified via agnostic WGS. Finally, a child with piebaldism had a WT-associated REST deletion identified early through critical clinical thinking and expedited microarray. Conclusion We highlight that molecular analysis, particularly agnostic WGS, has a key routine role in the care of children with renal tumours. It is likely that outcomes for these young people have been improved through more accurate diagnosis and early detection of cancer predisposition.
Leiter et al. (Fri,) studied this question.