Expanding the RB1 variant landscape of heritable retinoblastoma: unlocking precision oncology potential in Southern Africa
Indiana van Rensburg, Hamzah Mustak, Gameda Benefeld, Lucy Cunnama, Helga Abrahamse-Pillay, Raj Ramesar, Lisa Roberts

TL;DR
This study identifies new genetic variants in the RB1 gene linked to heritable retinoblastoma in Southern Africa and shows how genetic testing can save healthcare costs and improve patient care.
Contribution
The study reports novel RB1 variants and demonstrates the economic benefits of genetic testing in managing heritable retinoblastoma in Southern Africa.
Findings
84.5% of patients had pathogenic or likely pathogenic RB1 variants, including 11 novel ones.
Genetic testing could save up to $228,989 in private sector and $166,489 in public sector surveillance costs across extended families.
Variants were concentrated in the pocket domain of the Rb associated protein (pRb).
Abstract
Retinoblastoma (Rb) is the most common childhood intraocular cancer, with heritable forms caused by pathogenic germline variants in the RB1 (or retinoblastoma 1) gene, which necessitate intensive and costly lifelong surveillance. Genetic testing enables precise risk prediction and individualized clinical management, yet data on the RB1 variant spectrum in African populations remains scarce. This study investigated the molecular landscape of clinically presumed heritable Rb in a Southern African cohort and evaluated the potential healthcare and economic benefits of implementing genetic testing. Fifty-eight patients with clinically presumed heritable Rb were recruited from two tertiary hospitals in South Africa. Comprehensive RB1 gene analysis was performed using next-generation sequencing (NGS) to detect single nucleotide variants (SNVs), small insertions and deletions (indels), and…
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Taxonomy
TopicsOcular Oncology and Treatments · Cancer-related Molecular Pathways · Retinal Development and Disorders
