DNA methylation-based classification for central nervous system tumours
Ontario Health
Record ID 32018015772
English
Authors' objectives:
This health technology assessment evaluates the effectiveness and cost-effectiveness of DNA methylation–based classifier tests for the classification of central nervous system (CNS) tumours. It also evaluates the budget impact of publicly funding DNA methylation–based classifier tests.
Authors' results and conclusions:
RESULTS
We included 38 studies in the clinical evidence review. Compared with conventional testing alone, DNA methylation–based classifier tests are an adjunct tool that may improve CNS tumour classification (GRADE: Moderate). The tests may improve downstream patient outcomes, although the evidence is very uncertain (GRADE: Very low). Unclassifiable test results may increase time to treatment, but the evidence is very uncertain (GRADE: Very low).
We did not identify any studies that met the inclusion criteria for our economic literature review. We estimated that there were about 716 patients with challenging diagnostic primary CNS tumours in Ontario each year. The cost of clinical-based DNA methylation profiling for CNS tumours was $1,500 per patient. The annual incremental costs of second-tier DNA methylation classifier tests (after the use of conventional test) would be $1,074,738 for all challenging diagnostic cases, and DNA methylation–based classifier tests improved the diagnosis for 195 patients. The incremental cost-effectiveness ratio (ICER; i.e., the incremental cost per case with an improvement in primary CNS tumour classification) was $5,521. Scenario analyses showed that for children aged 0 to 14 years, the ICER was reduced to $2,683. Publicly funding second-tier DNA methylation–based classifier testing for challenging diagnostic cases of primary CNS tumours would result in a budget increase of about $1 million per year, with total additional costs of about $5.4 million over 5 years to test 3,600 patients. The budget increase for funding subgroup populations (e.g., children, patients with malignant tumours) would be smaller. If DNA methylation–based classifiers are used as first-tier tests for all patients with newly diagnosed primary CNS tumours, the additional funding costs would be about $4 million per year, with total additional funding costs of about $21 million over the initial 5-year period.
CONCLUSIONS
DNA methylation–based classifier tests are an adjunct tool that may improve CNS tumour classification compared with conventional testing alone. Given that there are no empirical willingness-to-pay thresholds for an improvement in primary CNS tumour classification, the cost-effectiveness of DNA methylation–based classifier cannot be determined. Publicly funding second-tier DNA methylation–based classifier tests for challenging diagnostic primary CNS tumours would result in a total budget increase of about $5.4 million over 5 years. Public funding DNA methylation–based classifiers as first-tier tests for all patients with newly diagnosed primary CNS tumours would result in total budget increase of around $21 million over the next 5 years.
Authors' recommendations:
Ontario Health, based on guidance from the Ontario Health Technology Advisory Committee, recommends publicly funding DNA methylation-based classifier tests as an adjunct tool for the classification of central nervous system tumours when substantial clinical uncertainty remains after conventional testing.
Authors' methods:
We performed a systematic literature search of the clinical evidence. We assessed the risk of bias of each included study using the Risk of Bias Assessment Tool for Nonrandomized Studies (RoBANS) and the quality of the body of evidence according to the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) Working Group criteria.We performed a systematic economic literature search and developed a decision-analytic model to evaluate the cost-effectiveness of using DNA methylation-based classifier tests. We also analyzed the budget impact of publicly funding DNA methylation-based classifier tests. All costs were expressed in 2024 CAD.
Details
Project Status:
Completed
URL for project:
https://ontariohealth.ca/system/health-innovation-pathway/reviews/hta-details?cf=dna-methylation-nervous-system-tumours
URL for protocol:
https://www.crd.york.ac.uk/PROSPERO/view/CRD42024551580
Year Published:
2025
URL for published report:
https://pmc.ncbi.nlm.nih.gov/articles/PMC12647934/
English language abstract:
An English language summary is available
Publication Type:
Full HTA
Country:
Canada
Pubmed ID:
41312229
MeSH Terms
- Central Nervous System Neoplasms
- Neoplasms, Neuroepithelial
- DNA Methylation
- Classification
- Epigenesis, Genetic
- Spinal Cord Neoplasms
- Genetic Testing
- Brain Neoplasms
Keywords
- Brain cancer
- brain tumour
- Central nervous system
- DNA methylation
- DNA Methylation-based classifier test
- Genomic testing
- spinal cord tumour
Contact
Organisation Name:
Ontario Health
Contact Address:
525 University Ave, Toronto, ON M5G 2L3
Contact Name:
HealthInnovationPathway@ontariohealth.ca
Contact Email:
HealthInnovationPathway@ontariohealth.ca
Copyright:
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This is a bibliographic record of a published health technology assessment from a member of INAHTA or other HTA producer. No evaluation of the quality of this assessment has been made for the HTA database.