Rare gene mutations lead to greatly increased risk of fatal chemotherapy toxicity

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Patients with abnormal variants (mutations) in the DPYD gene are known to be at risk for severe toxicity from treatment with 5-fluorouracil or capecitabine—chemotherapies commonly used to treat colorectal cancer, as well as pancreatic, breast, gastroesophageal and other cancers. But previous studies have not reported the extent to which these DPYD gene variants are linked to fatal chemotherapy toxicity, as fatal toxicity is rare in any individual study. Pooling studies is needed to examine the association of DPYD gene variants with this severe outcome.

In a meta-analysis of previously published studies, researchers at Dartmouth’s and Dartmouth-Hitchcock’s Norris Cotton Cancer Center (NCCC), led by Gabriel A. Brooks, MD, MPH, found that uncommon variants in the DPYD gene, present in 4% of all cancer patients, were associated with a 25-times increased risk of fatal toxicity after treatment with standard doses of either chemotherapy drug. The absolute risk of fatal toxicity was 0.1% in patients without DPYD gene variants, and as high as 3.7% in patients with any of the three most severe DPYD gene variants.

The team’s study is newly published online inThe Oncologist.

Though DPYD and other gene testing has been recommended by the European Medicines Agency since spring of 2020, gene testing is not widely done in the US before patients are administered chemotherapy with 5-fluorouracil or capecitabine. Brooks’ study suggests that adding pre-treatment screening may help prevent avoidable chemotherapy-related deaths without interrupting standard of care, as most patients who carry abnormal gene variants can still be treated with reduced doses of these chemotherapies. NCCC has already implemented routine screening for DPYD gene variants in most gastrointestinal cancer patients.

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