Can we identify patients carrying targeted deleterious DPYD variants with plasma uracil and dihydrouracil? A GPCO-RNPGx retrospective analysis.

IF 3.8 2区医学 Q1 MEDICAL LABORATORY TECHNOLOGY

Clinical chemistry and laboratory medicine Pub Date : 2024-06-19 DOI:10.1515/cclm-2024-0317

Manon Launay, Laure Raymond, Jérôme Guitton, Marie-Anne Loriot, Etienne Chatelut, Vincent Haufroid, Fabienne Thomas, Marie-Christine Etienne-Grimaldi

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引用次数: 0

Abstract

Objectives: Dihydropyrimidine dehydrogenase (DPD) deficiency is the main cause of severe fluoropyrimidine-related toxicities. The best strategy for identifying DPD-deficient patients is still not defined. The EMA recommends targeted DPYD genotyping or uracilemia (U) testing. We analyzed the concordance between both approaches.

Methods: This study included 19,376 consecutive French patients with pre-treatment plasma U, UH2 and targeted DPYD genotyping (*2A, *13, D949V, *7) analyzed at Eurofins Biomnis (2015-2022).

Results: Mean U was 9.9 ± 10.1 ng/mL (median 8.7, range 1.6-856). According to French recommendations, 7.3 % of patients were partially deficient (U 16-150 ng/mL) and 0.02 % completely deficient (U≥150 ng/mL). DPYD variant frequencies were *2A: 0.83 %, *13: 0.17 %, D949V: 1.16 %, *7: 0.05 % (2 homozygous patients with U at 22 and 856 ng/mL). Variant carriers exhibited higher U (median 13.8 vs. 8.6 ng/mL), and lower UH2/U (median 7.2 vs. 11.8) and UH2/U² (median 0.54 vs. 1.37) relative to wild-type patients (p<0.00001). Sixty-six% of variant carriers exhibited uracilemia <16 ng/mL, challenging correct identification of DPD deficiency based on U. The sensitivity (% patients with a deficient phenotype among variant carriers) of U threshold at 16 ng/mL was 34 %. The best discriminant marker for identifying variant carriers was UH2/U². UH2/U²<0.942 (29.7 % of patients) showed enhanced sensitivity (81 %) in identifying deleterious genotypes across different variants compared to 16 ng/mL U.

Conclusions: These results reaffirm the poor concordance between DPD phenotyping and genotyping, suggesting that both approaches may be complementary and that targeted DPYD genotyping is not sufficiently reliable to identify all patients with complete deficiency.

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我们能否通过血浆尿嘧啶和二氢尿嘧啶来识别携带定向有害 DPYD 变体的患者？GPCO-RNPGx 回顾性分析。

目的：二氢嘧啶脱氢酶（DPD）缺乏症是导致严重氟嘧啶相关毒性的主要原因。识别 DPD 缺乏症患者的最佳策略仍未确定。欧洲药品管理局（EMA）建议进行有针对性的 DPYD 基因分型或尿钙血症（U）检测。我们分析了这两种方法的一致性：本研究纳入了 19376 名连续的法国患者，他们在治疗前的血浆 U、UH2 和目标 DPYD 基因分型（*2A、*13、D949V、*7）在 Eurofins Biomnis（2015-2022 年）进行了分析：平均 U 值为 9.9 ± 10.1 纳克/毫升（中位数为 8.7，范围为 1.6-856）。根据法国的建议，7.3%的患者部分缺乏（U 16-150 ng/mL），0.02%的患者完全缺乏（U≥150 ng/mL）。DPYD 变异频率为 *2A: 0.83 %、*13: 0.17 %、D949V: 1.16 %、*7: 0.05 %（2 名同源患者的 U 值分别为 22 和 856 纳克/毫升）。与野生型患者相比，变异携带者的 U 值更高（中位数为 13.8 对 8.6 纳克/毫升），UH2/U 值（中位数为 7.2 对 11.8）和 UH2/U2 值（中位数为 0.54 对 1.37）更低（p2.UH2/U2C结论：这些结果再次证实了 DPD 表型分析与基因分型分析之间的不一致性，表明这两种方法可能是互补的，而且有针对性的 DPYD 基因分型分析还不足以可靠地识别所有完全缺乏症患者。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Clinical chemistry and laboratory medicine 医学-医学实验技术

CiteScore

11.30

自引率

16.20%

发文量

306

审稿时长

3 months

期刊介绍： Clinical Chemistry and Laboratory Medicine (CCLM) publishes articles on novel teaching and training methods applicable to laboratory medicine. CCLM welcomes contributions on the progress in fundamental and applied research and cutting-edge clinical laboratory medicine. It is one of the leading journals in the field, with an impact factor over 3. CCLM is issued monthly, and it is published in print and electronically. CCLM is the official journal of the European Federation of Clinical Chemistry and Laboratory Medicine (EFLM) and publishes regularly EFLM recommendations and news. CCLM is the official journal of the National Societies from Austria (ÖGLMKC); Belgium (RBSLM); Germany (DGKL); Hungary (MLDT); Ireland (ACBI); Italy (SIBioC); Portugal (SPML); and Slovenia (SZKK); and it is affiliated to AACB (Australia) and SFBC (France). Topics: - clinical biochemistry - clinical genomics and molecular biology - clinical haematology and coagulation - clinical immunology and autoimmunity - clinical microbiology - drug monitoring and analysis - evaluation of diagnostic biomarkers - disease-oriented topics (cardiovascular disease, cancer diagnostics, diabetes) - new reagents, instrumentation and technologies - new methodologies - reference materials and methods - reference values and decision limits - quality and safety in laboratory medicine - translational laboratory medicine - clinical metrology Follow @cclm_degruyter on Twitter!

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