Unveiling Discrepant and Rare Dihydropyrimidine Dehydrogenase (DPYD) Results Using an In-House Genotyping Test: A Case Series.

IF 14.8 2区 医学 Q1 ONCOLOGY
D Grace Nguyen, Sarah A Morris, Annabel Chen, Donald C Moore, Sarah L Hanson, Chris Larck, Laura W Musselwhite, John D Turner, Mohamed E Salem, Simeon O Kwange, Alicia Hamilton, Nury Steuerwald, Jai N Patel
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引用次数: 0

Abstract

Fluoropyrimidine chemotherapy is a primary component of many solid tumor treatment regimens, particularly those for gastrointestinal malignancies. Approximately one-third of patients receiving fluoropyrimidine-based chemotherapies experience serious adverse effects. This risk is substantially higher in patients carrying DPYD genetic variants, which cause reduced fluoropyrimidine metabolism and inactivation (ie, dihydropyridine dehydrogenase [DPD] deficiency). Despite the known relationship between DPD deficiency and severe toxicity risk, including drug-related fatalities, pretreatment DPYD testing is not standard of care in the United States. We developed an in-house DPYD genotyping test that detects 5 clinically actionable variants associated with DPD deficiency, and genotyped 827 patients receiving fluoropyrimidines, of which 49 (6%) were identified as heterozygous carriers. We highlight 3 unique cases: (1) a patient with a false-negative result from a commercial laboratory that only tested for the c.1905 + 1G>A (*2A) variant, (2) a White patient in whom the c.557A>G variant (typically observed in people of African ancestry) was detected, and (3) a patient with the rare c.1679T>G (*13) variant. Lastly, we evaluated which DPYD variants are detected by commercial laboratories offering DPYD genotyping in the United States and found 6 of 13 (46%) did not test for all 5 variants included on our panel. We estimated that 20.4% to 81.6% of DPYD heterozygous carriers identified on our panel would have had a false-negative result if tested by 1 of these 6 laboratories. The sensitivity and negative predictive value of the diagnostic tests from these laboratories ranged from 18.4% to 79.6% and 95.1% to 98.7%, respectively. These cases underscore the importance of comprehensive DPYD genotyping to accurately identify patients with DPD deficiency who may require lower fluoropyrimidine doses to mitigate severe toxicities and hospitalizations. Clinicians should be aware of test limitations and variability in variant detection by commercial laboratories, and seek assistance by pharmacogenetic experts or available resources for test selection and result interpretation.

使用内部基因分型测试揭示异常和罕见的二氢嘧啶脱氢酶 (DPYD) 结果:病例系列。
氟嘧啶化疗是许多实体瘤治疗方案,尤其是胃肠道恶性肿瘤治疗方案的主要组成部分。接受氟嘧啶类化疗的患者中约有三分之一会出现严重的不良反应。携带 DPYD 基因变异的患者出现这种不良反应的风险要高得多,这种变异会导致氟嘧啶代谢和灭活能力降低(即二氢吡啶脱氢酶 [DPD] 缺乏症)。尽管已知 DPD 缺乏症与严重毒性风险(包括与药物相关的死亡)之间存在关系,但在美国,治疗前的 DPYD 检测并不是标准护理。我们开发了一种内部 DPYD 基因分型测试,可检测与 DPD 缺乏症相关的 5 种临床可操作变异,并对 827 名接受氟嘧啶类药物治疗的患者进行了基因分型,其中 49 人(6%)被确定为杂合携带者。我们重点介绍了 3 个独特的病例:(1)一名患者的假阴性结果来自一家商业实验室,该实验室只检测了 c.1905 + 1G>A (*2A) 变异;(2)一名白人患者检测到了 c.557A>G 变异(通常在非洲血统的人群中观察到);(3)一名患者患有罕见的 c.1679T>G (*13) 变异。最后,我们评估了美国提供 DPYD 基因分型服务的商业实验室检测到的 DPYD 变异,发现 13 家实验室中有 6 家(46%)没有检测到我们小组中的所有 5 个变异。我们估计,如果由这 6 家实验室中的 1 家进行检测,在我们的面板上发现的 DPYD 杂合子携带者中,有 20.4% 至 81.6% 的人可能会得到假阴性结果。这些实验室诊断测试的灵敏度和阴性预测值分别为 18.4% 至 79.6% 和 95.1% 至 98.7%。这些病例强调了进行全面的DPYD基因分型的重要性,以准确识别DPD缺乏症患者,这些患者可能需要较低的氟嘧啶剂量来减轻严重的毒性反应和住院治疗。临床医生应了解商业实验室在变异检测方面的测试局限性和变异性,并在测试选择和结果解释方面寻求药物遗传学专家或可用资源的帮助。
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来源期刊
CiteScore
20.20
自引率
0.00%
发文量
388
审稿时长
4-8 weeks
期刊介绍: JNCCN—Journal of the National Comprehensive Cancer Network is a peer-reviewed medical journal read by over 25,000 oncologists and cancer care professionals nationwide. This indexed publication delivers the latest insights into best clinical practices, oncology health services research, and translational medicine. Notably, JNCCN provides updates on the NCCN Clinical Practice Guidelines in Oncology® (NCCN Guidelines®), review articles elaborating on guideline recommendations, health services research, and case reports that spotlight molecular insights in patient care. Guided by its vision, JNCCN seeks to advance the mission of NCCN by serving as the primary resource for information on NCCN Guidelines®, innovation in translational medicine, and scientific studies related to oncology health services research. This encompasses quality care and value, bioethics, comparative and cost effectiveness, public policy, and interventional research on supportive care and survivorship. JNCCN boasts indexing by prominent databases such as MEDLINE/PubMed, Chemical Abstracts, Embase, EmCare, and Scopus, reinforcing its standing as a reputable source for comprehensive information in the field of oncology.
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