Shannon Rego, Olaide Ashimi Balogun, Kirsten Emanuel, Rachael Overcash, Juan M Gonzalez, Gregory A Denomme, Jennifer Hoskovec, Haley King, Ashley Wilson, Julia Wynn, Kenneth J Moise
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Both the pregnant person with the alloimmunized pregnancy and the neonates resulting from the pregnancies were included. The laboratory issued the cell-free DNA results prospectively as a part of clinical care. After delivery, neonatal buccal swabs collected between 0 and 270 days of life were sent to an outside independent laboratory for antigen genotyping. The outside laboratory was blinded to the fetal cell-free DNA results, and the results were compared. Concordance was reported for the fetal antigen cell-free DNA analysis for antigens to which the pregnant person was alloimmunized and for all antigens for which the pregnant person was genotype negative.</p><p><strong>Results: </strong>A total of 156 pregnant people who received clinically ordered cell-free DNA fetal antigen testing provided neonatal buccal swabs for genotyping after delivery. Overall, 15.4% of participants were Hispanic, 9.0% were non-Hispanic Black, 65.4% were non-Hispanic White, 4.5% were Asian, 1.3% were more than one race or ethnicity, and 4.5% were unknown. The median gestational age at the time of testing was 16.4 weeks with a median fetal fraction of 11.1%. Concordance between cell-free DNA analysis results and neonatal genotype was determined for 465 antigen calls for the following antigens: K1 (n=143), E (124), C (60), Fy a (50), c (47), and D(RhD) (41). These 465 calls included 145 in which the fetus was antigen positive and 320 in which the fetus was antigen negative. We observed complete concordance between prenatal fetal antigen cell-free DNA analysis results and neonatal genotypes for the 465 calls, resulting in 100% sensitivity, specificity, and accuracy.</p><p><strong>Conclusion: </strong>In a diverse multicenter cohort, cell-free DNA analysis was highly sensitive and specific for determining fetal antigen genotype as early as 10 weeks of gestation in individuals with alloimmunized pregnancies. Taken together with previously published evidence, this study supports the implementation of cell-free DNA testing to manage individuals with alloimmunized pregnancies in the United States.</p>","PeriodicalId":5,"journal":{"name":"ACS Applied Materials & Interfaces","volume":null,"pages":null},"PeriodicalIF":8.3000,"publicationDate":"2024-10-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11407774/pdf/","citationCount":"0","resultStr":"{\"title\":\"Cell-Free DNA Analysis for the Determination of Fetal Red Blood Cell Antigen Genotype in Individuals With Alloimmunized Pregnancies.\",\"authors\":\"Shannon Rego, Olaide Ashimi Balogun, Kirsten Emanuel, Rachael Overcash, Juan M Gonzalez, Gregory A Denomme, Jennifer Hoskovec, Haley King, Ashley Wilson, Julia Wynn, Kenneth J Moise\",\"doi\":\"10.1097/AOG.0000000000005692\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Objective: </strong>To evaluate the accuracy of next-generation sequencing-based quantitative cell-free DNA analysis for fetal antigen genotyping in individuals with alloimmunized pregnancies undergoing clinical testing in practices across the United States as early as 10 weeks of gestation, with the objective of identifying individuals with pregnancies at risk for hemolytic disease of the fetus and newborn and guiding management.</p><p><strong>Methods: </strong>This prospective cohort study included patients with alloimmunized pregnancies undergoing clinical fetal antigen cell-free DNA analysis between 10 0/7 and 37 0/7 weeks of gestation at 120 clinical sites. Both the pregnant person with the alloimmunized pregnancy and the neonates resulting from the pregnancies were included. The laboratory issued the cell-free DNA results prospectively as a part of clinical care. After delivery, neonatal buccal swabs collected between 0 and 270 days of life were sent to an outside independent laboratory for antigen genotyping. The outside laboratory was blinded to the fetal cell-free DNA results, and the results were compared. Concordance was reported for the fetal antigen cell-free DNA analysis for antigens to which the pregnant person was alloimmunized and for all antigens for which the pregnant person was genotype negative.</p><p><strong>Results: </strong>A total of 156 pregnant people who received clinically ordered cell-free DNA fetal antigen testing provided neonatal buccal swabs for genotyping after delivery. Overall, 15.4% of participants were Hispanic, 9.0% were non-Hispanic Black, 65.4% were non-Hispanic White, 4.5% were Asian, 1.3% were more than one race or ethnicity, and 4.5% were unknown. The median gestational age at the time of testing was 16.4 weeks with a median fetal fraction of 11.1%. Concordance between cell-free DNA analysis results and neonatal genotype was determined for 465 antigen calls for the following antigens: K1 (n=143), E (124), C (60), Fy a (50), c (47), and D(RhD) (41). These 465 calls included 145 in which the fetus was antigen positive and 320 in which the fetus was antigen negative. 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引用次数: 0
摘要
目的目的:评估基于新一代测序技术的无细胞 DNA 定量分析对美国各地早在妊娠 10 周就接受临床检测的同种异体免疫妊娠患者进行胎儿抗原基因分型的准确性,以识别有胎儿和新生儿溶血病风险的妊娠患者并指导治疗:这项前瞻性队列研究包括在 120 个临床地点对妊娠 10 0/7 周至 37 0/7 周期间接受临床胎儿抗原无细胞 DNA 分析的异体免疫妊娠患者。异体免疫妊娠的孕妇和妊娠产生的新生儿均被纳入研究范围。作为临床护理的一部分,实验室将前瞻性地发布无细胞 DNA 结果。分娩后,在新生儿出生 0 天至 270 天期间采集的新生儿口腔拭子被送往外部独立实验室进行抗原基因分型。外部实验室对胎儿无细胞 DNA 检测结果是盲法,并对结果进行比较。结果显示,胎儿抗原无细胞DNA分析与孕妇同种免疫的抗原分析以及孕妇基因型阴性的所有抗原分析结果一致:共有 156 名接受过无细胞 DNA 胎儿抗原检测的孕妇在分娩后提供了新生儿口腔拭子进行基因分型。总体而言,15.4%的参与者为西班牙裔,9.0%为非西班牙裔黑人,65.4%为非西班牙裔白人,4.5%为亚裔,1.3%为多个种族或族裔,4.5%为未知。检测时的中位胎龄为 16.4 周,中位胎儿比例为 11.1%。无细胞DNA分析结果与新生儿基因型的一致性是根据以下465个抗原的抗原调用确定的:K1(143 个)、E(124 个)、C(60 个)、Fya(50 个)、C(47 个)和 D(RhD)(41 个)。这 465 次调用包括 145 次胎儿抗原阳性调用和 320 次胎儿抗原阴性调用。我们观察到,产前胎儿抗原无细胞 DNA 分析结果与新生儿基因型在 465 次调用中完全一致,灵敏度、特异性和准确性均为 100%:结论:在一个多样化的多中心队列中,无细胞DNA分析对于确定早在妊娠10周的异体免疫妊娠个体的胎儿抗原基因型具有高度敏感性和特异性。综合之前发表的证据,本研究支持在美国采用无细胞 DNA 检测来管理异体免疫妊娠患者。
Cell-Free DNA Analysis for the Determination of Fetal Red Blood Cell Antigen Genotype in Individuals With Alloimmunized Pregnancies.
Objective: To evaluate the accuracy of next-generation sequencing-based quantitative cell-free DNA analysis for fetal antigen genotyping in individuals with alloimmunized pregnancies undergoing clinical testing in practices across the United States as early as 10 weeks of gestation, with the objective of identifying individuals with pregnancies at risk for hemolytic disease of the fetus and newborn and guiding management.
Methods: This prospective cohort study included patients with alloimmunized pregnancies undergoing clinical fetal antigen cell-free DNA analysis between 10 0/7 and 37 0/7 weeks of gestation at 120 clinical sites. Both the pregnant person with the alloimmunized pregnancy and the neonates resulting from the pregnancies were included. The laboratory issued the cell-free DNA results prospectively as a part of clinical care. After delivery, neonatal buccal swabs collected between 0 and 270 days of life were sent to an outside independent laboratory for antigen genotyping. The outside laboratory was blinded to the fetal cell-free DNA results, and the results were compared. Concordance was reported for the fetal antigen cell-free DNA analysis for antigens to which the pregnant person was alloimmunized and for all antigens for which the pregnant person was genotype negative.
Results: A total of 156 pregnant people who received clinically ordered cell-free DNA fetal antigen testing provided neonatal buccal swabs for genotyping after delivery. Overall, 15.4% of participants were Hispanic, 9.0% were non-Hispanic Black, 65.4% were non-Hispanic White, 4.5% were Asian, 1.3% were more than one race or ethnicity, and 4.5% were unknown. The median gestational age at the time of testing was 16.4 weeks with a median fetal fraction of 11.1%. Concordance between cell-free DNA analysis results and neonatal genotype was determined for 465 antigen calls for the following antigens: K1 (n=143), E (124), C (60), Fy a (50), c (47), and D(RhD) (41). These 465 calls included 145 in which the fetus was antigen positive and 320 in which the fetus was antigen negative. We observed complete concordance between prenatal fetal antigen cell-free DNA analysis results and neonatal genotypes for the 465 calls, resulting in 100% sensitivity, specificity, and accuracy.
Conclusion: In a diverse multicenter cohort, cell-free DNA analysis was highly sensitive and specific for determining fetal antigen genotype as early as 10 weeks of gestation in individuals with alloimmunized pregnancies. Taken together with previously published evidence, this study supports the implementation of cell-free DNA testing to manage individuals with alloimmunized pregnancies in the United States.
期刊介绍:
ACS Applied Materials & Interfaces is a leading interdisciplinary journal that brings together chemists, engineers, physicists, and biologists to explore the development and utilization of newly-discovered materials and interfacial processes for specific applications. Our journal has experienced remarkable growth since its establishment in 2009, both in terms of the number of articles published and the impact of the research showcased. We are proud to foster a truly global community, with the majority of published articles originating from outside the United States, reflecting the rapid growth of applied research worldwide.