Noninvasive fetal antigen genotyping: Results from a survey on the status of clinical implementation.

IF 1.6 4区医学 Q3 HEMATOLOGY

Vox Sanguinis Pub Date : 2025-09-01 Epub Date: 2025-06-09 DOI:10.1111/vox.70062

Frederik Banch Clausen, Åsa Hellberg, Cécile Toly-Ndour, Emilie Thorup Nielsen, Masja de Haas

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引用次数: 0

Abstract

Background and objectives: Noninvasive fetal antigen genotyping can assist the management of immunized pregnant women, and fetal RHD genotyping can be used as a screening assay to guide restricted use of Rh prophylaxis. Based on a survey, we present an overview of the implementation of noninvasive fetal antigen genotyping into clinical practice.

Materials and methods: A survey was developed and sent out to the members of the International Society of Blood Transfusion (ISBT) working party on Red Cell Immunogenetics and Blood Group Terminology and to participants of the international noninvasive fetal RHD genotyping programme from the Danish Institute for External Quality Assurance for Laboratories in the health sector (DEKS). The survey contained four sections: fetal RHD screening, fetal RHD genotyping for RhD immunized women, fetal genotyping of other antigen targets than RhD and a section for collecting topics for future collaboration. The survey data were evaluated by the core author group.

Results: Fifty-two survey responders were from 22 countries. Fetal RHD screening was implemented by 73%, foremost using real-time PCR with in-house assays, primarily, or commercially available kits. Most laboratories use the same assay for RhD immunized women. Thirty-eight percent of the responders test for other antigen targets than RhD, using either real-time PCR, droplet digital PCR (ddPCR) or DNA sequencing. There was an interest in collaborations on topics across methodology, technology, strategy and health care regulations.

Conclusion: In general, we found that noninvasive fetal blood group antigen genotyping is well implemented. However, our results are biased towards high-income countries, Europe and laboratories already running noninvasive fetal antigen genotyping.

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无创胎儿抗原基因分型：临床实施情况调查结果。

背景与目的：无创胎儿抗原基因分型可辅助免疫孕妇的管理，胎儿RHD基因分型可作为一种筛选试验，指导有限制地使用Rh预防。基于一项调查，我们提出了实施无创胎儿抗原基因分型临床实践的概述。材料和方法：制定了一项调查，并向国际输血协会（ISBT）红细胞免疫遗传学和血型术语工作组的成员以及丹麦卫生部门实验室外部质量保证研究所（DEKS）的国际无创胎儿RHD基因分型计划的参与者发出。调查内容包括四个部分：胎儿RHD筛查、RHD免疫妇女的胎儿RHD基因分型、RHD以外其他抗原靶点的胎儿基因分型和收集未来合作主题的部分。调查数据由核心作者组进行评估。结果：52名受访者来自22个国家。胎儿RHD筛查的执行率为73%，主要使用实时PCR与内部分析，或市售试剂盒。大多数实验室对接种了RhD的妇女使用相同的检测方法。38%的应答者使用实时PCR、液滴数字PCR （ddPCR）或DNA测序检测RhD以外的其他抗原靶标。大家对在方法学、技术、战略和卫生保健条例等主题上开展合作很感兴趣。结论：总的来说，无创胎儿血型抗原基因分型是可行的。然而，我们的结果偏向于高收入国家、欧洲和已经开展无创胎儿抗原基因分型的实验室。

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

Vox Sanguinis 医学-血液学

CiteScore

4.40

自引率

11.10%

发文量

156

审稿时长

6-12 weeks

期刊介绍： Vox Sanguinis reports on important, novel developments in transfusion medicine. Original papers, reviews and international fora are published on all aspects of blood transfusion and tissue transplantation, comprising five main sections: 1) Transfusion - Transmitted Disease and its Prevention: Identification and epidemiology of infectious agents transmissible by blood; Bacterial contamination of blood components; Donor recruitment and selection methods; Pathogen inactivation. 2) Blood Component Collection and Production: Blood collection methods and devices (including apheresis); Plasma fractionation techniques and plasma derivatives; Preparation of labile blood components; Inventory management; Hematopoietic progenitor cell collection and storage; Collection and storage of tissues; Quality management and good manufacturing practice; Automation and information technology. 3) Transfusion Medicine and New Therapies: Transfusion thresholds and audits; Haemovigilance; Clinical trials regarding appropriate haemotherapy; Non-infectious adverse affects of transfusion; Therapeutic apheresis; Support of transplant patients; Gene therapy and immunotherapy. 4) Immunohaematology and Immunogenetics: Autoimmunity in haematology; Alloimmunity of blood; Pre-transfusion testing; Immunodiagnostics; Immunobiology; Complement in immunohaematology; Blood typing reagents; Genetic markers of blood cells and serum proteins: polymorphisms and function; Genetic markers and disease; Parentage testing and forensic immunohaematology. 5) Cellular Therapy: Cell-based therapies; Stem cell sources; Stem cell processing and storage; Stem cell products; Stem cell plasticity; Regenerative medicine with cells; Cellular immunotherapy; Molecular therapy; Gene therapy.