[Family Study and Blood Transfusion of a Patient with Hereditary Coagulation Factor XI Deficiency].

Q4 Medicine

中国实验血液学杂志 Pub Date : 2025-08-01 DOI:10.19746/j.cnki.issn.1009-2137.2025.04.035

Ya-Xin Han, Ying Ren, Rong Zhao, Ai-Chun Qu, Zhi-Gang Yang

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引用次数: 0

Abstract

Objective: To investigate a family with hereditary coagulation factor XI (FXI) deficiency, identify its possible genetic etiology, analyze the bleeding risk of the proband, and provide a blood transfusion regimen.

Methods: The blood samples from the family members were collected, and the coagulation parameters of the proband and her family members were detected. Whole-exome sequencing was performed on the blood samples of the proband to identify gene variants, and validate the variants in the family using Sanger sequencing. Bioinformatics softwares were used to analyze the conservation of amino acid variant sites and the impact of the variations on protein function. The pathogenicity of the variant sites was analyzed according to the genetic variation classification criteria and guidelines of the American College of Medical Genetics and Genomics (ACMG). Thromboelastography (TEG) was used to assess the coagulation function of the family members and evaluate the transfusion regimen and its efficacy in the proband.

Results: The activated partial thromboplastin time (APTT) of the proband was significantly prolonged to 96.7 seconds, and FXI activity (FXI: C) and FXI antigen (FXI: Ag) decreased to 1.3% and 1%, respectively, both of which were extremely reduced. The FXI: C of the proband's father was also significantly lower than the normal value. The TEG results showed that the coagulation function of the proband was reduced, while the coagulation function of other family members was normal. The F11 gene of the proband exhibited compound heterozygous variants of c.738G>A (p.Trp246 *) and c.1288G>A (p.Ala430Thr). The proband's father carried a heterozygous missense variant of c.1288G>A (p.Ala430Thr), while her mother, her eldest daughter, and her youngest daughter carried a heterozygous nonsense variant of c.738G>A (p.Trp246 *). According to the ACMG genetic variation classification criteria and guidelines, c.738G>A (p.Trp246 *) is classified as a pathogenic variant (PVS1+PS3-Moderate+PP4), and c.1288G>A (p.Ala430Thr) is classified as a possible pathogenic variant (PS3-Moderate+PM1+PM3_Srong+PP4). p.Trp246 and p.Ala430 are highly conserved across different species. Swiss PdbViewer software analysis showed that p.Ala430Thr variant caused a change in the number of hydrogen bonds in FXI protein, affecting protein function. The following transfusion regimen was determined through TEG evaluation in vitro: 600 ml of fresh frozen plasma (FFP) was administered 24 hours before surgery to prevent bleeding. And there was no significant bleeding during or after the surgery.

Conclusion: The heterozygous nonsense variant ofc.738G>A (p.Trp246 *) and the heterozygous missense variant of c.1288G>A (p.Ala430Thr) in the F11 gene are the pathogenic factors of this hereditary FXI deficiency family.

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1例遗传性凝血因子XI缺乏症患者的家庭研究与输血

目的：调查1例遗传性凝血因子XI （FXI）缺乏家族，明确其可能的遗传病因，分析先证者出血风险，提供输血方案。方法：采集家属血样，检测先证者及其家属凝血指标。对先证者的血液样本进行全外显子组测序，以确定基因变异，并使用Sanger测序验证家族中的变异。利用生物信息学软件分析氨基酸变异位点的保守性和变异对蛋白质功能的影响。根据美国医学遗传与基因组学学会（ACMG）遗传变异分类标准和指南对变异位点进行致病性分析。采用血栓弹性成像（TEG）评估家庭成员凝血功能，评估先证输血方案及其疗效。结果：先证者活化部分凝血活素时间（APTT）显著延长至96.7秒，FXI活性（FXI: C）和FXI抗原（FXI: Ag）分别下降至1.3%和1%，均显著降低。先证者父亲的FXI: C也显著低于正常值。TEG结果显示先证者凝血功能降低，而其他家庭成员凝血功能正常。先证者F11基因存在c.738G>A （p.Trp246 *）和c.1288G>A （p.Ala430Thr）复合杂合变异体。先证者父亲携带c.1288G> a杂合无义变异（p.Ala430Thr），母亲、大女儿和小女儿携带c.738G> a杂合无义变异（p.Trp246 *）。根据ACMG遗传变异分类标准和指南，c.738G>A （p.Trp246 *）被归类为致病变异（PVS1+PS3-Moderate+PP4）， c.1288G>A （p.a ala430thr）被归类为可能致病变异（PS3-Moderate+PM1+ pm3_strong +PP4）。p.Trp246和p.Ala430在不同物种中高度保守。瑞士PdbViewer软件分析显示，p.a ala430thr变异引起FXI蛋白中氢键数量的改变，影响蛋白功能。通过体外TEG评估确定以下输血方案：术前24小时给予新鲜冷冻血浆（FFP） 600 ml以防止出血。手术期间和手术后都没有明显出血。结论：ofc的杂合无义变异。738G>A （p.Trp246 *）和F11基因c.1288G>A杂合错义变异（p.a ala430thr）是该遗传性FXI缺陷家族的致病因素。

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