CMA、CNV-seq诊断引产胎儿DNA异常及病因效果

目的:探讨染色体微阵列芯片技术(CMA)、低深度全基因组测序技术(CNV-seq)对引产胎儿DNA异常的诊断价值及病因检出情况。方法:将2021年1月-2023年12月于本院进行引产的150例孕妇作为研究对象,以产前无创基因筛查(NIPT)技术检测结果作为引产胎儿DNA结果的金标准,对引产胎儿行CMA、CNV-seq检测。比较CMA、CNV-seq检测结果与金标准的符合情况;受试者特征曲线(ROC)分析CMA、CNV-seq检测对引产胎儿DNA异常的诊断价值;对比CMA、CNV-seq检测对引产胎儿DNA异常病因检测结果。结果:引产胎儿DNA异常的阳性检出率CNV-seq检测(85.9%)高于CMA检测(73.7%);CNV-seq检测诊断引产胎儿DNA异常的曲线下面积(0.870)高于CMA检测(0.761),CNV-seq检测对引产胎儿DNA异常病因的检出情况(85.9%)高于CMA检测(73.7%)(均P<0.05)。结论:CMA、CNV-seq对引产胎儿DNA异常及其病因均有较高检出率,且CNV-seq检测诊断效能更高,可为产前诊断胎儿DNA异常提供参考。

Gene Analysis of Free Fetal DNA in Maternal Plasma

To investigate the feasibility of using free fetal DNA from maternal plasma as the source of fetal material in non invasive prenatal diagnosis, SRY gene of free DNA in maternal blood of 65 samples were analyzed by using primer extension preamplication (PEP) and probe microplate hybridization techniques. The results showed that the detection rate of SRY gene in maternal blood from women carrying male fetuses detected by probe microplate hybridization alone and probe microplate hybridization with PEP were 76.09 % (35/46) and 95.65 % (44/46) respectively, and there was a significant difference between them. The non detection rate of SRY gene in blood samples from women carrying female fetus was 100 % (19/19). It is indicated that probe microplate hybridization was an effective method in detecting trace fetal DNA from maternal plasma and the sensitivity could be substantially improved by combined use of the two techniques. Analysis of fetal DNA in maternal plasma can serve as an alternative for non invasive prenatal diagnosis.

Application of Fetal DNA in Maternal Plasma in Noninvasive Prenatal Diagnosis

To explore the application of fetal DNA in maternal plasma for noninvasive prenatal diagnosis, the DNA template was extracted by hydroxybenzene chloroform from 44 maternal (7-41 weeks) plasma. The Fetus derived Y sequence DYZ 1 gene (149bp) was chosen to be amplified by PCR. The fragment was identified in all the plasma of male bearing pregnant women with the diagnostic accordance rate being 100.00 %. Two of the 22 female bearing pregnant women had false positive results. Among the 44 pregnant women, the diagnostic accordance rate was 88.89 % at early pregnant stage, 100.00 % at medium pregnant stage, and 96.55 % at late stage respectively. The final accuracy of 95.45 % was obtained in all cases. It was concluded that by means of hydroxybenzene chloroform extraction the authors of this article promoted the concentration and purity of the DNA template, and diagnosed more accurately. The results showed that free fetal DNA in the maternal plasma could be regarded as the gene resource for noninvasive prenatal diagnosis.

Detection of Fetal Nucleated Erythrocytes and Fetal DNA from Peripheral Blood of Pregnant Women

In order to search for a more reliable method of sorting fetal nucleated red blood cells (NRBCs) and DNA from maternal peripheral blood and to identify origin of NRBCs and DNA, NRBCs were isolated from peripheral blood of 88 pregnant women by density gradient centrifugation and fluorescence activated cell sorter (FACS) respectively. Nested polymerase chain reaction was used to detect normal male SRY gene from blood plasma DNA of 65 pregnant women. The results revealed that fetal NRBCs were found in 14 of 27 maternal samples by density gradient centrifugation. The number of cells was from 1 to 10. Using FACS, CD71 + cells were identified among all 61 samples. The frequency was (0.35±0.25)×10 -2; The detectable rate of the SRY gene of blood plasma DNA from 46 women carrying male fetuses was 65.22 % (30/46). Non-detectable rate for 19 women carrying female fetuses was 94.74 % (18/19). It was concluded that the methods of sorting fetal NRBCs and DNA have already made great progress. The methods for fetal NRBCs and plasma DNA from maternal peripheral blood to diagnose genetic diseases seem to be the best methods of noninvasive prenatal diagnosis.

Two approaches for calculating female fetal DNA fraction in noninvasive prenatal testing based on size analysis of maternal DNA fragments

The concentration of cell-free fetal DNA fragments should be detected before noninvasive prenatal testing(NIPT).The fetal DNA molecules have significant clinical potential in determining the overall performance of NIPT and clinical interpretation.It is important to measure fetal DNA fraction before NIPT.However,there is still little research on how to calculate the concentration of female fetuses.Two estimation approaches were proposed to calculate fetal DNA fraction,including the fragments size-based approach,aneuploid-based approach,which are all approaches based on chromosome segments.Based on high-throughput sequencing data,two approaches to calculate the DNA fraction of male fetuses were tested and obtained the experiment values,which were close to the actual values.The correlation coefficient of fragments size-based approach was 0.9243(P<0.0001)and the aneuploid-based approach reached 0.9339(P<0.0001).We calculated the concentration of female fetuses and obtained remarkable experimental results.We came up with two approaches for calculating the fetal DNA fraction of female fetuses.It provides an important theoretical basis for the detection of female fetal concentration in future clinical diagnosis.

Non-invasive Prenatal Gene Diagnosis: Progress through Cell-free Fetal DNA and RNA in Maternal Plasma and Urine

Non-invasive prenatal gene diagnosis has been developed rapidly in the recent years, and numerous medical researchers are focusing on it. Such techniques could not only achieve prenatal diagnosis accurately, but also prevent tangential illness in fetuses and thus, reduce the incidence of diseases. Moreover, it is non-invasive prenatal gene diagnosis that prevents potential threaten and danger to both mothers and fetuses. Therefore, it is welcomed by clinical gynecologist and obstetrian, researchers of medical genetics, and especially, pregnancies. This review article touches briefly on the advanced development of using cell-free DNA, RNA in maternal plasma and urine for non-invasive prenatal gene diagnosis.

无创胎儿游离DNA血型检测在产前诊断中的研究进展

胎儿游离DNA(cell-free fetal DNA,cff-DNA)存在于孕妇妊娠期外周血中,其为携带胎儿相关遗传信息的DNA片段,可以进行胎儿染色体、基因相关疾病筛查。因其操作风险低、无副作用,目前已被广泛用于无创产前诊断检测(non-invasive prenatal testing,NIPT)。无创cff-DNA血型检测是运用分子生物学检测cff-DNA血型相关基因,得出胎儿血型结果。以此在妊娠期即可检测出胎母血型是否一致,判断胎儿有无发生血型不合所致胎儿新生儿溶血病(hemolytic disease of the fetus and newborn,HDFN)的风险。

母体循环中胎儿游离DNA在单基因病产前诊断的研究进展

单基因病是引起胎儿出生缺陷的主要原因之一,其种类多,病情复杂,缺乏有效治疗方法,且预后差。目前,无创产前检测(NIPT)已成为筛查胎儿非整倍体的主要手段,在临床上广泛应用。基于母体循环中胎儿游离DNA(cffDNA)的发现及高通量测序技术的发展,单基因病的NIPT成为研究热点,且检测技术及其检测的疾病种类也在不断增加,但是单基因病的检测存在难度大、成本高等问题。目前胎儿单基因病的NIPT仍然处于研究阶段,尚未在临床应用。因此,深入研究母体循环中cffDNA的NIPT对单基因病产前诊断具有重要意义。

血浆游离胎儿DNA浓度联合血清妊娠相关血浆蛋白-A、β-人绒毛膜促性腺激素检测对孕妇不良妊娠结局的预测价值

目的探讨血浆游离胎儿DNA(cff-DNA)浓度联合血清妊娠相关血浆蛋白-A(PAPP-A)和β-人绒毛膜促性腺激素(β-hCG)检测对孕妇不良妊娠结局的预测价值。方法选取2022年8月至2023年2月佛山复星禅诚医院收治的进行产检、唐氏筛查和无创产前DNA检查(NIPT)的195例孕妇作为研究对象。将发生不良妊娠结局的孕妇设为研究组(n=36),无不良妊娠结局的孕妇设为对照组(n=159)。检测两组血浆cff-DNA浓度、血清PAPP-A和β-hCG水平;采用Spearman分析血浆cff-DNA浓度、血清PAPP-A和β-hCG水平与不良妊娠结局的相关性;采用受试者工作特征(ROC)曲线分析血浆cff-DNA浓度、血清PAPP-A和β-hCG水平对不良妊娠结局的预测价值。结果与对照组比较,研究组血浆cff-DNA浓度和血清PAPP-A水平显著更低,血清β-hCG水平显著更高,差异具有统计学意义(P<0.05);Spearman分析结果显示,血浆cff-DNA浓度、血清PAPP-A和β-hCG水平与妊娠期高血压、子痫前期、早产、死胎、新生儿窒息和胎儿生长受限不良妊娠结局具有显著相关性(P<0.05);ROC曲线结果显示,血浆cff-DNA浓度单独预测孕妇不良妊娠结局的曲线下面积为0.807,截断值为11.82%;血清PAPP-A单独预测孕妇不良妊娠结局的曲线下面积为0.804,截断值为0.41;血清β-hCG单独预测孕妇不良妊娠结局的曲线下面积为0.815,截断值为2.56;预测效能比较结果显示,血浆cff-DNA浓度、血清PAPP-A和β-hCG水平联合预测孕妇不良妊娠结局的特异度(97.48%)和准确度(96.41%)均显著高于三者单独预测(P<0.05),误诊率(2.52%)显著低于三者单独预测(P<0.05)。结论血浆cff-DNA浓度联合血清PAPP-A、β-hCG检测对孕妇不良妊娠结局具有较高的预测价值。

无创DNA检查在单项超声软指标异常胎儿染色体筛查中的临床意义

目的:探究无创DNA检查(non-invasive DNA,NIPT)在单项超声软指标(ultrasound soft index,USM)异常胎儿染色体筛查中的临床意义。方法:选取2022年1月至2023年8月于郑州四六〇医院进行NIPT的174例单项USM阳性孕妇进行回顾性研究,分析其USM及NIPT结果,以临床最终结果为“金标准”,分析NIPT诊断结果及诊断效能,进一步分析不同检查结果的妊娠结局情况。结果:174例单项USM异常孕妇中,NIPT提示161例低风险,13例高风险,提示高风险包括2例性染色体数目异常,18-三体、13-三体各1例,21-三体9例;核型分析检测提示9例21-三体,1例47、XYY,18-三体、13-三体各1例,其中1例NIPT提示性染色体数目异常,患者核型分析检测结果提示正常;NIPT诊断灵敏度为85.71%,准确度为98.28%,漏诊率为15.38%;NIPT提示161例低风险,另有1位NIPT提示高风险患者经核型分析结果显示其染色体未出现明显异常现象,共计162例,其中18例在其他医院分娩,4例患者失访,其他孕妇均在郑州四六〇医院妇产科行产检、分娩,随访结果显示新生儿无明显异常;NIPT提示14例高风险孕妇中,XYY染色体数目异常、核型正常孕妇选择足月分娩,21-三体、13-三体、18-三体核型异常孕妇均选择引产。结论:NIPT在单项USM异常孕妇中具有较高的诊断灵敏度、准确度,漏诊率相对较低,可为临床及时筛查单项USM异常孕妇胎儿异常,降低流产风险提供可靠依据。

孕妇血样采集后体外存放对血浆中胎儿游离DNA水平的影响

目的:探讨孕妇血样采集后体外存放过程中血浆游离DNA水平的影响因素。方法:采集孕妇血样,体外4℃存放6、36h后,实时定量PCR检测孕妇外周游离DNA水平,Annexin Ⅴ/PI双染色法流式分析血样白细胞死亡情况,速率法检测血浆乳酸脱氢酶(LDH)活性,单相酶扩散法测定血浆DNA酶活性。结果:血样体外存放36h后,血浆中β-globin基因的拷贝数较存放6h的样品显著增加,而SRY基因拷贝数明显减少;4℃存放条件下,妊娠晚期孕妇外周血中胎儿DNA占总DNA百分比从6h的(10.3±5.6)%下降到36h的(3.0±2.1)%,差异有统计学意义(P<0.05)。体外存放6h的血样中基本未检出死亡细胞,而存放36h的血样中分别检出了坏死和凋亡的白细胞;36h样品血浆中LDH活性较6h样品显著升高(P<0.05)。单相酶扩散法结果表明,血浆DNA酶在4℃时虽然活性显著减弱,但仍然保持降解DNA的能力。结论:血样采集后体外存放时间过长会导致血浆总游离DNA增多,而胎儿DNA减少,这种变化可能与血样体外存放过程中白细胞死亡和血浆DNA酶对胎儿DNA的降解作用有关;胎儿DNA抽提应在血样采集后尽早(6h内)进行。

利用孕妇血浆中的胎儿DNA进行β-地中海贫血的产前诊断

目的利用孕妇血浆中游离胎儿DNA(cffDNA)对广东省最常见17种β地中海贫血的突变基因进行扩增,探讨非创引个伤常性物见产,对位前c点诊ffD和断Nβ9A-个地进少中行见海二位贫次点血P突C的R变可,反的行向共性斑。17点方种杂法β地交贫技①基术羊因检水;测途②β径抽地:取中抽孕海取妇贫孕外血妇周的羊血突水,变共柱基9分例因离,。采法结用提果反取向及9例斑凝孕点胶妇杂回中交收有技纯5术化例检D经N测羊A中,水设国检计人测群3对证8实胎儿有父系的β地贫基因,有2例孕妇外周血中检测到胎儿(父系)β地贫基因,与羊水检测相符。结论利用cffDNA进行β-地中海贫血的检测方法可行,但由于母源性DNA背景的污染,以及胎儿DNA因含量而导致检出率低,希望进一步改进该技术后有望可用于β-地中海贫血的诊断。

游离胎儿DNA高通量基因测序技术在产前筛查的临床应用

目的:探讨应用孕妇血浆中游离胎儿DNA高通量基因测序技术在无创性产前诊断中的可行性。方法:采用化学发光法对22977例孕中期妇女进行唐氏综合征筛查,对筛查结果为高风险的1173例孕妇采用高通量基因测序技术检测母体血浆胎儿游离DNA,分析胎儿染色体拷贝数,检测结果为高危的孕妇再做羊膜腔穿刺及脐血穿刺术进行胎儿染色体核型分析。结果:1173例孕妇中游离胎儿DNA高通量基因测序技术检测出11例染色体高风险胎儿,羊水/脐血核型分析证实其中10例为染色体异常,分别为7例21-三体和2例18-三体,1例13-三体。游离胎儿DNA高通量基因测序技术的敏感度为100.00%(10/10),特异度为99.91%(1162/1163),假阴性率为0(0/1173),假阳性率为0.09%(1/1173)。结论:母体血浆游离DNA高通量基因测序技术可用于胎儿染色体拷贝数异常的检测,有准确性高、假阴性和假阳性率低、无创取样的优点,但由于费用较高,可结合血清学唐氏综合征筛查在有条件的地区进行推广应用。

孕妇血浆游离DNA高通量测序用于胎儿性染色体非整倍体检测的初步探讨

目的初步探讨孕妇血浆游离DNA高通量测序用于产前胎儿性染色体非整倍体检测的效果及临床可行性。方法2011年至2012年收集早、中孕期单胎孕妇5 540例,在知情同意的原则下采集外周血血浆进行游离DNA的高通量测序检测,通过生物信息学分析,获得测序结果;对测序检出的性染色体非整倍体患者行羊水穿刺,进行染色体G显带分析。结果5 540例样本中测序方法共检出10例性染色体非整倍体,其中6例与G带核型分析结果一致,包括3例45,X,1例47,XXY,2例47,XYY,其余4例G带核型正常。结论孕母血浆游离DNA高通量测序可对性染色体非整倍体胎儿进行无创性产前检测,但存在假阳性,还需进一步完善实验方案以提高检测效果。

应用孕妇血浆中胎儿游离DNA进行产前筛查的临床研究进展

无创产前检测(NIPT)是采用二代测序技术对孕妇血浆中胎儿游离DNA(cffDNA)片段进行检测,通过生物信息学分析进行常见的胎儿染色体非整倍体异常的筛查。因其具有较高的检出率、敏感度和特异度以及较低的假阳性率,成为目前广泛应用的染色体非整倍体的产前筛查技术。通过NIPT筛查高风险孕妇选择性进行有创产前诊断,可避免大量不必要的有创性产前诊断。母体及胎儿因素可影响NIPT检测结果。临床应用时应充分考虑不同孕妇的个体情况。本文就应用孕妇血浆中cffDNA进行NIPT的临床研究进展及其影响因素进行综述,为个体化、规范化应用NIPT技术提供参考。

唐氏综合征高危孕妇血浆中游离胎儿DNA的Y染色体微缺失筛查

目的利用孕妇血浆中游离胎儿DNA在孕早期进行Y染色体微缺失筛查，诊断男性胎儿无精子症因子（AZF）缺失情况。方法留取2013年6月～2014年8月参加产前检测的16～34孕周唐氏综合征筛查高危孕妇的外周血标本89例，提取出全血基因组DNA后利用Y染色体微缺失检测试剂盒检测AZF微缺失。结果86例孕妇妊娠至胎儿出生，其中男胎孕妇45例，女胎孕妇41例。妊娠女性胎儿的孕妇血浆DNA仅扩增出ZFX／ZFY对照基因，而妊娠男性胎儿的孕妇血浆DNA同时扩增出SRY，ZFX／ZFY对照基因，且有3例样本检测出AZF基因微缺失。结论通过提取孕妇血浆中游离胎儿DNA能够检测出胎儿是否伴有AZF基因微缺失，从而提前预测胎儿今后罹患生精障碍的风险。

孕妇外周血中胎儿游离DNA在产前诊断中的应用

孕妇外周血中胎儿游离DNA的发现,为无创性产前诊断开辟了一条新途径。检测孕妇血浆中特异的胎儿DNA序列已被用于胎儿性连锁疾病鉴定、RhD血型检查和多种单基因遗传病的产前诊断;游离DNA水平的变化还可被用作某些妊娠相关疾病如先兆子、早产和胎儿染色体疾病的临床诊断新指标。本文对母体外周血中胎儿游离DNA的生化特征及其临床应用研究,进行了总结和分析。

孕妇血浆中游离胎儿DNA短串联重复序列检测

目的:建立一种简便、不依赖于胎儿性别和父本DNA的无创性产前诊断方法。方法:应用降落PCR和二次PCR扩增技术,结合母源DNA对照,以34例孕妇外周静脉血血浆作为标本,口腔上皮细胞拭子作为母源对照,孕妇配偶外周血DNA作为父源对照,检测正常孕妇血浆中游离胎儿DNAD17S1293、D21S11及DXS8377等基因位点。结果:34例孕妇血浆DNA中均检出非母源性等位基因条带,其中17例经父源DNA验证。结论:采用降落PCR和二次PCR扩增技术,可以提高孕早期微量游离胎儿DNA的扩增效率,准确、快捷地获得不依赖于父本DNA的胎儿遗传信息。

孕妇血浆游离胎儿DNA检测在产前诊断中的应用

目的:介绍孕妇血浆中游离胎儿DNA高通量基因测序技术在非创伤性产前诊断中的应用现状,探讨其存在的优缺点及可行性。方法:收集3 695例在本院门诊做孕中期产前诊断的孕妇血浆,采用高通量基因测序技术检测母体血浆胎儿游离DNA,分析胎儿染色体拷贝数;对筛查高危孕妇行羊膜腔穿刺及脐血穿刺术进行胎儿染色体核型分析。结果:孕妇血浆中游离胎儿DNA高通量基因测序技术共检测出39例染色体高风险胎儿,2例可疑高风险胎儿,经羊水/脐血核型分析证实其中39例为染色体异常,分别为31例21-三体和7例18-三体,1例13-三体。游离胎儿DNA高通量基因测序技术的敏感度为100.0%,特异度为99.9%。结论:母体血浆游离DNA高通量基因测序技术可用于筛查胎儿染色体拷贝数异常的检测,但仍然需要与传统染色体分析技术结合做产前诊断。

通过富集母血浆中胎儿游离DNA无创性产前诊断β地中海贫血

目的:评价富集母血浆中胎儿游离DNA的实验平台在母血浆中富集、鉴定胎儿游离DNA的适用范围。方法:(1)筛选与父源性β地中海贫血基因连锁的单核苷酸多态性(SNP)位点:利用Haploview软件对20例β地中海贫血患者(其中CD41-42型11例,IVS-II-654型9例)的β地中海贫血基因(HBB基因)进行SNP与单倍型自动化分析,检索出HBB基因内杂合度较高的SNP位点并检测与CD41-42位点及IVS-II-654位点连锁的SNP位点。(2)选取4例孕妇外周血标本,且夫妇双方为不同的β地中海贫血基因类型,利用快速耐受温度-低变性温度共扩增PCR技术(TT-FAST-COLD-PCR)检测父源性β地中海贫血基因类型为IVS-II-654型的孕妇外周血标本,若未直接检测到IVS-II-654位点,则检测仅与IVS-II-654位点连锁的SNP位点;同样的原理,利用完全耐受温度-低变性温度共扩增技术(TT-FULL-COLD-PCR)检测父源性β地中海贫血基因类型为CD41-42型的孕妇外周血标本;同时利用普通PCR技术对上述标本进行检测。结果:(1)检测出IVS-II654位点与rs7480526位点连锁9例;CD41-42位点与rs10768683位点连锁11例;(2)通过TT-FAST-COLD-PCR技术在孕妇外周血中检测出1例父源性致病突变基因(IVS-II-654位点),另外1例未直接检测到父源性致病突变基因,但检测到与其连锁的SNP位点(rs7480526位点),与羊水细胞培养检测结果一致,检出率为100%(2/2);通过TT-FULL-COLD-PCR技术在孕妇外周血中检测出2例父源性致病突变基因(CD41-42位点),与羊水细胞培养检测结果一致,检出率为100%(2/2);而普通PCR技术均未检测到上述父源性致病突变基因及与父源性等位基因连锁的SNP位点。结论:TT-COLD-PCR技术适用于富集母血浆中胎儿游离DNA突变,可用于无创性产前诊断单基因遗传病。