假缺乏等位基因影响新生儿ii型糖原贮积病筛查

Q4 Health Professions

中华检验医学杂志 Pub Date : 2019-12-11 DOI:10.3760/CMA.J.ISSN.1009-9158.2019.12.011

Ting Chen, W. Qiu, Yu Sun, Jianguo Wang, Z. Gong, Yu Wang, Xiaoling Gao, Yongguo Yu

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Retrospective analysis of 3 172 controls without GSDⅡand 36 GSD Ⅱ patients were conducted to investigate the carrier status of pseudodeficiency alleles. Statistical analysis of frequency of pseudodeficiency alleles were carried out by Chi-square test or Fisher exact probability test. \n \n \nResults \nGAA activity of 30 507 newborns showed a positively skewed distribution.Twenty-nine cases of newborns, suspected to be GSDⅡwere confirmed to be normal with genetic analysis of the original DBSs. Among the 29 suspected positive cases, 24 cases were homozygous for pseudodeficiency alleles c.[1726A/A; 2065A/A], and the other 5 cases were c.[1726G/A; 2065G/A] heterozygote. The frequency of c.1726G>Ahomozygote in 3 172 non-GSD Ⅱcontrols was 2.08% (66/3 172), and c.1726G>A homozygote occurred in allelic conjunction with c.2065G>Ahomozygote. Frequency of c.[1726A; 2065A] haplotype in 3 172 controls was 3.2%(206/6 344). 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引用次数: 0

摘要

目的利用荧光法测定干血斑(DBS)酸性α-葡萄糖苷酶(GAA)活性，探讨假缺乏等位基因对新生儿糖原贮藏病Ⅱ(GSDⅡ)筛查的影响。方法2017年5 - 12月在上海交通大学医学院新华医院新生儿筛查中心获得的30 507例新生儿DBSs，采用GAA活性荧光酶法筛选GSDⅡ。第一次和第二次筛查后疑似阳性DBSs直接进行GAA Sanger测序分析，确认诊断。回顾性分析3 172例无GSDⅡ对照和36例GSDⅡ患者假缺乏症等位基因的携带者情况。假缺陷等位基因频率的统计分析采用卡方检验或Fisher精确概率检验。结果30507例新生儿GAA活性呈正偏态分布。29例疑似GSDⅡ的新生儿经原dbs基因分析证实正常。29例疑似阳性病例中，假缺陷等位基因c纯合子24例[1726A/A;2065A/A]，其他5例为c.[1726G/A];2065 g / A)杂合子。在3 172例非gsdⅡ对照中，c.1726G>A纯合子出现频率为2.08% (66/3 172)，c.1726G>A纯合子与c.2065G>纯合子发生等位结合。c.[1726A]频率;2065A]单倍型为3.2%(206/6 344)。c.频率[1726A/A;36例GSDⅡ患者的2065A/A]纯合子数(16.67%，6/36)显著高于非GSDⅡ对照组(2.08%，66/3 172)(χ2=34.517, P<0.001)。结论假缺乏症等位基因在中国人中出现频率高，导致新生儿GSD筛查中假阳性率高Ⅱ。对GAA活性筛选后的原始DBS进行后继遗传分析，可以降低假缺乏等位基因对新生儿GSD筛选Ⅱ的影响。关键词:糖原贮藏病II型;酸alpha-glucosidase;Pseudodeficiency等位基因;新生儿筛查;干血斑点检测;发光的测量

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Pseudodeficiency alleles affect the newborn screening of glycogen storage disease typeII

Objective To investigate the effect of pseudodeficiency alleles on the newborn screening of glycogen storage disease type Ⅱ(GSDⅡ) by using afluorometric enzymatic assay to determine acid α-glucosidase (GAA) activity in dried blood spot (DBS). Methods A total of 30 507 newborns′ DBSs, obtained from Newborn Screening Center of Xinhua Hospital Shanghai Jiao Tong University School of Medicine from May to December 2017, were screened for GSD Ⅱ by fluorometric enzymatic assay of GAA activity. The suspected positive DBSs after the first and second screening were directly analyzed by Sanger sequencing of GAA to confirm the diagnosis. Retrospective analysis of 3 172 controls without GSDⅡand 36 GSD Ⅱ patients were conducted to investigate the carrier status of pseudodeficiency alleles. Statistical analysis of frequency of pseudodeficiency alleles were carried out by Chi-square test or Fisher exact probability test. Results GAA activity of 30 507 newborns showed a positively skewed distribution.Twenty-nine cases of newborns, suspected to be GSDⅡwere confirmed to be normal with genetic analysis of the original DBSs. Among the 29 suspected positive cases, 24 cases were homozygous for pseudodeficiency alleles c.[1726A/A; 2065A/A], and the other 5 cases were c.[1726G/A; 2065G/A] heterozygote. The frequency of c.1726G>Ahomozygote in 3 172 non-GSD Ⅱcontrols was 2.08% (66/3 172), and c.1726G>A homozygote occurred in allelic conjunction with c.2065G>Ahomozygote. Frequency of c.[1726A; 2065A] haplotype in 3 172 controls was 3.2%(206/6 344). Frequency of c.[1726A/A; 2065A/A] homozygote in 36 GSDⅡpatients (16.67%, 6/36) was significantly higher than that in non-GSD Ⅱcontrols(2.08%, 66/3 172) (χ2=34.517, P<0.001). Conclusions Pseudodeficiency alleles show a high frequency in Chinese, which leads to a high false positive rate in the newborns screening of GSDⅡ.The afterword genetic analysis of the original DBS after the GAA activity screening could reduce the effect of pseudodeficiency alleles on the newborns screening of GSDⅡ. Key words: Glycogen storage disease type II; Acid alpha-glucosidase; Pseudodeficiency alleles; Neonatal screening; Dried blood spot testing; Luminescent measurements

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中华检验医学杂志 Health Professions-Medical Laboratory Technology

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