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浙江大学学报(医学版)
Journal of ZheJiang University(Medical Science)  2017, Vol. 46 Issue (3): 233-239    DOI: 10.3785/j.issn.1008-9292.2017.06.02
    
Screening for amino acid metabolic disorders of newborns in Zhejiang province:prevalence, outcome and follow-up
HUANG Xinwen, ZHANG Yu, HONG Fang, ZHENG Jing, YANG Jianbin, TONG Fan, MAO Huaqing, HUANG Xiaolei, ZHOU Xuelian, YANG Rulai, ZHAO Zhengyan
Department of Genetic and Metabolic Diseases, the Children's Hospital, Zhejiang University School of Medicine, Neonatal Screening Center of Zhejiang Province, Hangzhou 310003, China
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Abstract  

Objective:To analyze the result and follow-up data of screening for newborn amino acid metabolic disorders in Zhejiang province. Methods:A total of 1 861 262 newborns were screened for amino acid metabolic disorders during January 2009 and December 2016 in Zhejiang province. The screening results and the follow-up data were analyzed retrospectively. Results:One hundred and sixty four cases were diagnosed as amino acid metabolic disorders with a prevalence of 1:11 349, including 83 with hyperphenylalaninaemia (1:22 400), 29 with neonatal intrahepatic cholestasis caused by citrin deficiency (1:64 138), 16 with methionine S-adenosyltransferase deficiency (1:116 250), 9 with maple syrup urine disease (1:206 667), 8 with argininemia (1:232 500), 7 with citrullinemia type Ⅰ (1:265 700), 6 with hyperprolinemia type Ⅰ (1:310 000), and 2 with carbamylphosphate synthetase Ⅰ deficiency(1:930 000). In addition, ornithine transcarbamylase deficiency, cystathionine β-synthase deficiency, argininosucoinate aciduria and tyrosinemia type Ⅰ were detected in one patient for each, respectively. Two patients had developmental delay, 7 patients were dead, and 2 cases of maple syrup urine disease were lost to follow-up. Conclusions:Hyperphenylalaninaemia is the most common amino acid metabolic disease in newborns in Zhejiang province. Patients with amino acid metabolic disorders identified in newborn screening program can have chance for normal growth development by intervention.

Key wordsAminoacids/metabolism      Metabolic diseases/diagnosis      Phenylketonurias/blood      Neonatal screening      Prevalence      Tandem mass spectrometry      Follow-up studies     
Received: 20 February 2017      Published: 25 June 2017
CLC:  R394  
  R722.11  
  R446  
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HUANG Xinwen, ZHANG Yu, HONG Fang, ZHENG Jing, YANG Jianbin, TONG Fan, MAO Huaqing, HUANG Xiaolei, ZHOU Xuelian, YANG Rulai, ZHAO Zhengyan. Screening for amino acid metabolic disorders of newborns in Zhejiang province:prevalence, outcome and follow-up. Journal of ZheJiang University(Medical Science), 2017, 46(3): 233-239.

URL:

http://www.zjujournals.com/xueshu/med/10.3785/j.issn.1008-9292.2017.06.02     OR     http://www.zjujournals.com/xueshu/med/Y2017/V46/I3/233


浙江省新生儿氨基酸代谢疾病筛查及随访分析

目的:了解浙江省新生儿氨基酸代谢疾病的患病及转归情况。方法:回顾性分析2009年1月至2016年12月1 861 262名新生儿串联质谱筛查结果,并对确诊氨基酸代谢疾病的患儿的相关基因突变和随访情况进行分析。结果:共确诊氨基酸代谢疾病164例(1:11 349),其中高苯丙氨酸血症83例(1:22 400),希特林蛋白缺乏致新生儿肝内胆汁淤积症29例(1:64 138),其他依次为甲硫氨酸腺苷转移酶缺乏症Ⅰ型16例(1:116 250),枫糖尿症9例(1:206 667),精氨酸血症8例(1:232 500),瓜氨酸血症Ⅰ型7例(1:265 700),高脯氨酸血症Ⅰ型6例(1:310 000),氨甲酰磷酸合成酶缺乏症Ⅰ型2例(1:930 000),鸟氨酸氨甲酰转移酶缺乏症、胱硫醚β-合酶缺乏症、精氨酸代琥珀酸尿症、酪氨酸血症Ⅰ型各1例。随访发现,发育落后2例,死亡7例,失访2例,其他患儿均发育正常。结论:浙江省新生儿氨基酸代谢疾病以高苯丙氨酸血症最为常见,通过干预多数患儿发育良好。


关键词: 氨基酸类/代谢,  代谢疾病/诊断,  苯丙酮尿症/血液,  新生儿筛查,  患病率,  串联质谱法,  随访研究 

[1] NIU D M, CHIEN Y H, CHIANG C C, et al. Nationwide survey of extended newborn screening by tandem mass spectrometry in Taiwan[J]. J Inherit Metab Dis,2010,33(Suppl 2):S295-S305.
[2] 杨楠,韩连书,叶军,等.新生儿期氨基酸、有机酸及脂肪酸氧化代谢病疾病谱分析[J].临床儿科杂志,2012,30(9):805-808. YANG Nan, HAN Lianshu, YE Jun, et al. Diseases spectrum of metabolism disease of amino acid, organic acid and fatty acid oxidation in neonates[J]. Journal of Clinical Pediatrics,2012,30(9):805-808. (in Chinese)
[3] 赵正言.新生儿遗传代谢病筛查进展[J].中国实用儿科杂志,2014,29(8):587-589. ZHAO Zhengyan. Advances in neonatal genetic metabolic diseases screening[J]. Chinese Journal of Pediatrics,2014,29(8):587-589. (in Chinese)
[4] KASPER D C, RATSCHMANN R, METZ T F, et al. The national Austrian newborn screening program-eight years experience with mass spectrometry. past, present, and future goals[J]. Wien Klin Wochenschr,2010,122(21-22):607-613.
[5] VILARINHO L, ROCHA H, SOUSA C, et al. Four years of expanded newborn screening in Portugal with tandem mass spectrometry[J]. J Inherit Metab Dis,2010,33 Suppl 3:S133-S138.
[6] ZYTKOVICZ T H, FITZGERALD E F, MARSDEN D, et al. Tandem mass spectrometric analysis for amino, organic, and fatty acid disorders in newborn dried blood spots:a two-year summary from the New England Newborn Screening Program[J]. Clin Chem,2001,47(11):1945-1955.
[7] NIU D M, CHIEN Y H, CHIANG C C, et al. Nationwide survey of extended newborn screening by tandem mass spectrometry in Taiwan[J]. J Inherit Metab Dis,2010,33(Suppl 2):S295-S305.
[8] FRAZIER D M, MILLINGTON D S, MCCANDLESS S E, et al. The tandem mass spectrometry newborn screening experience in North Carolina:1997-2005[J]. J Inherit Metab Dis,2006,29(1):76-85.
[9] HARDELID P, CORTINA-BORJA M, MUNRO A, et al. The birth prevalence of PKU in populations of European, South Asian and sub-Saharan African ancestry living in South East England[J]. Ann Hum Genet,2008,72(Pt 1):65-71.
[10] OZBEN T. Expanded newborn screening and confirmatory follow-up testing for inborn errors of metabolism detected by tandem mass spectrometry[J]. Clin Chem Lab Med,2013,51(1):157-176.
[11] DE BRAEKELEER M, LAROCHELLE J. Genetic epidemiology of hereditary tyrosinemia in Quebec and in Saguenay-Lac-St-Jean[J]. Am J Hum Genet,1990,47(2):302-307.
[12] RUSSO P A, MITCHELL G A, TANGUAY R M. Tyrosinemia:a review[J]. Pediatr Dev Pathol,2001,4(3):212-221.
[13] ALLARD P, GRENIER A, KORSON M S, et al. Newborn screening for hepatorenal tyrosinemia by tandem mass spectrometry:analysis of succinylacetone extracted from dried blood spots[J]. Clin Biochem,2004,37(11):1010-1015.
[14] HÄBERLE J, BODDAERT N, BURLINA A, et al. Suggested guidelines for the diagnosis and management of urea cycle disorders[J]. Orphanet J Rare Dis,2012,7:32.
[15] TUCHMAN M, LEE B, LICHTER-KONECKI U, et al. Cross-sectional multicenter study of patients with urea cycle disorders in the United States[J]. Mol Genet Metab,2008,94(4):397-402.
[16] CAVICCHI C, MALVAGIA S, LA M G, et al. Hypocitrullinemia in expanded newborn screening by LC-MS/MS is not a reliable marker for ornithine transcarbamylase deficiency[J]. J Pharm Biomed Anal,2009,49(5):1292-1295.
[17] JANZEN N, TERHARDT M, SANDER S, et al. Towards newborn screening for ornithine transcarbamylase deficiency:fast non-chromatographic orotic acid quantification from dried blood spots by tandem mass spectrometry[J]. Clin Chim Acta,2014,430:28-32.
[18] MEW N A, LANPHER B C, GROPMAN A, et al. Gene reviews[M]. Seattle:University of Washington,2003:1-15.
[19] LEE B H, KIM Y M, HEO S H, et al. High prevalence of neonatal presentation in Korean patients with citrullinemia type 1, and their shared mutations[J]. Mol Genet Metab,2013,108(1):18-24.
[20] MARCÃO A, FONSECA H, SOUSA C, et al. Two cases of late-onset argininosuccinic aciduria with normal results at newborn screening[J]. Ana Marcao spdm,2015,2(6):1-2.
[21] EDWARDS R L, MOSELEY K, WATANABE Y, et al. Long-term neurodevelopmental effects of early detection and treatment in a 6-year-old patient with argininaemia diagnosed by newborn screening[J]. J Inherit Metab Dis,2009,32 Suppl 1:S197-S200.
[22] JAIN-GHAI S, NAGAMANI S C, BLASER S, et al. Arginase Ⅰ deficiency:severe infantile presentation with hyperammonemia:more common than reported?[J]. Mol Genet Metab,2011,104(1-2):107-111.
[23] LU Y B, KOBAYASHI K, USHIKAI M, et al. Frequency and distribution in East Asia of 12 mutations identified in the SLC25A13 gene of Japanese patients with citrin deficiency[J]. J Hum Genet,2005,50(7):338-346.
[24] COUCE M L, BÓVEDA M D, GARCÍA-JIMÉMEZ C, et al. Clinical and metabolic findings in patients with methionine adenosyltransferase Ⅰ/Ⅲ deficiency detected by newborn screening[J]. Mol Genet Metab,2013,110(3):218-221.
[25] JANOSÍK M, SOKOLOVÁ J, JANOSÍKOVÁ B, et al. Birth prevalence of homocystinuria in Central Europe:frequency and pathogenicity of mutation c.1105C>T (p.R369C) in the cystathionine beta-synthase gene[J]. J Pediatr,2009,154(3):431-437.
[26] CHADWICK S, FITZGERALD K, WEISS B, et al. Thirteen patients with MAT1A mutations detected through newborn screening:13 years' experience[J]. JIMD Rep,2014,14:71-76.
[27] NELLIS M M, DANNER D J. Gene preference in maple syrup urine disease[J]. Am J Hum Genet,2001,68(1):232-237.
[28] MYERS K A, REEVES M, WEI X C, et al. Cerebral edema in maple syrup urine disease despite newborn screening diagnosis and early initiation of treatment[J]. JIMD Rep,2012,3:103-106.
[29] 李溪远,丁圆,刘玉鹏,等.枫糖尿症患儿13例临床、生化及基因研究[J].中国实用儿科临床杂志,2016,31(8):569-572. LI Xiyuan, DING Yuan, LIU Yupeng,et al. Clinical, biochemical and genetic features of 13 children with maple syrup urine disease[J]. Journal of Applied Clinical Pediatrics,2016,31(8):569-572. (in Chinese)
[30] COUCE M L, RAMOS F, BUENO M A, et al. Evolution of maple syrup urine disease in patients diagnosed by newborn screening versus late diagnosis[J]. Eur J Paediatr Neurol,2015,19(6):652-659.
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