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Yield of additional genetic testing after chromosomal microarray for diagnosis of neurodevelopmental disability and congenital anomalies: a clinical practice resource of the American College of Medical Genetics and Genomics (ACMG).染色体微阵列分析诊断神经发育障碍和先天性异常后的额外基因检测的产量:美国医学遗传学与基因组学学院(ACMG)的临床实践资源。
Genet Med. 2018 Oct;20(10):1105-1113. doi: 10.1038/s41436-018-0040-6. Epub 2018 Jun 18.
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Confirmation of chromosomal microarray as a first-tier clinical diagnostic test for individuals with developmental delay, intellectual disability, autism spectrum disorders and dysmorphic features.证实染色体微阵列分析可作为发育迟缓、智力障碍、自闭症谱系障碍和发育异常特征的个体的一线临床诊断测试。
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High-resolution genetic analysis of whole APC gene deletions: a report of two cases and patient characteristics.全APC基因缺失的高分辨率遗传分析:两例报告及患者特征
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Diagnostic Utility of Whole Genome Sequencing After Negative Karyotyping/Chromosomal Microarray in Infants Born With Multiple Congenital Anomalies.对多发性先天畸形患儿行核型分析/染色体微阵列检测阴性后行全基因组测序的诊断效能。
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Exploring genetic testing requests, genetic alterations and clinical associations in a cohort of children with autism spectrum disorder.探讨自闭症谱系障碍患儿队列中的基因检测请求、基因改变和临床关联。
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Comparative Benchmarking of Optical Genome Mapping and Chromosomal Microarray Reveals High Technological Concordance in CNV Identification and Additional Structural Variant Refinement.光学基因组图谱与染色体微阵列的比较基准分析揭示了在 CNV 识别和额外结构变异细化方面的高度技术一致性。
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染色体微阵列分析诊断神经发育障碍和先天性异常后的额外基因检测的产量:美国医学遗传学与基因组学学院(ACMG)的临床实践资源。

Yield of additional genetic testing after chromosomal microarray for diagnosis of neurodevelopmental disability and congenital anomalies: a clinical practice resource of the American College of Medical Genetics and Genomics (ACMG).

机构信息

Department of Human Genetics, University of Chicago, Chicago, Illinois, USA.

Autism & Developmental Medicine Institute, Geisinger Health System, Danville, Pennsylvania, USA.

出版信息

Genet Med. 2018 Oct;20(10):1105-1113. doi: 10.1038/s41436-018-0040-6. Epub 2018 Jun 18.

DOI:10.1038/s41436-018-0040-6
PMID:29915380
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6410698/
Abstract

PURPOSE

Chromosomal microarray (CMA) is recommended as the first-tier test in evaluation of individuals with neurodevelopmental disability and congenital anomalies. CMA may not detect balanced cytogenomic abnormalities or uniparental disomy (UPD), and deletion/duplications and regions of homozygosity may require additional testing to clarify the mechanism and inform accurate counseling. We conducted an evidence review to synthesize data regarding the benefit of additional testing after CMA to inform a genetic diagnosis.

METHODS

The review was guided by key questions related to the detection of genomic events that may require additional testing. A PubMed search for original research articles, systematic reviews, and meta-analyses was evaluated from articles published between 1 January 1983 and 31 March 2017. Based on the key questions, articles were retrieved and data extracted in parallel with comparison of results and discussion to resolve discrepancies. Variables assessed included study design and outcomes.

RESULTS

A narrative synthesis was created for each question to describe the occurrence of, and clinical significance of, additional diagnostic findings from subsequent testing performed after CMA.

CONCLUSION

These findings may be used to assist the laboratory and clinician when making recommendations about additional testing after CMA, as it impacts clinical care, counseling, and diagnosis.

摘要

目的

染色体微阵列(CMA)被推荐作为评估神经发育障碍和先天性异常个体的一线检测方法。CMA 可能无法检测到平衡的细胞遗传学异常或单亲二体(UPD),并且缺失/重复和纯合区域可能需要额外的检测来阐明机制并提供准确的咨询。我们进行了一项证据综述,以综合有关 CMA 后进行额外检测以提供遗传诊断的益处的数据。

方法

该综述由与可能需要额外检测的基因组事件检测相关的关键问题指导。对 1983 年 1 月 1 日至 2017 年 3 月 31 日期间发表的原始研究文章、系统评价和荟萃分析的 PubMed 搜索进行了评估。根据关键问题,平行检索和提取文章,并比较结果和讨论以解决差异。评估的变量包括研究设计和结果。

结果

针对每个问题创建了叙述性综合,以描述在 CMA 后进行的后续检测中额外诊断发现的发生情况和临床意义。

结论

这些发现可用于协助实验室和临床医生在 CMA 后进行额外检测时提出建议,因为它会影响临床护理、咨询和诊断。