Pediatrics and Neonatology (Aug 2019)

Array-CGH increased the diagnostic rate of developmental delay or intellectual disability in Taiwan

  • Chung-Lin Lee,
  • Chen-Hao Lee,
  • Chih-Kuang Chuang,
  • Huei-Ching Chiu,
  • Yen-Jiun Chen,
  • Chao-Ling Chou,
  • Peih-Shan Wu,
  • Chih-Ping Chen,
  • Hsiang-Yu Lin,
  • Shuan-Pei Lin

Journal volume & issue
Vol. 60, no. 4
pp. 453 – 460

Abstract

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Background: Unexplained developmental delay or intellectual disability (DD/ID) has an estimated prevalence of about 3%–5% in the general population of Taiwan. Array comparative genomic hybridization (array-CGH) is a high-resolution tool that can detect about 50 Kb chromosome aberrations. A previous study has reported a detection rate of 10%–20% for this array.1 This study aimed to investigate and compare the diagnosis rate for DD/ID using array-CGH and conventional chromosome study in DD/ID patients in Taiwan. Methods: We enrolled 177 patients with DD/ID who underwent array-CGH examination at the MacKay Memory Hospital between June 2010 and September 2017. The copy number variants (CNV) were classified into the following three groups: pathogenic (potential pathologic variant), benign (normal genomic variant), and uncertain clinical significance (variance of uncertain significance, VOUS), according to the ACMG guideline.2 Results: Of the 177 enrolled patients, 100 (56.5%) were men and 77 (43.5%) were women. Ages ranged from 3 months to 50 years, with a median age of 5.2 years. Total 32.0% (32/100) male patients had pathogenic CNV, and 32.5% (25/77) female patients had pathogenic CNV. The ratio of pathogenic CNV in male and female patients was not significantly different (p = 0.379). The proportions of pathogenic CNV at 18 years of age were 32.3% (31/96), 19.4% (6/31), 34.8% (8/23), 16.7% (2/12), and 66.7% (10/15), respectively. The overall diagnosed rate of DD/ID with pathogenic CNV was 27.7% (49/177) using array-CGH in this study. There were 105 patients with conventional karyotyping and array-CGH data at the same time. Nineteen (18.1%) patients had visible chromosomal abnormality. Total 32/105 (30.5%) patients could find at least one pathogenic CNVs. The array-CGH had a higher diagnosed rate than the conventional karyotyping in clinical application. Conclusions: Although array-CGH could not detect point mutation, balanced translocations, inversions, or low-level mosaicism, the diagnosis rate in clinical application was up to 46.3% and 2.5 times that of conventional karyotyping analysis (18.1%). This study demonstrated that array-CGH is a powerful diagnostic tool and should be the first genetic test instead of conventional karyotyping analysis for patients with unexplained DD/ID. Key Words: array-CGH, chromosomal microarray, developmental delay, intellectual disabilities, Taiwan