@article {Kharbanda24, author = {Mira Kharbanda and John Tolmie and Shelagh Joss}, title = {How to use{\textellipsis} microarray comparative genomic hybridisation to investigate developmental disorders}, volume = {100}, number = {1}, pages = {24--29}, year = {2015}, doi = {10.1136/archdischild-2014-306022}, publisher = {Royal College of Paediatrics and Child Health}, abstract = {Array-comparative genomic hybridisation (array-CGH) is a relatively new test that permits close scrutiny of chromosomal structure to detect genomic microdeletions and microduplications that are invisible in a conventional karyotype. Array-CGH is now the {\textquoteleft}first-line{\textquoteright} genetic test in the investigation of early developmental impairments and learning difficulties, especially if the clinical picture includes dysmorphism, abnormal growth, congenital anomalies, epilepsy and autism, alone or in combination. However, due to the array-CGH report{\textquoteright}s technical content and the uncertain clinical significance of many genomic findings, the results of array-CGH studies need careful interpretation. Array-CGH trebles the frequency of diagnosis compared with conventional karyotyping, but collaborative working, involving paediatricians, clinical geneticists and clinical scientists, is most important for interpretation of the results of new genomic investigations in everyday clinical practice.}, issn = {1743-0585}, URL = {https://ep.bmj.com/content/100/1/24}, eprint = {https://ep.bmj.com/content/100/1/24.full.pdf}, journal = {Archives of Disease in Childhood - Education and Practice} }