Abstract:
INTRODUCTION: Williams Bueren Syndrome (WBS) is a common genetic cause of congenital heart defects associated with developmental delay, hypercalcaemia and characteristic facial dysmorphism. It is caused by a 1.5 to 1.8 Mb deletion of chromosome 7qll.23 involving the loss of around 23 genes including the elastin (ELN) gene. This study reports the development of a semi quantitative PCR method to diagnose WBS. AIMS: To establish a molecular diagnostic test for WBS and determine the frequency of ELN deletions among clinically suspected cases. METHODS: Sixteen suspected WBS cases identified by two paediatric cardiologists were recruited following ethical clearance and informed consent. DNA was extracted and dosage analysis was carried out using semi-quantitative PCR. In a multiplex PCR reaction normal (N), positive control (with a confirmed deletion) and patients' (PJ DNA was amplified using 2 primer pairs which amplified regions within the ELN gene and the CFTR gene on chromosome 7 but outside the deleted region. Following agarose gel electrophoresis, the amplified products were quantified. A ratio of P:N of 0.5 indicated the presence of a deletion while a ratio of 1 indicated the absence of a deletion. RESULTS: Among sixteen suspected cases, 12 (75%) had an ELN gene deletion while 4 cases did not. CONCLUSIONS: This semi-quantitative PCR method was able to distinguish ELN deleted cases from the non deleted ones. The preliminary data supports this as a useful diagnostic test for WBS but validation is required before its clinical use.
Description:
Oral Presentation Abstract (OP 34), 125th Anniversary Scientific Medical Congress, Sri Lanka Medical Association, June 2012 Colombo, Sri Lanka