Genetic carrier screening for disorders included in newborn screening in the Saudi population

Background: Inborn errors of metabolism (IEM) are prevalent autosomal recessive disorders in Saudi Arabia. Socio-economic factors, such as consanguineous marriages, play a role in the high rate of diseases. The government of Saudi Arabia created a newborn screening program (NBS) for the most prevalent disorders to facilitate early intervention and the prevention of severe complications. The study aimed to determine the carried pathogenic allele of the diseases included in the NBS and the most frequently carried phenotype in the Saudi population. Methodology: We performed targeted genetic screening for the genes associated with the IEM in the NBS. We used the results of the whole exome sequencing of 1,314 affected and unaffected individuals from 650 families. The results constitute the King Abdullah International Medical Research Center Genomic Database. Results: According to the data set, four diseases occurred most frequently in the Saudi population: adrenal hyperplasia, propionic acidemia, phenylketonuria, and maple syrup urine disease. In total, 12 pathogenic variants occurred frequently. Conclusion: This study generated an updated list of the most pathogenic variants in the Saudi population, based on the National Guard Hospital dataset. Additional research with larger data sets from the different regions will provide valuable information about the allele distribution in the Saudi population, creating a carrier screening program. [JBCGenetics 2021; 4(2.000): 70-75

Supplementary testing after negative or inconclusive exome sequencing results

Background: Accurate diagnosis benefits patients and their families by directing clinical management; predicting recurrence risks; providing prognosis; and preventing the invasive, time-consuming, and costly diagnostic odyssey. The present study aimed at evaluating the usefulness and clinical utility of supplementary testing (deletion/duplication, targeted genome methylation analysis, and whole mitochondrial genome testing) after inconclusive or negative exome results and the outcome of the supplementary testing. Methods: A total of 3,505 clinical exome sequencing results were evaluated, and cases with supplementary testing were analyzed for the accuracy and validity of the supplementary testing. Results: The present study cohort comprised 26 cases where supplementary testing was ordered (12 inconclusive results and 14 negative results). Out of the 12 inconclusive results, only one case was positive for supplementary testing (1/12) and none of the negative cases (0/14). Conclusion: For most cases, supplementary testing to negative exome sequencing failed to identify any possible explanation of the disorder, concluding that supplementary testing has limited clinical utility. [JBCGenetics 2023; 6(1.000): 1-13