Sidra Medicine Leads Largest Research on Rare Genetic Disease Risk in the Middle East

Sidra Medicine

A study by Sidra Medicine, a member of Qatar Foundation, on rare genetic diseases in a wide-ranging and diverse Middle Eastern cohort from Qatar, has been published in the prestigious Genome

Medicine journal 1 . 

Titled Burden of Mendelian Disorders in a Middle Eastern Biobank, the study provides key insights into the distribution of risk for genetic diseases in Qatar, which will help with public health planning
for the country’s population and that of the wider region.

 Led by Dr Khalid Fakhro and Dr Younes Mokrab from Sidra Medicine and in collaboration with the Qatar Genome Programme (QGP), Qatar Biobank (QBB), and Hamad Medical Corporation (HMC) the study analyzed more than 6,000 whole genomes and corresponding health data from Qatar. 

Dr Khalid Fakhro, Chief Research Officer at Sidra Medicine and principal investigator of the study, said: “Collectively rare diseases impact up to 5.9 per cent of the world's population, and many of these remain under-studied and lack effective treatments. In addition, rare diseases are elevated across the MENA and GCC populations, and studies like this help us understand the genetic
architecture driving these conditions, which speeds up diagnosis times and allows us to explore avenues for personalized therapies in the future.” 

The study established a comprehensive catalogue of disease mutations stratified by genetic ancestries, including the major groups of Peninsular Arabs, General Arabs, Persian Arabs and African
Arabs; making it the largest such collection of genomes and clinical data to be investigated in aMiddle Eastern population to date. 

Co-first authors and postdoctoral fellows, Dr. Waleed Aamer and Dr. Aljazi Al-Maraghi from Sidra Medicine said: “The study represents a big step forward as it provides a comprehensive assessment
of genetic diseases among the Qatari population.  This is also the first time we have looked into the impact of consanguinity at such scale which showed variations between Qataris with regard to risk
of genetic diseases.” 

The researchers identified several damaging mutations specific to certain ancestries, known as founder mutations, that can serve as an invaluable epidemiological resource for policy making in the
healthcare system. The information will also enable the healthcare system to offer screening and genetic counselling to families who may be at risk of inherited diseases. They also identified novel
disease-related genes/variants linked to common diseases in Qatar such as diabetes.  

Dr Younes Mokrab, A/Director of Population and Genomics Medicine and a joint corresponding author added: “Due to the high level of diversity, understanding the landscape of rare diseases in
Middle Eastern populations has been challenging. However, using genetic variation patterns, we were able to delineate clusters of sub-populations having common ancestry, representing the wider
region of the Middle East. This technique allowed us to study the well characterized cohort from Qatar Biobank and make the findings in terms of markers of genetic risk and founder mutations
actionable for millions of people in the region and beyond.” 

Dr. Hamdi Mbarek, Manager of Qatar Genome Research Consortium, commented “This research underscores the crucial role of genetic insights in informing tailored therapies and effective public
health planning, not only for Qatar but also for the wider region”. 

By establishing a catalogue of Mendelian genetic variants, the study can also help improve annotation of global public genetics databases (ex., ClinVar database), especially for genetic variants that are common in the Qatari population and underrepresented in other databases. 

“The impact of this study goes beyond the local population in Qatar, as regionally the study provides insights into genetic disease affecting Gulf countries who share genetic ancestry with our population as well as patients from Arab ancestries who are being seen at hospitals around the world.  We also hope that it will consolidate efforts in raising awareness in the community about the potential consequences of consanguinity as the study clearly showed how certain genetic diseases which are rare around the world, become common among groups that practice consanguinity,” concluded Dr.Fakhro. 

Ultimately, baseline genome studies such as the one by Sidra Medicine can help healthcare systems allocate resources more efficiently by targeting interventions to those patients who are most likely to benefit based on their genetic profile. This personalized approach can improve patient outcomes while optimizing the use of healthcare resources.