Study published in Annals of Neurology yields clinical diagnoses for unresolved rare disease cases
White matter disorders are progressive and involve age-related weakness in the part of the nerves that connect various parts of the brain to each other and to the spinal cord. This group of disorders are found in 1 per 7,000 children born each year. The study brought together 28 named collaborators, led by Children’s National and included researchers from
The results of the study, entitled “Whole exome sequencing in patients with white matter abnormalities,” are available online in the Annals of Neurology and the full article can be accessed here. The paper will also be published in the June print edition (Volume 79, Issue 6).
“The term ‘rare’ genetic disease is something of a misnomer, since up to 350 million people across the world can be impacted by these disorders,” said
“We were delighted by the power of this approach,” adds co-author
“White matter disorders can have a devastating impact on patients and their families,” said study co-author Cas Simons, Ph.D., from the
More than 100 genetic disorders are linked to white matter abnormalities in the central nervous system. At least 10 different chemicals make up the myelin, a fatty insulation layer, and the myelin sheath plays a critical role in smooth transmission of electrical impulses along nerve cells. A cluster of rare genetic disorders known as the leukodystrophies, which cause progressive degeneration of the brain’s white matter, are tied to genetic flaws in how myelin makes or uses its essential mix of chemicals.
Standard approaches to diagnose white matter disorders fail in nearly 50 percent of these children, complicating their care and exacting a substantial psychological toll on families, Dr. Taft says. The human genome contains roughly 3 billion letters of DNA. The exome, the protein-coding region of the genome, represents just 2 percent of this genetic code but contains most of the variants known to be related to disease.
MRI (magnetic resonance imaging) has been tapped for the last 20 years to recognize telltale patterns of leukodystrophies, yet nearly half of patients lack concrete diagnoses. Because WES ferreted out diagnoses for other stubbornly unsolved genetic disorders, the research team has proposed that the technique could answer genetic cold cases thought to be leukodystrophies.
The research team identified 191 families with unresolved cases of leukoencephalopathy thought to be genetic in nature. Of this group, they diagnosed 101 families using MRI pattern recognition followed by standard biochemical and genetic testing. For the 90 cases that remained undiagnosed, 71 family groups of at least three people were included in the study and provided the high-quality samples needed for WES analyses by the research team. While patients ranged from 3 to 26 years old at the time of sequencing, for some, symptoms began at birth. This research was performed utilizing
According to the study, adding WES to the diagnostic tools already at clinicians’ disposal “may decrease the number of patients with unsolved genetic white matter disorders from 50 percent to less than 30 percent. Taking into consideration the clinical and psychosocial costs of prolonged diagnostic odysseys in these families, this is substantial.” The diagnoses led to additional precision in some patients’ clinical care, with families with certain mutations being referred to specialized clinics to undergo monitoring for cancer. Based on these results the team is now investigating the use of whole genome sequencing, which could further increase the diagnostic yield, in a multi-site prospective study of children with neurodevelopment disorders.
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