The acronym "MASA" stands for the four main signs and symptoms associated with the syndrome: mental retardation, aphasia, shuffling gait, and adducted thumbs characterized by cleft palate, microcephaly, and dysmyelination. Affected males may also have a variabledilatation of the third heart ventricle. MASA has five other factors including hydrocephalus. The build-up is often caused by an obstruction that prevents proper fluid drainage. Spasticity of the lower limbs, causing the muscles to stiffen or tighten, preventing normal fluid movement. Aphasia, which is when someone loses the ability to understand or express speech, due to brain damage. Seizures, an abrupt, uncontrolled disturbance in the brain. Lastly, agenesis of the corpus callosum, a rare disorder that occurs at birth. It is characterized by a partial or complete absence of an area of the brain that connects the two cerebral hemispheres.
Genetics
MASA syndrome has been associated with variants in the L1CAMgene which is an axonal glycoprotein that is essential for normal development of the central and peripheral nervous systems during the fetal period and postnatally. The symptoms are typically more intensive in males, due to the fact that males inherit only one X chromosome so a mutation in that one chromosome would cause the condition. Females are less likely to be affected because they have two X chromosomes. It has an effect of everyone in 30,000 males, even though they are affected fathers cannot pass the chromosomes to their sons.
Previous Cases
The first case of the MASA Syndrome was found in a boy in Asia. The patient was a 10-year-old boy with symptoms like, mild mental retardation, bilateral adducted thumbs and corpus callosum hypoplasia. His family didn’t have any history with MASA syndrome. There is not just one specific doctor or scientist for this disorder. Since the L1 syndrome is composed of many X-linked disorders, more than one doctor or scientist may find the disorder in a person. Most of the doctors who find the disorder are Neuroscientists and some Pediatric Neurology specialists.
Diagnosis
A diagnosis can be made when the clinical features have been identified, mainly the four common signs and symptoms. This can then be confirmed by single-gene sequencing, where the L1CAM gene is examined for any possible variations. A diagnostic test prior-to-birth is possible and very reliable when the mother is a carrier of the diseased allele. First, it's necessary to determine the fetus' sex and then study the X-chromosomes inherited from the mother. The probability of transferring the variant X-chromosome to the descendants is 50% regardless of the sex of the fetus. Male descendants who inherit the varied X-chromosome will express the symptoms of the syndrome, on the other hand females who inherit the varied X-chromosome will become carriers of the mutated gene and will not show any symptoms or clinical features of the syndrome.
Treatment
As of now, the only treatment for this disease is expertise in pediatrics, child neurology, neurosurgery, rehabilitation, and medical genetics. As some parts of the body can be damaged through time to time it can be useful to have the expertise to identify what other ways they can help for the complete health of the child.