Arch Neurol Chicago
-
Sickle cell disease (SCD) is understood on a genetic and a molecular level better than most diseases. Young children with SCD are at a very high risk of stroke. The molecular pathologic abnormalities of SCD lead to microvascular occlusion and intravascular hemolytic anemia. ⋯ The inflammatory environment known to exist in SCD and the known effect of plasma free hemoglobin, released by hemolysis, of reducing available nitric oxide may contribute to the development of cerebrovascular disease. Further research may lead to more targeted therapies. We can reduce many of the big strokes that occur in these small persons by aggressively screening patients at a young age (and periodically throughout the childhood risk period) and interrupting the process with regular blood transfusions.
-
Tissues with high energy demands, such as the heart, are susceptible to the effects of mitochondrial DNA point mutations. ⋯ The prevalence of WPW syndrome among patients with MELAS syndrome and the A3243G mutation appears much higher than in the normal population and may become manifest earlier than neurologic symptoms. Patients with WPW syndrome and neurologic abnormalities consistent with MELAS syndrome, such as seizures, deafness, short stature, and stroke, should be screened for the A3243G mutation. Moreover, patients with MELAS syndrome should be monitored for cardiac anomalies including cardiomyopathy and WPW syndrome.