Sturge-Weber syndrome (SWS) is defined by the association of a facial capillary malformation (port-wine stain), with a vascular malformation of the eye, and/or vascular malformation of the brain (leptomeningeal angioma). Variants exist where only one of these three structures is involved with the vascular malformation. SWS occurs sporadically and is congenital. Port-wine stains occur in 3 per 1000 live births. No good population-based data exist for how many people have Sturge-Weber syndrome, however, estimates range between one in 20-50,000 live births. This review summarizes literature regarding the main features and pathophysiology of Sturge-Weber syndrome, however the cause of this syndrome remains obscure. Recent advances in neuroimaging have provided important insights into the progression of neurologic injury that occurs as a result of impaired blood flow. Important limitations exist, however, as currently the early diagnosis and exclusion of Sturge-Weber syndrome is impaired by the poor sensitivity of imaging in the newborn period and early infancy. Several important controversies complicate our ability to care for these patients and include the questions of ideal timing of surgery, whether seizures themselves contribute to the neurologic injury, and what the role of low-dose aspirin should be. This review will summarize several recent advances in our understanding of the mechanisms of brain injury in SWS, new measures for quantifying the neurologic involvement and new approaches and controversies in the management of the neurologic complications.
ASJC Scopus subject areas
- Cardiology and Cardiovascular Medicine