Patients harboring dolichoectactic vertebrobasilar (DVB) aneurysms are at risk of suffering SAH, ischemic stroke, and/or brainstem compression and many patients are not offered invasive treatment due to the futility of existing surgical methods. Consequently, there is demand for development of medical therapy for DVB aneurysms
Dolichoectatic vertebrobasilar (DVB) aneurysms are fusiform in geometry and often large (< 10 cm) in size limiting traditional microsurgical clipping or endovascular coiling strategies. Collectively, DVB aneurysms represent ≤ 0.01% of all aneurysms (~ 600 US) and, consequently, their study is limited to a few small series. Despite their rarity, the location and geometry of DVB aneurysms make surgical intervention, microsurgical or endovascular, nearly uniformly fatal. Therefore, most DVB aneurysms are observed providing greater insight into their natural history than many more surgically amenable aneurysms. One series noted 28% of patients manifesting any neurological deficit, ischemic or hemorrhagic, over a 4 year interval with an overall mortality rate of ~ 20%.
Tumor necrosis alpha (TNFα). From the many implicated genetic pathways in aneurysm formation, tumor necrosis alpha (TNFα) has been noted a pivotal actor. In pre-clinical studies, the ability to inhibit TNFα induction prevents aneurysm rupture and even aneurysm growth altogether. In humans, TNFα inhibitor therapy has proven effective for many types of vascular inflammation including carotid wall thickening in the setting of rheumatoid arthritis. Over 12- and 24-month intervals, others have demonstrated significant decreases in carotid intima-media thickness in patients taking the TNFα inhibitor, infliximab. Furthermore, infliximab therapy has proven effective in refractory Kawasaki's disease, a condition characterized by post-infectious coronary artery inflammation in children. There is also evidence that infliximab therapy is effective in treatment of IVIG-refractory Kawasaki's disease including regressing coronary aneurysms. Despite the multitude of agents and indications both on and off-label, TNFα inhibitor therapy has not been used for the treatment of brain aneurysm.
