Abstract: This invention provides a method and a device for treating hemodynamically significant aneurysms especially in the intracranial and extracranial circulation regions using either X-ray fluoroscopy or real-time magnetic resonance (MR) imaging guidance. An MR-visible parachute-shaped occlusion device, e.g., containing multiple elongated filamentary loops made of a memory metal, elastomeric hydrogel or other expansile material, is deployed into the aneurysm by radial expansion of the expansile material outwardly into contact with the interior aneurysm surface. The device is firmly positioned against the interior aneurysm surface using a coating which adheres to that interior aneurysm surface. The device may be filled with a hardenable polymer for permanent and complete aneurysm occlusion.

Abstract: The present invention comprises a device and method for targeted drug delivery, and especially intracranial inflsion or retroperfusion drug delivery using nonlinear magnetic stereotaxis in combination with magnetic resonance (MR) imaging and/or X-ray visualization. An MR-visible and/or X-ray visible drug delivery device is positioned by non-linear magnetic stereotaxis at a site such as an intracranial target site, its location is verified via MR imaging, and it is then used to deliver a biologically active material such as a diagnostic or therapeutic drug solution into that site (such as the brain) at constant or variable rates. The spatial distribution kinetics of the injected or infised drug agent may be monitored quantitatively and non-invasively using real-time MR-imaging such as water proton directional diffusion MR imaging, to establish the efficacy of targeted drug delivery.