Abstract: An embodiment of the invention is directed to a microfabricated, silicon-based, Convection Enhanced Delivery (CED) device. The device comprises a silicon shank portion, at least one individual parylene channel disposed along at least a part of an entire length of the shank, wherein the channel has one or more dimensioned fluid exit ports disposed at one or more respective locations of the channel and a fluid (drug) input opening. The fluid input opening may be configured or adapted to be connected to a fluid reservoir and/or a pump and/or a meter and/or a valve or other suitable control device(s) or apparatus that supplies and/or delivers fluid (e.g., a drug) to the microfabricated device. The device may have multiple channels disposed side by side or in different surfaces of the device. The device may be rigid, or flexible, in which case a flexible device can be attached to a bio-degradable support scaffold that provides sufficient structural rigidity for insertion of the device into the target tissue.

Abstract: An embodiment of the invention is directed to a microfabricated, silicon-based, Convection Enhanced Delivery (CED) device. The device comprises a silicon shank portion, at least one individual parylene channel disposed along at least a part of an entire length of the shank, wherein the channel has one or more dimensioned fluid exit ports disposed at one or more respective locations of the channel and a fluid (drug) input opening. The fluid input opening may be configured or adapted to be connected to a fluid reservoir and/or a pump and/or a meter and/or a valve or other suitable control device(s) or apparatus that supplies and/or delivers fluid (e.g., a drug) to the microfabricated device. The device may have multiple channels disposed side by side or in different surfaces of the device. The device may be rigid, or flexible, in which case a flexible device can be attached to a bio-degradable support scaffold that provides sufficient structural rigidity for insertion of the device into the target tissue.

Abstract: The present invention comprises compositions and methods related to a glycosylation-variant BEHAB protein, poly-sialyated full-length BEHAB, and methods of use thereof.

Abstract: The present invention relates to primary CNS tumors and provides useful compositions and methods for reducing tumor volume and increasing the length of survival in mammals with primary CNS tumors, thereby providing a treatment for primary CNS tumors. The invention also relates to methods of identifying compounds for reducing tumor volume and increasing animal survival, which therefore relate to treating primary CNS tumors.

Abstract: The present invention relates to primary CNS tumors and provides useful compositions and methods for reducing tumor volume and increasing the length of survival in mammals with primary CNS tumors, thereby providing a treatment for primary CNS tumors. The invention also relates to methods of identifying compounds for reducing tumor volume and increasing animal survival, which therefore relate to treating primary CNS tumors. The invention also relates to methods of detecting and diagnosing a tumor.

Abstract: The present invention relates to primary CNS tumors and provides useful compositions and methods for reducing tumor volume and increasing the length of survival in mammals with primary CNS tumors, thereby providing a treatment for primary CNS tumors. The invention also relates to methods of identifying compounds for reducing tumor volume and increasing animal survival, which therefore relate to treating primary CNS tumors.