Flexible neural interfaces with integrated stiffening shank

The invention claimed is: 1. A neural interface device adapted to be inserted into tissue, comprising: a neural interface body, wherein said neural interface body includes an insertion end and a body portion extending from said insertion end; an upper layer made of a first biocompatible dielectric material having at least one first opening for a first electrical conducting material; said upper layer extending over said insertion end and said body portion of said neural interface body wherein said at least one first opening for a first electrical conducting material is located in said upper layer extending over said insertion end; a first electrical conducting material in said first opening; an electrode positioned over said at least one first opening and over said first electrical conducting material in said first opening; at least one first interconnection trace electrical conducting material in said upper layer connected to said first electrical conducting material, wherein said at least one first interconnection trace electrical material is located in said upper layer extending over said insertion end and said body portion of said neural interface body; a lower layer made of a second dielectric material wherein said second dielectric material is biocompatible, wherein said lower layer extends under said insertion end and said body portion of said neural interface body; and a stiffening shank between said upper layer and said lower layer wherein said stiffening shank is adjacent said first dielectric material, said first electrical conducting material, and said first interconnection trace electrical conducting material, wherein said stiffening shank is made of a material that provides the neural interface device with sufficient stiffening that the neural interface device is adapted to be inserted into tissue, and wherein said stiffening shank is located only in said insertion end of said neural interface body. 2. A neural interface device adapted to be inserted into tissue of claim 1 wherein said first electrical conducting material in said first opening is made of metal. 3. A neural interface device adapted to be inserted into tissue of claim 1 wherein said first electrical conducting material in said first opening is made of a conducting polymer.