Rigid stiffener-reinforced flexible neural probes, and methods of fabrication using wicking channel-distributed adhesives and tissue insertion and extraction

We claim: 1. A method of inserting an elongated flexible probe in a probed medium, comprising: providing a probe assembly having: an elongated flexible probe having a connector end, an opposite insertion end, and an insertion section terminating at the insertion end; an electronics connector connected to the connector end; and a rigid substrate having an insertion shank, a tab connected to the insertion shank, and a narrow open groove channel formed on a bonding side of the insertion shank and filled with a reversible adhesive, said insertion section of the elongated flexible probe aligned and positioned against the narrow open groove channel so that a reversible adhesive layer is formed which temporarily adheres the insertion section of the elongated flexible probe to the insertion shank of the rigid substrate; affixing the tab section to an end of a rigid base so that the insertion shank of the rigid substrate and the insertion section of the elongated flexible probe extend below the end of the rigid base; attaching the electronics connector to the rigid base; controlling the rigid base to insert the insertion shank of the rigid substrate and the temporarily adhered insertion section of the elongated flexible probe into the probed medium; transferring the electronics connector to a surface of the probed medium; detaching the insertion section of the elongated flexible probe from the insertion shank of the rigid substrate; and controlling the rigid base to remove the insertion shank of the rigid substrate from the probed medium whereby the detached insertion section of the elongated flexible probe remains in the probed medium. 2. The method of claim 1 , wherein the rigid based is attached to and controlled by a stereotaxic frame with a micromanipulator for performing the inserting and removing steps. 3. The method of claim 1 , wherein the detaching step includes using phosphate buffered saline (PBS) to dissolve the reversible adhesive layer. 4. The method of claim 1 , further comprising controlling at least one of bond thickness of the reversible adhesive layer between the insertion section and the insertion shank, the material of the reversible adhesive layer, bond uniformity of the reversible adhesive layer, the geometry of the narrow open groove channel, and surface roughness of the insertion shank and/or the insertion section to control dissolution time of the detaching step and performance of the extracting step.