Device for interacting with neurological tissue and methods of making and using the same

What is claimed is: 1. An implantable neurological probe, comprising: an elongated shaft having a distal end and an internal lumen; a support cylinder slidingly disposed in only a distal portion of the internal lumen; a plurality of shafts coupled to the support cylinder and arranged for selective extension from the distal end of the elongated shaft; a microelectrode array film comprising a first portion coupled toward the distal end of the elongated shaft and a second portion coupled with the support cylinder, the microelectrode array film comprising a plurality of microelectrode film shafts disposed on each of the plurality of shafts, each of the plurality of microelectrode film shafts comprising a plurality of microelectrode elements, the microelectrode array film further comprising: a helical ribbon cable that separates the first portion of the microelectrode array film from the second portion of the microelectrode array film, the helical ribbon cable couples each of the plurality of microelectrode elements with a respective proximal contact pad; a planar substrate having an insulative layer; and a plurality of conductive traces disposed on the insulative layer; and a stylet removably disposed in the internal lumen and configured to contact the support cylinder to selectively extend the plurality of shafts during implantation. 2. The implantable neurological probe of claim 1 , comprising a push-pull rod which comprises a pull wire and the stylet. 3. The implantable neurological probe of claim 1 , wherein the elongated shaft is configured for insertion into a human body using an accepted procedure for insertion of deep brain stimulation leads. 4. The implantable neurological probe of claim 1 , wherein a diameter of the elongated shaft is between 1 mm and 3 mm. 5. The implantable neurological probe of claim 1 , wherein at least one of the plurality of microelectrode elements is a stimulating electrode and at least one of the plurality of microelectrode elements is a detecting electrode. 6. The implantable neurological probe of claim 1 , wherein at least one of the plurality of microelectrodes elements is both a stimulating electrode and a detecting electrode. 7. The implantable neurological probe of claim 1 , wherein each of the plurality of microelectrode elements is disposed on the insulative layer. 8. The implantable neurological probe of claim 7 , wherein the microelectrode array film is formable into a cylindrical assembly. 9. The implantable neurological probe of claim 8 , wherein each of the plurality of shafts can be formed to bend radially from a longitudinal axis of the elongated shaft. 10. The implantable neurological probe of claim 8 , where one of the plurality of shafts extends and is centered along a longitudinal axis of the elongated shaft. 11. The implantable neurological probe of claim 9 , where each of the plurality of microelectrode film shafts are stiffened by one of the plurality of shafts. 12. An implantable neurological probe, comprising: an elongated shaft having a distal end and an internal lumen; a plurality of shafts coupled to a support cylinder, the plurality of shafts arranged for selective extension from the distal end of the elongated shaft; and a microelectrode array film comprising a first portion coupled toward the distal end of the elongated shaft and a second portion coupled with the support cylinder, the microelectrode array film comprising a plurality of microelectrode film shafts disposed on each of the plurality of shafts, each of the plurality of microelectrode film shafts comprising a plurality of microelectrode elements, the microelectrode array film further comprising: a helical ribbon cable separating the first portion of the microelectrode array film from the second portion of the microelectrode array film, the helical ribbon cable coupling each of the plurality of microelectrode elements with a respective proximal contact pad; a planar substrate having an insulative layer; and a plurality of conductive traces disposed on the insulative layer, wherein the plurality of shafts define a substantially cylindrical volume when fully extended. 13. The implantable neurological probe of claim 12 , wherein the elongated shaft is configured for insertion into a human body using an accepted procedure for insertion of deep brain stimulation leads. 14. The implantable neurological probe of claim 12 , wherein a diameter of the elongated shaft is between 1 mm and 3 mm. 15. The implantable neurological probe of claim 12 , wherein at least one of the plurality of microelectrode elements is a stimulating electrode and at least one of the plurality of microelectrode elements is a detecting electrode. 16. The implantable neurological probe of claim 12 , wherein at least one of the plurality of microelectrodes elements is both a stimulating electrode and a detecting electrode. 17. The implantable neurological probe of claim 12 , wherein each of the plurality of microelectrode elements is disposed on the insulative layer. 18. The implantable neurological probe of claim 17 , wherein the microelectrode array film is formable into a cylindrical assembly. 19. The implantable neurological probe of claim 18 , where at least one of the plurality of shafts can be formed to bend radially from a longitudinal axis of the elongated shaft. 20. The implantable neurological probe of claim 18 , where one of the plurality of shafts is centered along a longitudinal axis of the elongated shaft. 21. The implantable neurological probe of claim 18 , where each of the plurality of microelectrode shafts are stiffened by one of the plurality of shafts. 22. A method of finding a neurological target, comprising: implanting a neurological probe within a vicinity of a neurological target site, the neurological probe comprising: an elongated shaft having a distal end and an internal lumen; a support cylinder slidingly disposed in only a distal portion of the internal lumen; a plurality of shafts coupled to the support cylinder and arranged for selective extension from the distal end of the elongated shaft; a microelectrode array film comprising a first portion coupled toward the distal end of the elongated shaft and a second portion coupled with the support cylinder, the microelectrode array film comprising a plurality of microelectrode film shafts disposed on each of the plurality of shafts, each of the plurality of microelectrode film shafts comprising a plurality of microelectrode elements, the microelectrode array film further comprising: a helical ribbon cable separating the first portion of the microelectrode array film from the second portion of the microelectrode array film, the helical ribbon cable coupling each of the plurality of microelectrode elements with a respective proximal contact pad; a planar substrate having an insulative layer; and a plurality of conductive traces disposed on the insulative layer; and a stylet removably disposed in the internal lumen and configured to contact the support cylinder to selectively extend the plurality of shafts during implantation; retracting the plurality of shafts within the internal lumen before surgical implantation; extending the plurality of shafts in the vicinity of the neurological target site following implantation; recording electrophysiological signals from the neurological target site using at least one of the plurality of microelectrode elements; and stimulating the neurological target using at lea