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

What is claimed is: 1. A probe, comprising: an elongated shaft having a distal end and an internal lumen; a shaft support at least partially disposed in the internal lumen, the shaft support comprising a cylindrical member and a plurality of shafts that extend from the cylindrical member; and a microelectrode array film comprising: a first portion disposed on the cylindrical member of the shaft support; a second portion disposed on the distal end of the elongated shaft; a first isolating layer defining a plurality of microelectrode film shafts extending from the cylindrical member of the shaft support; a metal layer disposed on the first isolating layer and defining a plurality of microelectrode elements and a plurality of traces extending from a corresponding microelectrode element of the plurality of microelectrode elements to the cylindrical member of the shaft support; a second isolating layer at least partially disposed on the metal layer; a helical ribbon cable coupled with the first portion and the second portion of the microelectrode array film to permit movement of the plurality of microelectrode film shafts, the helical ribbon cable separating the first portion and the second portion; and each microelectrode film shaft of the plurality of microelectrode film shafts disposed on an outside face of a respective shaft of the plurality of shafts that extend from the cylindrical member of the shaft support, each microelectrode film shaft comprising a respective microelectrode element of the plurality of microelectrode elements on the outside face of the respective shaft and a respective trace of the plurality of traces extending from the respective microelectrode element. 2. The probe of claim 1 , comprising: a stylet configured to contact the shaft support to extend the plurality of shafts from the elongated shaft. 3. The probe of claim 1 , comprising: a pull wire coupled with the shaft support to retract the plurality of shafts within the elongated shaft. 4. The probe of claim 1 , wherein each of the plurality of microelectrode film shafts comprise the plurality of microelectrode elements. 5. The probe of claim 1 , comprising: at least one stimulating electrode; and at least one recording electrode. 6. The probe of claim 1 , wherein the microelectrode array film comprises: a conductive film at least partially embedded within two isolating substrates. 7. The probe of claim 1 , comprising: a central shaft centered along a longitudinal axis of the elongated shaft. 8. The probe of claim 7 , comprising: a second microelectrode film disposed on the central shaft. 9. A method, comprising: implanting a probe comprising: an elongated shaft having a distal end and an internal lumen; a shaft support at least partially disposed in the internal lumen, the shaft support comprising a cylindrical member and a plurality of shafts that extends from the cylindrical member; and a microelectrode array film comprising: a first portion disposed on the cylindrical member of the shaft support; a second portion disposed toward the distal end of the elongated shaft; a first isolating layer defining a plurality of microelectrode film shafts extending from the cylindrical member of the shaft support; a metal layer disposed on the first isolating layer and defining a plurality of microelectrode elements and a plurality of traces extending from a corresponding microelectrode element of the plurality of microelectrode elements to the cylindrical member of the shaft support; a second isolating layer at least partially disposed on the metal layer; a helical ribbon cable coupled with the first portion and the second portion of the microelectrode array film to permit movement of the plurality of microelectrode film shafts, the helical ribbon cable separating the first portion and the second portion; and each microelectrode film shaft of the plurality of microelectrode film shafts disposed on an outside face of a respective shaft of the plurality of shafts that extend from the cylindrical member of the shaft support, each microelectrode film shaft comprising a respective microelectrode element of the plurality of microelectrode elements on the outside face of the respective shaft and a respective trace of the plurality of traces extending from the respective microelectrode element; extending the plurality of shafts from the elongated shaft; recording, with the respective microelectrode element of at least one of the plurality of microelectrode film shafts, an electrophysiological signal; and delivering, with the respective microelectrode element of at least one of the plurality of microelectrode film shafts, a stimulation signal. 10. The method of claim 9 , comprising: extending, with a stylet contacting the shaft support, the plurality of shafts from the elongated shaft. 11. The method of claim 9 , comprising: retracting, with a pull wire, the plurality of shafts within the internal lumen the elongated shaft. 12. The method of claim 9 , comprising: recording, with the plurality of microelectrode elements, the electrophysiological signal. 13. The method of claim 9 , comprising: recording, with a first microelectrode element, the electrophysiological signal; and delivering, with a second microelectrode element, the stimulation signal. 14. The method of claim 9 , wherein the microelectrode array film comprises a conductive film at least partially embedded within two isolating substrates. 15. The method of claim 9 , comprising: extending, from the elongated shaft, a central shaft centered along a longitudinal axis of the elongated shaft. 16. The method of claim 15 , comprising: retracting, from the elongated shaft, the central shaft into the elongated shaft.