Begin by assembling the Microdrive system. Connect two computer-designed boards using two stulls and a screw that holds the movable Microdrive, and attach the connector to one board. Ensure the Microdrive can carry two sets of eight guide tubes for each side of the motor cortex or MC region.
Cut the guide tubes to the same length. Cut 16 nichrome wires, each measuring approximately five centimeters long and 35 micrometers in diameter. Load the wires into the guide tubes and apply glue to fix them.
Strip the wire insulation and twine each exposed wire to each pin from the connector following the channel map and the reference and ground electrodes, then slowly coat conducting paint onto each pin. Cover the pins using epoxy resin, then perform gold plating via an impedance tester to reduce the impedance of the electrode tips to approximately 350 kiloohms. For electrode array implantation, fix the anesthetized mouse in a stereotaxic apparatus and use a temperature controller to maintain its rectal temperature at 37 degrees Celsius.
Then make a small midline incision to expose the skull. Remove the residual tissue using scissors and clean the skull with sterile saline-soaked cotton buds. Using a glass microelectrode filled with ink, mark the desired locations of the bilateral MC for implantation.
Next, using a skull drill, carefully drill two small holes on both the left and right sides of the coordinated skull in the MC regions. Gently remove the dura mater from the holes with fine forceps. Then insert the Microdrive system into the center of the holes, using a micromanipulator at 10 micrometers per second.
After finishing the insertion, fill the petroleum jelly into the dental cement walls and join the bottom plate of the Microdrive system and the dental cement walls with the mixed dental cement.
