Systems and methods of electrode switching for neurophysiological sensing and stimulation

We claim: 1 . A neuromonitoring system comprising: at least one multi-channel recording device comprising a programmable switch matrix and a plurality of input channels; a plurality of electrodes connected to the at least one multi-channel recording device via the plurality of input channels; at least one stimulator module in communication with the at least one multi-channel recording device; at least one computing device configured to execute a switching module and in communication with the at least one multi-channel recording device; and at least one display unit in data communication with the at least one computing device, wherein the programmable switch matrix is configured, in response to commands from the switching module executed by the at least one computing device, to: enable any electrode or combination of electrodes of the plurality of electrodes to be selectively connected to any input channel or combination of input channels of the at least one multi-channel recording device as a sensing input; enable any electrode or combination of electrodes of the plurality of electrodes to be programmatically designated as a common reference electrode or a global common reference electrode without requiring movement of the electrode location on a patient; enable any electrode or combination of electrodes of the plurality of electrodes to be programmatically designated as a patient ground electrode; and enable any electrode or combination of electrodes of the plurality of electrodes to be configured as a stimulation anode or cathode to support multi-cortical stimulation, wherein said multi-cortical stimulation comprises stimulating more than two electrodes simultaneously, without requiring a user to manually move electrode locations on the patient. 2 . The neuromonitoring system of claim 1 , further comprising at least one database in data communication with the at least one computing device. 3 . The neuromonitoring system of claim 1 , wherein the at least one computing device is configured to automatically command, without manual intervention by the user, the programmable switch matrix to enable any electrode or combination of electrodes of the plurality of electrodes to function as a patient ground electrode when a previously designated patient ground electrode is damaged or disconnected. 4 . The neuromonitoring system of claim 1 , comprising two or more multi-channel recording devices. 5 . The neuromonitoring system of claim 4 , wherein the programmable switch matrix is configured, in response to commands from the at least one computing device, to enable any electrode or combination of electrodes of the plurality of electrodes to function as said global common reference for each of the two or more multi-channel recording devices. 6 . The neuromonitoring system of claim 1 , wherein the at least one computing device further comprises a sensing module. 7 . The neuromonitoring system of claim 1 , wherein the switching module is adapted to configure the programmable switch matrix to enable any electrode or combination of electrodes of the plurality of electrodes to selectively operate in a sensing mode or a stimulation mode. 8 . The neuromonitoring system of claim 1 , further comprising a power module in communication with the at least one multi-channel recording device and the at least one computing device. 9 . The neuromonitoring system of claim 1 , wherein the at least one display unit is configured to generate a graphical user interface comprising a plurality of inputs, wherein each of the plurality of inputs is adapted to receive a user input that designates a function of each electrode of the plurality of electrodes. 10 . The neuromonitoring system of claim 1 , wherein the programmable switch matrix is configured to measure ground impedance without switching the common reference electrode or the global common reference electrode into a ground circuit. 11 . The neuromonitoring system of claim 1 , wherein the programmable switch matrix comprises a plurality of electromechanical switches. 12 . The neuromonitoring system of claim 1 , wherein the programmable switch matrix comprises at least one of a double-pole switch or a single-throw switch. 13 . The neuromonitoring system of claim 1 , wherein the programmable switch matrix comprises at least one of a field effect transistor or bipolar junction transistor. 14 . The neuromonitoring system of claim 1 , wherein the at least one multi-channel recording device is configured to measure inputs to at least some of the plurality of electrodes in relation to the common reference electrode.