Intraoperative magnetometry monitoring system

What is claimed is: 1 . A neurophysiological monitoring system, comprising: at least one surgical instrument including at least one magnetometer; at least one control unit having one or more processor coupled to one or more memories and configured to receive magnetic field data generated by the at least one magnetometer, the one or more memories being non-transitory memory; and, processor executable code stored on the one or more memories of the at least one control unit that when executed by the one or more processor causes the one or more processor to: provide stimulation to a nerve at a known stimulation time; receive magnetic field data from the at least one magnetometer indicative of a response to stimulation of the nerve at a receive time; generate an interpretation of the magnetic field data based upon the receive time along with the stimulation time; and, output information indicative of the interpretation. 2 . The neurophysiological monitoring system of claim 1 , wherein interpretation of the magnetic field data includes formation of a three-dimensional map of the magnetic field. 3 . The neurophysiological monitoring system of claim 1 , wherein interpretation of the magnetic field data includes determination of nerve conduction velocity. 4 . The neurophysiological monitoring system of claim 1 , wherein at least one magnetometer is a fluxgate circuit. 5 . The neurophysiological monitoring system of claim 4 , wherein the surgical instrument is a probe, and the fluxgate circuit is mounted on the probe. 6 . The neurophysiological monitoring system of claim 4 , wherein the surgical instrument is a retractor blade, and the fluxgate circuit is mounted on the retractor blade. 7 . The neurophysiological monitoring system of claim 1 , wherein two or more magnetometers are positioned on orthogonal axes such that interpretation of the magnetic field data provide directional information with respect to the stimulated nerve. 8 . The neurophysiological system of claim 1 , wherein the magnetic field data includes amplitude of the magnetic field, and interpretation of the magnetic field further includes determining distance of the magnetometer to the nerve using amplitude of the magnetic field. 9 . The neurophysiological system of claim 1 , wherein the surgical instrument is a surgical access instrument having a cranial end, and at least one magnetometer is located at the cranial end of the surgical access instrument. 10 . The neurophysiological system of claim 1 , further comprising a patient module, and wherein the magnetometer and the patient module communicate via a network. 11 . The neurophysiological system of claim 1 , wherein the control unit further includes an input device and an output device, the input device and the output device including a touch screen display, and outputting information indicative of the interpretation is defined further as displaying the information on the touch screen display. 12 . One or more non-transitory memory storing processor executable code that when executed by one or more processors cause the one or more processors to: receive signal data from at least one magnetometer indicative of a response of a patient's nerve to activation, the signal data including magnetic field data; assess the magnetic field data to assess nerve health and orientation of the patient's nerve; and, output information indicative of the nerve health and orientation of the patient's nerve. 13 . The one or more non-transitory memory of claim 12 , wherein the processor executable code is configured to interpret the magnetic field data by causing the one or more processor to record at least one baseline of nerve conduction velocity of the patient's nerve. 14 . The one or more non-transitory memory of claim 12 , wherein the processor executable code further causes the one or more processor to display information indicating a direction and proximity of the patient's nerve based on the magnetic field data. 15 . A surgical system kit, comprising: a surgical instrument having one or more magnetometers; and, a control unit configured to be in communication with the one or more magnetometers, receive information indicative of a magnetic field response generated by the one or more magnetometers, and interpret the information according to nerve conduction velocity to determine a nerve conduction velocity of at least a segment of a nerve. 16 . The surgical system kit of claim 15 , wherein the control unit further includes an output device displaying indicia indicative of the nerve conduction velocity. 17 . The surgical system kit of claim 15 , wherein the surgical instrument includes a plurality of magnetometers orientated at orthogonal axes.