Sensor including electrically conductive abrasive material

What is claimed is: 1 . A sensor, comprising: an electrode assembly including an electrode well; and an electrically conductive material disposed within the electrode well and comprising abrasive particles, wherein the abrasive particles are configured to displace at least a portion of a layer on or of skin of a patient upon application of the sensor to the skin of the patient. 2 . The sensor of claim 1 , wherein the electrically conductive material is configured to wet to a surface of the skin and to wet to a surface of an electrode within the electrode well. 3 . The sensor of claim 2 , wherein the abrasive particles are configured to displace the at least a portion of the layer on the surface of the skin to increase a surface area of wetting between the electrically conductive material and the skin of the patient. 4 . The sensor of claim 1 , wherein the abrasive particles are configured to displace at least a portion of an outermost layer of the skin to decrease an impedance between the skin and the electrode. 5 . The sensor of claim 1 , wherein the electrically conductive material comprises an electrolytic gel. 6 . The sensor of claim 1 , wherein the electrically conductive material is configured to absorb the at least a portion of the layer after the at least the portion of the layer is displaced by the abrasive particles. 7 . The sensor of claim 1 , wherein the electrode assembly comprises: a backing layer; at least one electrode disposed on the backing layer; a foam layer disposed on at least a portion of the backing layer; and an adhesive disposed on at least a portion of the foam layer and configured to adhere the sensor to the patient, wherein the electrode well is defined by the foam layer and the backing layer. 8 . The sensor of claim 7 , further comprising: a sponge disposed at least partially within the electrode well and configured to release the electrically conductive material upon application of the sensor to the skin of the patient. 9 . The sensor of claim 7 , wherein the adhesive, the foam layer, and the backing layer are configured to contain the electrically conductive material upon application of the sensor to the skin of the patient. 10 . The sensor of claim 1 , wherein the electrode well is deformable upon application of a force to the electrode assembly causing the abrasive particles to displace the at least a portion of the layer on or of the skin, wherein the electrode well is configured to contain the electrically conductive material after being deformed in response to the application of the force. 11 . The sensor of claim 1 , wherein the sensor is at least one of an electroencephalogram sensor or an electrocardiogram sensor. 12 . An assembly comprising: a sensor comprising: an electrode assembly including an electrode well, the electrode assembly comprising: a backing layer; an electrode disposed on the backing layer; a foam layer disposed on at least a portion of the backing layer; an adhesive disposed on at least a portion of the foam layer and configured to adhere the sensor to a patient, wherein the electrode well is defined by the foam layer and the backing layer; and an electrically conductive material disposed within the electrode well and comprising abrasive particles, wherein the abrasive particles are configured to displace at least a portion of a layer on or of a skin of the patient upon application of the sensor to the skin of the patient; and a peelable layer configured to contain the electrically conductive material within the electrode well and configured to releasably adhere to and cover an outer surface of the adhesive. 13 . The assembly of claim 12 , wherein the electrically conductive material is configured to wet to a surface of the skin and to wet to a surface of an electrode within the electrode well. 14 . The assembly of claim 13 , wherein the abrasive particles are configured to displace the at least a portion of the layer on the surface of the skin to increase a surface area of wetting between the electrically conductive material and the skin of the patient. 15 . A method, comprising: positioning a sensor on a surface of a skin of a patient, the sensor comprising: an electrode assembly including an electrode well; and an electrically conductive material comprising abrasive particles; applying a force to the sensor to adhere the sensor to the surface about a perimeter of the electrode well thereby sealing the electrode well; and applying a force to the sensor in a direction towards the surface of the skin, wherein the application of the force causes the abrasive particles to displace at least a portion of a layer on the surface of the skin of the patient.