Abstract: An electrochemical analyte biosensor is configured to detect an analyte. The electrochemical analyte biosensor includes a biocompatible electrode composite with a microporous polymer substrate having a plurality of interconnected pores, an electrically conductive region serving as a working electrode and including a conductive material contained at least partially in the interconnected pores of the microporous polymer substrate, and at least one immobilized bioreceptor region adjacent to the electrically conductive region. The conductive material may include a conformal metal coating on the microporous polymer substrate or a nanoporous metal imbibed into the microporous polymer substrate. The microporous polymer substrate may support tissue integration and/or tissue ingrowth in certain applications. The electrochemical analyte biosensor may be used in medical, industrial, agricultural, environmental, and other applications.

Abstract: A minimally-invasive analyte detecting device and method for using the same. The system and method employ a device having an active electrode optionally coated with a substance, and a counter-electrode that is configured at least partially surround the active electrode. The configuration of the auxiliary electrode and active electrode improves the current flow through the device and increases the sensitivity of the device. When the device is placed against the patient's skin, the active electrode is adapted to enter through the stratum corneum of a patient to a depth less than a depth in the dermis at which nerve endings reside. An electric potential is applied to the active electrode and the analyte level is determined based on the amount of current or charge flowing through the device.

Abstract: A minimally-invasive analyte detecting device and method for using the same. The system and method employ a device having an active electrode optionally coated with a substance, and a counter-electrode that is configured at least partially surround the active electrode. The configuration of the auxiliary electrode and active electrode improves the current flow through the device and increases the sensitivity of the device. When the device is placed against the patient's skin, the active electrode is adapted to enter through the stratum corneum of a patient to a depth less than a depth in the dermis at which nerve endings reside. An electric potential is applied to the active electrode and the analyte level is determined based on the amount of current or charge flowing through the device.

Abstract: A minimally-invasive analyte detecting device and method for using the same. The system and method employ a device having an active electrode optionally coated with a substance, and a counter-electrode that is configured at least partially surround the active electrode. The configuration of the auxiliary electrode and active electrode improves the current flow through the device and increases the sensitivity of the device. When the device is placed against the patient's skin, the active electrode is adapted to enter through the stratum corneum of a patient to a depth less than a depth in the dermis at which nerve endings reside. An electric potential is applied to the active electrode and the analyte level is determined based on the amount of current or charge flowing through the device.