Abstract: Methods and apparatuses for deploying percutaneous probes. An apparatus in accordance with one embodiment of the invention includes a housing and a percutaneous probe having a sharp end and positioned within the housing. The percutaneous probe is movable relative to the housing between a stowed position and at least one of a first deployed position and a second deployed position. The percutaneous probe can project from the housing by a first distance when in the first deployed position and a second distance greater than the first distance when in the second deployed position. A depth control device can operatively couple to the percutaneous probe and can have a first configuration to allow the percutaneous probe to be moved to the first deployed position and a second configuration to allow the percutaneous probe to be moved to the second deployed position.

Abstract: Methods and apparatuses for electrically coupling to percutaneous probes wherein entry angles of the percutaneous probes are controllable. An apparatus in accordance with one embodiment of the invention includes a percutaneous electrode having a first segment with a first sharp end and a second segment with a second end, at least part of the first segment being aligned along an axis and at least part of the second segment being offset from the axis. The apparatus can further include a coupling member having an aperture with a wall portion, at least a portion of which is electrically conductive. The apparatuses include shaped support surfaces, and associated methods wherein a non-planar support surface can more easily match a recipient's skin surface contour for improved comfort and security upon attachment.

Abstract: An apparatus for piercing a skin surface, and methods for operating and manufacturing such an apparatus. In one embodiment, the apparatus can include a support housing having an engaging surface to engage the skin surface. The support housing can include a first guide extending axially away from the engaging surface and a second guide extending transverse to the first guide. The apparatus can further include a probe coupled to a guide member with the guide member sequentially engaged with the first guide and the second guide to move in a first direction toward and away from the engaging surface without simultaneously moving in a second direction transverse to the first direction. Accordingly, a practitioner can reposition the probe from one location to the other (for example, by orbiting the probe relative to a central axis of the support body, or by translating the probe linearly relative to the support body) without moving the housing relative to the skin surface.

Abstract: A method and apparatus for administering percutaneous electrical therapy to a recipient. The apparatus can include an electrical coupler having a coupling member configured to be removably positioned at least proximate to a percutaneous probe. The coupling member can be coupleable to a source of therapeutic electrical signals via a therapeutic signal transmission link to transmit the therapeutic electrical signals to the recipient. The apparatus can further include a status signal transmission link at least proximate to the therapeutic signal transmission link and coupleable to a status signal emitter. The status signal transmission link can be at least tamper-resistant and/or tamper-evident, and can be configured to transmit a status signal having a first characteristic value when the status signal transmission link is in a first condition and a second characteristic value when the status signal transmission link has been altered from a first condition to a second condition.

Abstract: A method and apparatus for supporting couplers for therapy administration and/or monitoring. The apparatus can include a support member configured to rest on a body of a recipient proximate to a coupling area. The support member can include a first coupler location configured to removably carry a first coupler proximate to a first coupling position of the body of the recipient. A second coupler location of the support member is configured to removably carry a second coupler proximate to a second coupling position of the body of the recipient. The first and second coupler locations can be arranged to guide the practitioner to connect the couplers properly to the body. For example, the first coupler location can be positioned closer than the second coupler location to the first coupling position. Accordingly, practitioners can be more likely to connect the first and second couplers to the correct coupling position on the body of the recipient.

Abstract: Apparatuses and methods for supporting couplers for therapy administration and/or monitoring, and associated methods of manufacturing coupler supports. The apparatus can include a support member configured to rest on a body of a recipient proximate to a coupling area. The support member can include a first coupler location configured to removably carry a first coupler proximate to a first coupling position of the body of the recipient. A second coupler location of the support member is configured to removably carry a second coupler proximate to a second coupling position of the body of the recipient. The first and second coupler locations can be arranged to guide the practitioner to connect the couplers properly to the body. For example, the first coupler location can be positioned closer than the second coupler location to the first coupling position. Accordingly, practitioners can be more likely to connect the first and second couplers to the correct coupling position on the body of the recipient.

Abstract: Methods and apparatuses for electrically coupling to percutaneous probes wherein entry angles of the percutaneous probes are controllable. An apparatus in accordance with one embodiment of the invention includes a percutaneous electrode having a first segment with a first sharp end and a second segment with a second end, at least part of the first segment being aligned along an axis and at least part of the second segment being offset from the axis. The apparatus can further include a coupling member having an aperture with a wall portion, at least a portion of which is electrically conductive. The apparatuses include shaped support surfaces, and associated methods wherein a non-planar support surface can more easily match a recipient's skin surface contour for improved comfort and security upon attachment.

Abstract: Methods and apparatuses for deploying percutaneous probes. An apparatus in accordance with one embodiment of the invention includes a housing and a percutaneous probe having a sharp end and positioned within the housing. The percutaneous probe is movable relative to the housing between a stowed position and at least one of a first deployed position and a second deployed position. The percutaneous probe can project from the housing by a first distance when in the first deployed position and a second distance greater than the first distance when in the second deployed position. A depth control device can operatively couple to the percutaneous probe and can have a first configuration to allow the percutaneous probe to be moved to the first deployed position and a second configuration to allow the percutaneous probe to be moved to the second deployed position.

Abstract: An apparatus for piercing a skin surface, and methods for operating and manufacturing such an apparatus. In one embodiment, the apparatus can include a support housing having an engaging surface to engage the skin surface. The support housing can include a first guide extending axially away from the engaging surface and a second guide extending transverse to the first guide. The apparatus can further include a probe coupled to a guide member with the guide member sequentially engaged with the first guide and the second guide to move in a first direction toward and away from the engaging surface without simultaneously moving in a second direction transverse to the first direction. Accordingly, a practitioner can reposition the probe from one location to the other (for example, by orbiting the probe relative to a central axis of the support body, or by translating the probe linearly relative to the support body) without moving the housing relative to the skin surface.

Abstract: A method and apparatus for administering percutaneous electrical therapy to a recipient. The apparatus can include an electrical coupler having a coupling member configured to be removably positioned at least proximate to a percutaneous probe. The coupling member can be coupleable to a source of therapeutic electrical signals via a therapeutic signal transmission link to transmit the therapeutic electrical signals to the recipient. The apparatus can further include a status signal transmission link at least proximate to the therapeutic signal transmission link and coupleable to a status signal emitter. The status signal transmission link can be at least tamper-resistant and/or tamper-evident, and can be configured to transmit a status signal having a first characteristic value when the status signal transmission link is in a first condition and a second characteristic value when the status signal transmission link has been altered from a first condition to a second condition.

Abstract: An apparatus for coupling a percutaneous electrode to an electrical power source, and methods for operating such an apparatus. In one embodiment, the apparatus can include a housing, an electrode movably coupled to the housing and having a sharpened end to pierce a skin surface, and an actuator releasably coupled to the electrode to move the electrode relative to the housing. The actuator is movable relative to the electrode between a first position and a second position. The actuator has a conductive member coupleable to a source of electrical power, and the conductive member has a first surface and a conductive feature with a second surface offset from the first surface. The conductive member is releasably engaged with the electrode when the actuator is moved to the second position and can provide mechanical feedback to the operator when the conductive member engages the electrode.

Abstract: An apparatus for piercing a skin surface, and methods for operating and manufacturing such an apparatus. In one embodiment, the apparatus can include a support housing having an engaging surface to engage the skin surface. The support housing can include a first guide extending axially away from the engaging surface and a second guide extending transverse to the first guide. The apparatus can further include a probe coupled to a guide member with the guide member sequentially engaged with the first guide and the second guide to move in a first direction toward and away from the engaging surface without simultaneously moving in a second direction transverse to the first direction. Accordingly, a practitioner can reposition the probe from one location to the other (for example, by orbiting the probe relative to a central axis of the support body, or by translating the probe linearly relative to the support body) without moving the housing relative to the skin surface.

Abstract: A method and apparatus for supporting couplers for therapy administration and/or monitoring. The apparatus can include a support member configured to rest on a body of a recipient proximate to a coupling area. The support member can include a first coupler location configured to removably carry a first coupler proximate to a first coupling position of the body of the recipient. A second coupler location of the support member is configured to removably carry a second coupler proximate to a second coupling position of the body of the recipient. The first and second coupler locations can be arranged to guide the practitioner to connect the couplers properly to the body. For example, the first coupler location can be positioned closer than the second coupler location to the first coupling position. Accordingly, practitioners can be more likely to connect the first and second couplers to the correct coupling position on the body of the recipient.