Abstract: An exemplary method includes a fitting subsystem detecting a communicative coupling of a cochlear implant associated with a patient to a sound processor connected to the fitting subsystem and automatically determining, in response to the communicative coupling, an implant side associated with the cochlear implant in accordance with one or more implant side selection factors. Corresponding methods and systems are also described.

Abstract: A method includes a fitting subsystem maintaining patient data in a primary database associated with a primary schema, receiving an export file representative of additional patient data extracted from a source database associated with a source schema and maintained by another fitting subsystem, importing the additional patient data represented by the export file into a database partition associated with the source schema, upgrading, in response to the importing, the database partition to be associated with the primary schema, and merging the additional patient data included in the upgraded database partition with the patient data in the primary database. Corresponding methods and systems are also described.

Abstract: An exemplary method of automatic generation of multithread-safe software code includes a multithread-safe code generator subsystem analyzing data representative of non-multithread-safe software code and automatically generating data representative of multithread-safe software code based on the analyzing of the data representative of the non-multithread-safe software code. Corresponding methods and systems are also described.

Abstract: An exemplary method of fitting a sound processor to a cochlear implant patient includes pre-loading program data representative of a plurality of sound processing programs onto a sound processor during a data transfer session and selectively using, after completion of the data transfer session, one or more of the pre-loaded sound processing programs to fit the sound processor to the patient. Corresponding methods and systems are also described.

Abstract: An exemplary method of fitting a bilateral cochlear implant patient using a single sound processor includes a fitting subsystem using a first sound processor associated with a first cochlear implant to selectively fit the first cochlear implant and a second cochlear implant to a cochlear implant patient, automatically segregating fitting data generated during the fitting of the first cochlear implant from fitting data generated during the fitting of the second cochlear implant, and transmitting the fitting data generated during the fitting of the second cochlear implant to a second sound processor associated with the second cochlear implant after the fitting of the second cochlear implant to the cochlear implant patient is completed. Corresponding methods and systems are also described.

Abstract: Exemplary insertion tools, systems, and methods for inserting an electrode array portion of a lead into a bodily orifice are described herein. An exemplary insertion tool includes a handle assembly, a slider assembly, a retractor assembly disposed at least partially within the handle assembly, and a rocker lever. The retractor assembly may include a stiffening member configured to be inserted into the electrode array portion and a spring-loaded retractor member coupled at a proximal end of the stiffening member. The spring-loaded retractor member may be configured to move from a distal position to a proximal position to at least partially retract the stiffening member from the electrode array portion. The rocker lever may be configured to selectively retain the spring-loaded retractor member in the distal position. Corresponding tools, systems, and methods are also described.

Abstract: Exemplary insertion tools, systems, and methods for inserting a pre-curved electrode array portion of a lead into a bodily orifice are described herein. An exemplary insertion tool includes a handle assembly, a slider assembly, an insertion assembly coupled to the handle assembly, and a retractor assembly disposed at least partially within the handle assembly and configured to selectively couple to a straightening member inserted into the pre-curved electrode array portion and at least partially retract the straightening member from the pre-curved electrode array portion in response to actuation by a user of the slider assembly. The retractor assembly may comprise a spring-loaded retractor member configured to move from a distal position to a proximal position in response to actuation by the user of the slider assembly to at least partially retract the straightening member from the pre-curved electrode array portion. Corresponding insertion tools, systems, and methods are also described.

Abstract: Exemplary insertion tools, systems, and methods for inserting an electrode array portion of a lead into a bodily orifice are described herein. An exemplary insertion tool includes a handle assembly, a retractor assembly disposed at least partially within the handle assembly, and a slider assembly disposed at least partially within the handle assembly. The retractor assembly may include a stiffening member configured to be inserted into an electrode array portion and a spring-loaded retractor member coupled to the stiffening member and configured to move from a distal position to a proximal position to at least partially retract the stiffening member from the electrode array portion. The slider assembly may be configured to selectively retain the spring-loaded retractor member and further configured to release the spring-loaded retractor member to move from the distal position to the proximal position in response to actuation by a user of the slider assembly.

Abstract: An exemplary system includes an implantable cochlear stimulator configured to be implanted within a patient, a sound processor communicatively coupled to the implantable cochlear stimulator and configured to direct the implantable cochlear stimulator to generate and apply electrical stimulation to one or more stimulation sites within a cochlea of the patient, and a displacement sensor assembly configured to measure a displacement of the stapedius of the patient that occurs in response to the application of the electrical stimulation and transmit displacement data representative of the measured displacement to the sound processor. Corresponding systems and methods are also disclosed.