Connectorized cochlear implant systems and methods

What is claimed is: 1. A system comprising: a cochlear implant module configured to be implanted within a patient and comprising cochlear implant circuitry configured to apply electrical stimulation representative of one or more audio signals to the patient; an implantable sound processor module configured to be implanted within the patient and comprising sound processor circuitry configured to optically transmit data and/or power to the cochlear implant circuitry; and an optical connector assembly configured to facilitate removable coupling of the implantable sound processor module to the cochlear implant module by way of the optical connector assembly; wherein the optical connector assembly comprises one or more optical fibers configured to facilitate the optical transmission of the data and/or the power from the sound processor circuitry to the cochlear implant circuitry while the implantable sound processor module is removably coupled to the cochlear implant module by way of the optical connector assembly; and wherein the sound processor circuitry optically transmits the data and/or the power to the cochlear implant circuitry by way of the one or more optical fibers while the implantable sound processor module is removably coupled to the cochlear implant module by way of the optical connector assembly. 2. The system of claim 1 , wherein the optical connector assembly further comprises: a cable that houses the one or more optical fibers; and a modular connector disposed at a distal end of the cable. 3. The system of claim 2 , wherein: the modular connector is configured to removably connect to the cochlear implant module; and the cochlear implant module further comprises an optical feedthrough assembly that optically connects the one or more optical fibers to the cochlear implant circuitry while the modular connector is removably connected to the cochlear implant module. 4. The system of claim 3 , wherein a proximal end of the cable is permanently coupled to the implantable sound processor module. 5. The system of claim 4 , wherein the implantable sound processor module further comprises an optical feedthrough assembly that optically connects the one or more optical fibers to the sound processor circuitry. 6. The system of claim 2 , wherein: the modular connector is configured to removably connect to the implantable sound processor module; and the implantable sound processor module further comprises an optical feedthrough assembly that optically connects the one or more optical fibers to the cochlear implant circuitry while the modular connector is removably connected to the implantable sound processor module. 7. The system of claim 6 , wherein a proximal end of the cable is permanently coupled to the cochlear implant module. 8. The system of claim 7 , wherein the cochlear implant module further comprises an optical feedthrough assembly that optically connects the one or more optical fibers to the cochlear implant circuitry. 9. The system of claim 1 , wherein the optical connector assembly further comprises: a cable that houses the one or more optical fibers; a first modular connector disposed at a proximal end of the cable; and a second modular connector disposed at a distal end of the cable; wherein the first modular connector is configured to removably connect to the cochlear implant module and wherein the second modular connector is configured to removably connect to the implantable sound processor module. 10. The system of claim 1 , wherein the one or more optical fibers are further configured to facilitate optical transmission of data from the cochlear implant circuitry to the sound processor circuitry while the implantable sound processor module is removably coupled to the cochlear implant module by way of the optical connector assembly. 11. The system of claim 1 , further comprising an implantable antenna configured to be implanted within the patient, wherein the optical connector assembly is further configured to facilitate removable coupling of the implantable antenna in place of the implantable sound processor module to the cochlear implant module. 12. The system of claim 1 , further comprising an implantable battery configured to be implanted within the patient and to be communicatively coupled to the sound processor circuitry, wherein the implantable battery supplies the power that is optically transmitted to the cochlear implant circuitry. 13. The system of claim 12 , wherein the implantable battery is separate from the implantable sound processor module and configured to be communicatively coupled to the sound processor module circuitry by way of a power link. 14. The system of 12 , wherein the implantable sound processor module houses the implantable battery. 15. A system comprising: a cochlear implant module configured to be implanted within a patient and comprising cochlear implant circuitry configured to apply electrical stimulation representative of one or more audio signals to the patient; and an optical connector assembly coupled to the cochlear implant module and configured to be removably connected to an implantable sound processor module that comprises sound processor circuitry; wherein the optical connector assembly comprises: a modular connector configured to be removably connected to the implantable sound processor module, and a cable permanently connected to the modular connector and that includes one or more optical fibers configured to facilitate optical transmission of data and power from the sound processing circuitry to the cochlear implant circuitry while the implantable sound processor module is removably connected to the modular connector; and wherein the cochlear implant circuitry optically receives the data and the power from the sound processor circuitry by way of the one or more optical fibers while the implantable sound processor module is removably connected to the modular connector. 16. The system of claim 15 , wherein the cochlear implant module further comprises an optical feedthrough assembly that optically connects the one or more optical fibers to the cochlear implant circuitry. 17. The system of claim 15 , wherein the modular connector is disposed at a distal end of the cable. 18. A system comprising: an implantable sound processor module configured to be implanted within a patient and comprising sound processor circuitry configured to optically transmit data and power; and an optical connector assembly coupled to the sound processor module and configured to be removably connected to a cochlear implant module configured to be implanted within the patient and comprising cochlear implant circuitry configured to apply electrical stimulation representative of one or more audio signals to the patient; wherein the optical connector assembly comprises: a modular connector configured to be removably connected to the cochlear implant module, and a cable that includes one or more optical fibers configured to facilitate receipt by the cochlear implant circuitry of the optically transmitted data and power from the sound processing circuitry while the cochlear implant module is removably connected to the modular connector; and wherein the sound processor circuitry optically transmits the data and the power to the cochlear implant circuitry by way of the one or more optical fibers while the cochlear implant module is removably connected to the modular connector. 19. The system of claim 18 , wherein the implantable sound processor module further comprises an optical