Automatic real-time hearing aid fitting based on auditory evoked potentials

The invention claimed is: 1. A hearing aid, comprising: an ear part configured to be mounted fully or partially at an ear or in an ear canal of a user, the ear part including a housing, and at least one electrode located at a surface of said housing to allow said at least one electrode to contact the skin of a user when said ear part is operationally mounted on the user, the at least one electrode configured to pick up at least one low voltage electric signal from the user's brain; an amplifier unit operationally connected to said at least one electrode and configured to amplify said at least one low voltage electric signal to provide at least one amplified brain signal; an input transducer for providing an electric audio input signal; an output transducer for converting an electric output signal to an acoustic output sound; a signal processing unit being operationally connected to said amplifier unit and configured to process said at least one amplified brain signal to provide at least one processed brain signal, to said input transducer and configured to apply a time and frequency dependent gain to said electric audio input signal or a signal originating therefrom and to provide a processed audio output signal, and to said output transducer allowing said processed audio output signal to be presented to the user as a processed acoustic signal; and a signal generator for generating an electric test signal specifically configured to be used in an auditory evoked potential measurement, the signal generator being operationally connected to said output transducer allowing said electric test signal to be converted to an auditory test stimulus for being presented to the user together with said processed acoustic signal during normal daily life use of the hearing aid. 2. A hearing aid according to claim 1 wherein said electric test signal is configured to provide that the auditory test stimulus is masked and/or inaudible to the user. 3. A hearing aid according to claim 1 wherein said signal processing unit is configured to estimate the user's hearing thresholds based on said at least one processed brain signal. 4. A hearing aid according to claim 3 wherein the estimate of the user's hearing threshold is based on said at least one processed brain signal from said at least one low voltage electric signal picked up by said at least one electrode over a period of time, termed the measurement time, longer than 8 hours. 5. A hearing aid according to claim 3 wherein the signal processing unit is configured to run a fitting algorithm to determine appropriate frequency dependent gains for the user from said estimated hearing thresholds. 6. A hearing aid according to claim 5 wherein the signal processing unit is configured to modify presently used frequency dependent gains. 7. A hearing aid according to claim 3 comprising a memory for logging values of said estimated hearing thresholds of the user over time. 8. A hearing aid according to claim 7 wherein the signal processing unit is configured to determine whether said estimated hearing thresholds or a hearing threshold measure derived therefrom change over time. 9. A hearing aid according to claim 8 comprising an alarm indication unit configured to issue an alarm signal to the user in case said estimated hearing thresholds deteriorate over time. 10. A hearing aid according to claim 9 wherein said deterioration includes that said estimated hearing thresholds increase above predetermined relative or absolute levels or that their rates of change are above predefined values. 11. A hearing aid according to claim 1 comprising a user interface configured to allow a user to activate or deactivate a specific mode wherein the voltages or data from the electrodes are recorded for further processing to determine said estimate of the user's hearing thresholds. 12. A hearing aid according to claim 1 configured to determine at least an estimate of real or absolute time elapsed between two time instances where estimates of hearing thresholds of the user are determined and stored. 13. Use of a hearing aid as claimed in claim 1 . 14. A method of operating a hearing aid, the hearing aid including an ear part configured to be mounted fully or partially at an ear or in an ear canal of a user, the ear part including a housing, and at least one electrode located at a surface of said housing to allow said at least one electrode to contact the skin of a user when said ear part is operationally mounted on the user, and configured to pick up at least one low voltage electric signal from the user's brain; and an amplifier unit operationally connected to said at least one electrode and configured to amplify said at least one low voltage electric signal to provide at least one amplified brain signal; an input transducer for providing an electric audio input signal; an output transducer for converting an electric output signal to an acoustic output sound to the user; a signal generator for generating an electric test signal, the signal generator being operationally connected to said output transducer allowing said electric test signal to be presented to a user as an auditory test stimulus; and a signal processing unit, said signal processing unit being operationally connected to said amplifier unit, to said input transducer, and to said output transducer, the method comprising: mounting said hearing aid on said user; applying a time and frequency dependent gain to said electric audio input signal or a signal originating therefrom and providing a processed audio output signal; generating and specifically adapting said electric test signal to be presented to the user as an auditory test stimulus and used in an auditory evoked potential measurement; mixing said processed audio output signal or a signal originating therefrom and said electric test signal to said electric output signal for being presented together to the user as said acoustic output sound wherein said electric output signal is converted to said acoustic output sound during normal daily life use of the hearing aid; and recording and processing said at least one amplified brain signal to provide at least one processed brain signal. 15. A method according to claim 14 further comprising that the user's hearing thresholds are estimated based on said at least one processed brain signal. 16. A method according to claim 15 wherein the estimate of the user's hearing threshold is based on said at least one processed brain signal from said at least one low voltage electric signal picked up by said at least one electrode over a period of time, termed the measurement time, longer than 8 hours. 17. A method according to claim 15 further comprising running a fitting algorithm using said estimated hearing thresholds to determine appropriate frequency dependent gain for the user. 18. A method according to claim 17 comprising that the currently used frequency dependent gain is modified based on said estimated hearing thresholds. 19. A method according to claim 14 wherein the measurement of auditory evoked potentials is selected among Auditory Brainstem Response, including Auditory Brainstem Responses to complex sounds, Auditory Steady State Response, and Frequency Following Response. 20. A data processing system comprising a processor and program code means for causing the processor to perform the steps of the method of claim 14 .