Removable middle ear implant sensor

What is claimed is: 1. A middle ear implant comprising: a first interface portion configured to interface with a first structure of a middle ear of a patient; a second interface portion configured to interface with a second structure of the middle ear of the patient; a shaft configured to connect the first interface portion and the second interface portion; a carrier plate configured to be removably mounted in one of the first interface portion or the second interface portion; and a removable sensor disposed at one end of the shaft, between the shaft and one of the first interface portion or the second interface portion, the removable sensor being configured to provide a DC signal output indicative of static pressure on the sensor based on placement of the sensor between the first and second structures, and provide an AC signal output indicative of a frequency response of the implant, wherein the removable sensor is disposed at a portion of the carrier plate, and wherein the removable sensor comprises a sensing layer configured to have a first electrical lead contact a top surface of the sensing layer and a second electrical lead contact a bottom surface of the sensing layer to generate electrical impulses based on mechanical forces imparted on the shaft. 2. The middle ear implant of claim 1 , wherein the first structure comprises a malleus and the second structure comprises a stapes of the patient. 3. The middle ear implant of claim 2 , wherein the second interface portion comprises a reception slot extending in a plane substantially perpendicular to a longitudinal axis of the shaft when the shaft is operably coupled to the second interface portion, the reception slot receiving the carrier plate responsive to insertion of the carrier plate into the second interface portion. 4. The middle ear implant of claim 3 , wherein the removable sensor is disposed at a holding slot formed at a portion of the carrier plate, the holding slot aligning with a receiving opening formed in the second interface portion to receive mechanical forces imparted on the shaft. 5. The middle ear implant of claim 4 , wherein the holding slot is at least partially surrounded by a slanted floor to retain the removable sensor in substantial alignment with the shaft and prevent the carrier plate from sliding out of the reception slot. 6. The middle ear implant of claim 4 , wherein the reception slot extends through a side portion of the second interface portion and the receiving opening is disposed at a longitudinal end of the second interface portion. 7. A test set for monitoring a surgical procedure, the test set comprising: a meter; and a middle ear implant comprising: a first interface portion configured to interface with a first structure of a middle ear of a patient; a second interface portion configured to interface with a second structure of the middle ear of the patient; a shaft configured to connect the first interface portion and the second interface portion; a carrier plate configured to be removably mounted in one of the first interface portion or the second interface portion; and a removable sensor disposed at one end of the shaft, between the shaft and one of the first interface portion or the second interface portion, the removable sensor being configured to provide a DC signal output indicative of static pressure on the sensor based on placement of the sensor between the first and second structures, and provide an AC signal output indicative of a frequency response of the implant, wherein the removable sensor is disposed at a portion of the carrier plate, wherein the removable sensor comprises a sensing layer configured to have a first electrical lead contact a top surface of the sensing layer and a second electrical lead contact a bottom surface of the sensing layer to generate electrical impulses based on mechanical forces imparted on the shaft, and wherein the meter is configured to interface with the sensor during the surgical procedure to provide indications to an operator regarding the DC and AC signal outputs. 8. The test set of claim 7 , wherein the first structure comprises a malleus and the second structure comprises a stapes of the patient. 9. The test set of claim 8 , wherein the second interface portion comprises a reception slot extending in a plane substantially perpendicular to a longitudinal axis of the shaft when the shaft is operably coupled to the second interface portion, the reception slot receiving the carrier plate responsive to insertion of the carrier plate into the second interface portion. 10. The test set of claim 9 , wherein the removable sensor is disposed at a holding slot formed at a portion of the carrier plate, the holding slot aligning with a receiving opening formed in the second interface portion to receive mechanical forces imparted on the shaft. 11. The test set of claim 10 , wherein the holding slot is at least partially surrounded by a slanted floor to retain the removable sensor in substantial alignment with the shaft and prevent the carrier plate from sliding out of the reception slot. 12. The test set of claim 10 , wherein the reception slot extends through a side portion of the second interface portion and the receiving opening is disposed at a longitudinal end of the second interface portion. 13. The test set of claim 7 , further comprising an excitation unit configured to provide test signals for stimulating and evaluation of the AC signal output. 14. The test set of claim 13 , further comprising a control unit configured to control the excitation unit and the meter. 15. The test set of claim 14 , wherein the control unit comprises a user interface configured to enable the operator to define stimuli for evaluation. 16. The test set of claim 14 , wherein the control unit comprises a processing circuitry configured to evaluate the AC signal output and/or DC signal output relative to respective predefined ranges to determine whether the placement of the implant results in the AC signal output and/or the DC signal output being within the respective predefined ranges.