Nitinol in Passive Ossicular Reconstruction-First Results From Temporal Bone Experiments.

Abstract

Nitinol is a suitable material for passive middle ear prosthesis. In modern ear microsurgery, the restitution of hearing is tremendously important. In passive ossicular reconstruction, rigid alloplastic materials are widespread in use. However, rigid prostheses fail to adapt to atmospheric pressure changes. We describe the use of the super-elastic material nitinol in passive ossicular reconstruction to overcome this limitation. Together with an industrial partner, we developed a nitinol clip prosthesis equipped with a flexible prosthesis headplate. The new prosthesis was evaluated for flexibility and its sound transmission properties were compared with standard clip prostheses. For this purpose, the sound-induced acceleration of the stapes footplate was measured by laser-doppler vibrometry in temporal bones. Furthermore, the flexibility of the prosthesis plate was tested in a load-cell experiment. On average, the pure tone transmission characteristics of the nitinol prosthesis is statistically not distinguishable from standard titanium clip prostheses. The tests in the load cell confirmed the flexibility of the prosthesis. Any measured prosthesis returns to its original state after deformation. The newly developed nitinol clip prosthesis shows similar sound transmission properties in comparison to established prostheses with high flexibility indicating a step forward to a physiological ossicular chain reconstruction.