A new method of preoperative assessment of correct electrode array alignment based on post-operative measurements in a cochlear implanted cohort.

Purpose: During cochlear implantation surgery, a range of complications may occur such as tip fold-over. We recently developed a method to estimate the insertion orientation of the electrode array. The aim of the study was to determine the optimal angle of orientation in a cohort of cochlear implanted patients.

A new method to determine the optimal orientation of Slim Modiolar cochlear implant electrode array insertion.

Background And Purpose: Our goal was to determine the optimal orientation of insertion of the Slim Modiolar electrode and develop an easy-to-use method to aid implantation surgery. In some instances, the electrode arrays cannot be inserted in their full length. This can lead to buckling, interscalar dislocation or tip fold-over.

[A novel intraoperative imaging tool to follow the cochlear implant electrode array insertion dynamics].

Unlabelled: Összefoglaló. Bevezetés: A cochlearis implantátum egy műtétileg behelyezett elektromos eszköz, amely az akusztikus hanghullámokat elektromos jelekké alakítja, közvetlenül a hallóideget stimulálja, így segíti a súlyos fokú hallássérüléssel vagy teljes hallásvesztéssel élők életét. Cochlearis implantációt követően a legjobb rehabilitációs eredmény elérésének technikai feltétele többek között az esetre szabott elektródaválasztás és az elektródasor teljes, kontrollált, szövődménymentes bejuttatása a scala tympaniba, miközben a cochlea belső struktúrája a lehető legkisebb mértékben sérül.

Nearly Aberration-Free Multiphoton Polymerization into Thick Photoresist Layers.

In the era of lab-on-chip (LOC) devices, two-photon polymerization (TPP) is gaining more and more interest due to its capability of producing micrometer-sized 3D structures. With TPP, one may integrate functional structures into microfluidic systems by polymerizing them directly inside microchannels. When the feature of sub-micrometer size is a requirement, it is necessary to use high numerical aperture (NA) oil-immersion objectives that are optimized to work close to the glass substrate-photoresist interface.