Department of Otolaryngology-Head and Neck Surgery, Medical College of Georgia, Augusta, Georgia 30912, USA.
Otolaryngol Head Neck Surg. 2011 Jun;144(6):934-9. doi: 10.1177/0194599810397451. Epub 2011 Mar 31.
Current limitations in language perception may stem from an inability to provide high-resolution sound input. Thin-film array technology allows for a greater density of stimulating sites within the limited diameter of the scala tympani. This study examines the use of a flexible carrier to achieve adequate depth of insertion.
A prospective human cadaveric temporal bone insertion analysis.
Academic otolaryngology department and school of electrical and computer engineering collaboration.
A prototype thin-film array electrode coupled with an insertion test device (ITD) was manufactured and inserted into 10 human cadaveric temporal bones. As controls, 2 additional temporal bones were implanted with the ITD only and 2 were unimplanted. Radiologic and histologic data were collected.
Ten thin-film array electrodes were successfully implanted into 10 individual temporal bones via round window (5) and cochleostomy (5) approaches. Seventeen millimeters of insertion was noted for each device, with an average angular insertion depth of 292° by radiographic measurements and 392° by histologic sectioning. Electrode distance to the modiolus averaged 0.88 mm by computed tomography and 0.67 mm by histologic measurements. Average percentage trauma was 26% for the ITD-backed arrays compared with 15% and 29% for ITD only and unimplanted temporal bones, respectively.
Thin-film array electrodes coupled with an ITD were successfully inserted into the human cochlea with limited trauma. With continued development and testing of this electrode design, the thin-film array may improve the language perception achieved through cochlear implantation.
目前语言感知的局限性可能源于无法提供高分辨率的声音输入。薄膜阵列技术允许在有限的鼓阶直径内提供更多的刺激部位密度。本研究探讨了使用柔性载体来实现足够的插入深度。
前瞻性人体尸头颞骨插入分析。
学术耳鼻喉科部门和电气与计算机工程学院合作。
制造了一个与插入测试装置(ITD)耦合的薄膜阵列电极原型,并将其插入 10 个人体尸头颞骨中。作为对照,另外 2 个颞骨仅植入了 ITD,另外 2 个未植入。收集了放射学和组织学数据。
通过圆窗(5 个)和耳蜗造口术(5 个)途径,成功地将 10 个薄膜阵列电极植入 10 个单独的颞骨中。每个装置的插入深度为 17 毫米,通过放射测量的平均角插入深度为 292°,通过组织学切片为 392°。电极到耳蜗轴的距离平均为 CT 扫描的 0.88 毫米和组织学测量的 0.67 毫米。与仅植入 ITD 和未植入颞骨的分别为 15%和 29%相比,ITD 支持的阵列的平均创伤百分比为 26%。
将薄膜阵列电极与 ITD 耦合可以成功地将其插入人体耳蜗,创伤有限。随着这种电极设计的进一步开发和测试,薄膜阵列可能会提高通过耳蜗植入实现的语言感知能力。
