Comprehensive literature review on the application of the otological surgical planning software OTOPLAN® for cochlear implantation.

IF 0.8 4区医学 Q4 OTORHINOLARYNGOLOGY Hno Pub Date : 2024-06-11 DOI:10.1007/s00106-023-01417-4

Franz-Tassilo Müller-Graff, Björn Spahn, David P Herrmann, Anja Kurz, Johannes Völker, Rudolf Hagen, Kristen Rak

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Abstract

Background: The size of the human cochlear, measured by the diameter of the basal turn, varies between 7 and 11 mm. For hearing rehabilitation with cochlear implants (CI), the size of the cochlear influences the individual frequency map and the choice of electrode length. OTOPLAN® (CAScination AG [Bern, Switzerland] in cooperation with MED-EL [Innsbruck, Austria]) is a software tool with CE marking for clinical applications in CI treatment which allows for precise pre-planning based on cochlear size. This literature review aims to analyze all published data on the application of OTOPLAN®.

Materials and methods: The Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines were applied to identify relevant studies published in the PubMed search engine between January 2015 and February 2023 using the search terms "otoplan" [title/abstract] OR "anatomy-based fitting" [title/abstract] OR "otological software tool" [title/abstract] OR "computed tomography-based software AND cochlear" [title/abstract].

Results: The systematic review of the literature identified 32 studies on clinical use of OTOPLAN® in CI treatment. Most studies were reported from Germany (7 out of 32), followed by Italy (5), Saudi Arabia (4), the USA (4), and Belgium (3); 2 studies each were from Austria and China, and 1 study from France, India, Norway, South Korea, and Switzerland. In the majority of studies (22), OTOPLAN® was used to assess cochlear size, followed by visualizing the electrode position using postoperative images (5), three-dimensional segmentation of temporal bone structures (4), planning the electrode insertion trajectory (3), creating a patient-specific frequency map (3), planning of a safe drilling path through the facial recess (3), and measuring of temporal bone structures (1).

Conclusion: To date, OTOPLAN® is the only DICOM viewer with CE marking in the CI field that can process pre-, intra-, and postoperative images in the abovementioned applications.

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关于耳科手术规划软件 OTOPLAN® 在人工耳蜗植入术中的应用的综合文献综述。

背景：人类耳蜗的大小（以基底转轴直径测量）介于 7 毫米和 11 毫米之间。在使用人工耳蜗（CI）进行听力康复时，人工耳蜗的大小会影响个人频率图和电极长度的选择。OTOPLAN® （CAScination AG [瑞士伯尔尼] 与 MED-EL [奥地利因斯布鲁克] 合作开发）是一款具有 CE 标志的软件工具，用于 CI 治疗的临床应用，可根据耳蜗大小进行精确的预先规划。本文献综述旨在分析所有已发表的有关 OTOPLAN® 应用的数据：采用系统综述和荟萃分析首选报告项目（PRISMA）指南，以 "otoplan"[标题/摘要] 或 "基于解剖的拟合"[标题/摘要] 或 "耳科软件工具"[标题/摘要] 或 "基于计算机断层扫描的软件和耳蜗"[标题/摘要]为检索词，在PubMed搜索引擎中查找2015年1月至2023年2月期间发表的相关研究：系统性文献综述确定了 32 项有关 OTOPLAN® 在 CI 治疗中临床应用的研究。大多数研究报告来自德国（32 篇中有 7 篇），其次是意大利（5 篇）、沙特阿拉伯（4 篇）、美国（4 篇）和比利时（3 篇）；奥地利和中国各 2 篇，法国、印度、挪威、韩国和瑞士各 1 篇。在大多数研究（22 项）中，OTOPLAN® 被用于评估耳蜗大小，然后使用术后图像显示电极位置（5 项）、颞骨结构三维分割（4 项）、规划电极插入轨迹（3 项）、创建患者专用频率图（3 项）、规划通过面部凹陷的安全钻孔路径（3 项）以及测量颞骨结构（1 项）：迄今为止，OTOPLAN® 是 CI 领域唯一获得 CE 认证的 DICOM 查看器，可在上述应用中处理术前、术中和术后图像。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Hno 医学-耳鼻喉科学

CiteScore

1.50

自引率

33.30%

发文量

116

审稿时长

4-8 weeks

期刊介绍： HNO is an internationally recognized journal and addresses all ENT specialists in practices and clinics dealing with all aspects of ENT medicine, e.g. prevention, diagnostic methods, complication management, modern therapy strategies and surgical procedures. Review articles provide an overview on selected topics and offer the reader a summary of current findings from all fields of ENT medicine. Freely submitted original papers allow the presentation of important clinical studies and serve the scientific exchange. Case reports feature interesting cases and aim at optimizing diagnostic and therapeutic strategies. Review articles under the rubric ''Continuing Medical Education'' present verified results of scientific research and their integration into daily practice.

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