中国听力语言康复科学杂志2026,Vol.24Issue(1):7-11,5.DOI:10.3969/j.issn.1672-4933.2026.01.002
听觉诱发电位在人工耳蜗领域的研究态势
Research Landscape of Auditory Evoked Potentials in Cochlear Implants
摘要
Abstract
Objective This study aims to systematically analyze the research status,hotspots,and development trends of auditory evoked potentials(AEPs)in the field of cochlear implants(CIs)from 1999 to 2025 using bibliometric methods,so as to provide a reference for scientific research planning and clinical practice.Methods Relevant publications were retrieved from the Web of science Core Collection.Using tools such as VOSviewer and CiteSpace,568 included articles were analyzed in terms of annual distribution,country/institution collaboration,core authors,highly-cited literature,as well as keyword co-occurrence and burst detection.Results The annual publication output showed a fluctuating upward trend,with peaks in 2022 and 2024.The University of Toronto and the United States were identified as the most productive institution and country,respectively.Highly-cited literature focused on critical periods in auditory development and electrophysiological assessment standards.A Keyword analysis revealed that research has evolved from initial explorations of electrical stimulation and neural mechanisms to more refined techniques,such as hearing preservation and intracochlear electrocochleography,reflecting a shift toward multidisciplinary integration.Conclusion Research on AEPs in the CI field is transitioning from basic mechanisms to clinical applications and multimodal assessment.Future efforts should further integrate neurocognitive and big data technologies to achieve more precise preoperative prediction and comprehensive rehabilitation management.关键词
听觉诱发电位/人工耳蜗/文献计量学/可视化分析/研究热点Key words
Auditory evoked potentials/Cochlear implants/Bibliometrics/Visual analysis/Research hotspots分类
医药卫生引用本文复制引用
李利玲,陈丹,陈愈彬,谭静芊,王健艳,罗佳,杨洛盈,李鹏..听觉诱发电位在人工耳蜗领域的研究态势[J].中国听力语言康复科学杂志,2026,24(1):7-11,5.基金项目
国家自然科学基金"基于SIRT1/IL-6-STAT3-NF-κB信号通路介导的非菌性炎症在老年性耳聋中的作用机制研究"(82371158) (82371158)
国家自然科学基金"ROS-Caspase-3-Dicer通路在钴诱导耳蜗细胞毒性损伤中的作用及分子机制"(82071050) (82071050)
中山大学附属第三医院临床研究专项基金"咽鼓管球囊扩张术联合吹张术改善鼻咽癌放疗后分泌性中耳炎患者咽鼓管功能的临床研究"(YHJH202304) (YHJH202304)
