{"title":"Shaping the Future of Surgical Procedures: A Bibliometric Analysis of Advanced Polymeric Surgical Materials Research in the Last Decade.","authors":"Wenhan Wu","doi":"10.1177/15533506251367251","DOIUrl":null,"url":null,"abstract":"<p><p>AimThis study aims to systematically analyze the global research landscape of polymeric materials in surgical applications, identifying core themes, technological trends, and clinical translation potential over the past decade.MethodsA bibliometric analysis was conducted using the Web of Science Core Collection (2016-2025). A targeted search strategy combining polymer-related, surgery-related, and functional biomedical keywords was applied. Data were analyzed using the Bibliometrix R package and VOSviewer to explore publication trends, international collaborations, keyword co-occurrence, and citation networks. Key studies were manually reviewed to interpret their technological contributions.ResultsA total of 4668 original articles were retrieved, showing a 15.8% annual growth. China led global output (49.9%), followed by the USA. Keyword clustering revealed four major themes: nanoparticle-based drug delivery, biological responses and angiogenesis, clinical surgical applications (eg, hemostasis, adhesion), and multifunctional hydrogels. Research hotspots included antibacterial, adhesive, and hemostatic materials. Highly cited studies focused on injectable, self-healing, and bioactive hydrogels for complex wound repair and organ-specific applications.ConclusionThe field of surgical polymeric materials is rapidly advancing toward multifunctional, minimally invasive, and responsive systems. This bibliometric study provides a data-driven knowledge map to guide future research and promote clinical translation, helping bridge the gap between material innovation and surgical application. Future research should also focus on optimizing the scalability and cost-effectiveness of these technologies while addressing regulatory and safety challenges. Large-scale clinical trials and interdisciplinary education help bridge the gap between materials science and clinical implementation.</p>","PeriodicalId":22095,"journal":{"name":"Surgical Innovation","volume":" ","pages":"15533506251367251"},"PeriodicalIF":1.6000,"publicationDate":"2025-08-07","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Surgical Innovation","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.1177/15533506251367251","RegionNum":4,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"SURGERY","Score":null,"Total":0}
引用次数: 0
Abstract
AimThis study aims to systematically analyze the global research landscape of polymeric materials in surgical applications, identifying core themes, technological trends, and clinical translation potential over the past decade.MethodsA bibliometric analysis was conducted using the Web of Science Core Collection (2016-2025). A targeted search strategy combining polymer-related, surgery-related, and functional biomedical keywords was applied. Data were analyzed using the Bibliometrix R package and VOSviewer to explore publication trends, international collaborations, keyword co-occurrence, and citation networks. Key studies were manually reviewed to interpret their technological contributions.ResultsA total of 4668 original articles were retrieved, showing a 15.8% annual growth. China led global output (49.9%), followed by the USA. Keyword clustering revealed four major themes: nanoparticle-based drug delivery, biological responses and angiogenesis, clinical surgical applications (eg, hemostasis, adhesion), and multifunctional hydrogels. Research hotspots included antibacterial, adhesive, and hemostatic materials. Highly cited studies focused on injectable, self-healing, and bioactive hydrogels for complex wound repair and organ-specific applications.ConclusionThe field of surgical polymeric materials is rapidly advancing toward multifunctional, minimally invasive, and responsive systems. This bibliometric study provides a data-driven knowledge map to guide future research and promote clinical translation, helping bridge the gap between material innovation and surgical application. Future research should also focus on optimizing the scalability and cost-effectiveness of these technologies while addressing regulatory and safety challenges. Large-scale clinical trials and interdisciplinary education help bridge the gap between materials science and clinical implementation.
目的本研究旨在系统分析全球高分子材料在外科应用方面的研究概况,确定过去十年的核心主题、技术趋势和临床转化潜力。方法采用Web of Science核心馆藏(2016-2025)进行文献计量分析。结合聚合物相关、外科相关和功能生物医学关键词的目标搜索策略被应用。使用Bibliometrix R软件包和VOSviewer对数据进行分析,以探索出版趋势、国际合作、关键词共现和引文网络。关键研究被人工审查,以解释它们在技术上的贡献。结果共检索原创文章4668篇,年增长率为15.8%。中国领先全球产出(49.9%),其次是美国。关键词聚类揭示了四个主要主题:基于纳米颗粒的药物递送、生物反应和血管生成、临床外科应用(如止血、粘连)和多功能水凝胶。研究热点包括抗菌、黏合剂、止血材料等。高引用的研究主要集中在可注射、自愈和生物活性水凝胶,用于复杂伤口修复和器官特异性应用。结论外科高分子材料领域正朝着多功能、微创、反应灵敏的方向快速发展。这项文献计量学研究提供了一个数据驱动的知识图谱,以指导未来的研究和促进临床转化,帮助弥合材料创新和手术应用之间的差距。未来的研究还应侧重于优化这些技术的可扩展性和成本效益,同时解决监管和安全方面的挑战。大规模临床试验和跨学科教育有助于弥合材料科学与临床应用之间的差距。
期刊介绍:
Surgical Innovation (SRI) is a peer-reviewed bi-monthly journal focusing on minimally invasive surgical techniques, new instruments such as laparoscopes and endoscopes, and new technologies. SRI prepares surgeons to think and work in "the operating room of the future" through learning new techniques, understanding and adapting to new technologies, maintaining surgical competencies, and applying surgical outcomes data to their practices. This journal is a member of the Committee on Publication Ethics (COPE).
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