Visual analysis of the current research status in the field of nanotechnology in sepsis from 1996 to 2023 based on CiteSpace

Jiaji FU; Xiaowei Fang; Jiqian XU; You Shang

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Visual analysis of the current research status in the field of nanotechnology in sepsis from 1996 to 2023 based on CiteSpace

VernacularTitle:基于CiteSpace对1996至2023年间纳米技术在脓毒症中应用研究现状的可视化分析
Author: Jiaji FU ^{1
,

2
,

3} ; Xiaowei FANG ; Jiqian XU ; You SHANG
Author Information

1. 中国科学技术大学附属第一医院(安徽省立医院)重症医学科,安徽合肥 230001
2. 华中科技大学同济医学院附属协和医院重症医学科,湖北武汉 430022
3. 华中科技大学同济医学院附属武汉金银潭医院转化医学中心,湖北武汉 430023
Keywords: Nanotechnology; Sepsis; Bibliometric analysis; Visualization analysis
From: Chinese Journal of Integrated Traditional and Western Medicine in Intensive and Critical Care 2023;30(6):641-646
CountryChina
Language:Chinese
Abstract: Objective To investigate the hotspots and trends in research related to nanotechnology applications in sepsis from 1996 to 2023.Methods Sepsis-related nanotechnology literature was sourced from the Web of Science core databases,with key metrics like publication count,citations,and various collaborations(author,institutional,national)analyzed.The data,including co-occurring keywords,were visualized using the CiteSpace tool.Results From 1996 to 2023,a total of 1 271 publications on nanotechnology in sepsis were retrieved,demonstrating a significant increase in both studies and citations,with the annual publication rate growing from 1 in 1996 to 205 in 2022,averaging an 23.7％ growth rate.From 1996 to 2006,the number of articles issued showed a slow upward trend,and the overall trend tends to be stable.From 2006 to 2023,a rapid growth in publications peaked in 2022 with 205 articles.The Chinese Academy of Sciences(CAS)leads the list of institutions with the highest number of publications,with a total of 32 papers.While the most prolific author was Amin with 14 publications.China was the most productive country with 430 publications(33.8％)and 7 539 citations,followed by the United States with 276 publications and 9 859 citations.India,South Korea and Germany followed.The research hotspots,indicated by keyword clusters like "composites""activation""capture""infection""drug delivery""sensor" and "biomarkers".The research hotspots are mainly in the diagnostic and therapeutic areas.Conclusions Nanotechnology holds great promise in facilitating sepsis treatment,and research hotspots nanomaterials are shifting from traditional antimicrobial and immunomodulatory properties of nanomaterials to the development of multifunctional nanocomplexes targeting diverse pathological mechanisms in sepsis.This transition underlines the expanding role of nanomaterials in this field.Despite their growing influence,current research is predominantly led by independent scholars,lacking extensive national and inter-institutional collaborations,which limits its impact.It is recommended to strengthen the cooperation and communication between domestic and foreign researchers to promote the scientific and standardized development of nanotechnology application in sepsis.