参考文献/References:
[1] SWANSON T,OUSEY K,HAESLER E,et al.IWII wound infection in clinical practice consensus document:2022 update[J].J Wound Care,2022,31(Sup12):S10-S21.
[2] 中华医学会外科学分会外科感染与重症医学学组,中国医师协会外科医师分会肠瘘外科医师专业委员会.中国手术部位感染预防指南[J].中华胃肠外科杂志,2019,22(4):301-314.
[3] PETFIELD J L,LEWANDOWSKI L R,STEWART L,et al.IDCRP combat-related extremity wound infection research[J].Mil Med,2022,187(Suppl 2):25-33.
[4] MALONE M,BJARNSHOLT T,MCBAIN A J,et al.The prevalence of biofilms in chronic wounds:a systematic review and Meta-analysis of published data[J].J Wound Care,2017,26(1):20-25.
[5] SCHOLLEMANN F,KUNCZIK J,DOHMEIER H,et al.Infection probability index:implementation of an automated chronic wound infection marker[J/OL].[2023-03-20].https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8745914/.DOI:10.3390/jcm11010169.
[6] 于起峰,卢荣胜,刘晓利,等.“机器视觉技术及应用”专题前言[J].激光与光电子学进展,2022,59(14):3-4.
[7] HSU J T,CHEN Y W,HO T W,et al.Chronic wound assessment and infection detection method[J/OL].[2023-03-20].https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8745914/.DOI:10.1186/s12911-019-0813-0.
[8] 王延峰,杨巧红,刘安康.人工智能在慢性伤口评估和治疗中的应用[J].护士进修杂志,2022,37(15):1393-1396.
[9] HURLEY C M,MCCLUSKY P,SUGRUE R M,et al.Efficacy of a bacterial fluorescence imaging device in an outpatient wound care clinic:a pilot study[J].J Wound Care,2019,28(7):438-443.
[10]PENA G,KUANG B,SZPAK Z,et al.Evaluation of a novel three-dimensional wound measurement device for assessment of diabetic foot ulcers[J].Adv Wound Care,2020,9(11):623-631.
[11]KUANG B,PENA G,SZPAK Z,et al.Assessment of a smartphone-based application for diabetic foot ulcer measurement[J].Wound Repair Regen,2021,29(3):460-465.
[12]赵楠,周秋红,许景灿,等.糖尿病足溃疡物理维度测量工具和技术的范围综述[J].解放军护理杂志,2021,38(11):69-72.
[13]LI S,RENICK P,SENKOWSKY J,et al.Diagnostics for wound infections[J].Adv Wound Care,2020,10(6):317-327.
[14]ARMSTRONG D G,EDMONDS M E,SERENA T E.Point-of-care fluorescence imaging reveals extent of bacterial load in diabetic foot ulcers[J].Int Wound J,2023,20(2):554-566.
[15]陈佳丽,宁宁,李佩芳.智能化伤口评估和伤口数据管理现状及研究进展[J].中华现代护理杂志,2019(16):1981-1984.
[16]BARAKAT-JOHNSON M,JONES A,BURGER M,et al.Reshaping wound care:evaluation of an artificial intelligence app to improve wound assessment and management amid the COVID-19 pandemic[J].Int Wound J,2022,19(6):1561-1577.
[17]KAI K,MANUEL W,HELMUT K.Digital transformation in health care:augmented reality for hands-free service innovation[J].Inf Syst Front,2020(22):1419-1431.
[18]刘睿宁,陈太菊,刘宏杰,等.可穿戴传感技术在检验医学中的应用与挑战[J].重庆医科大学学报,2022,47(8):877-882.
[19]XU J,DANEHY R,CAI H,et al.Microneedle patch-mediated treatment of bacterial biofilms[J].ACS Appl Mater Interfaces,2019,11(16):14640-14646.
[20]ULLAH A,JANG M,KHAN H,et al.Microneedle array with a pH-responsive polymer coating and its application in smart drug delivery for wound healing[J/OL].[2023-03-20].https://www.sciencedirect.com/science/article/pii/S0925400521010091?via%3Dihub. DOI:10.1016/j.snb.2021.130441.
[21]PERMANA A D,MIR M,UTOMO E,et al.Bacterially sensitive nanoparticle-based dissolving microneedles of doxycycline for enhanced treatment of bacterial biofilm skin infection:a proof of concept study[J/OL].[2023-03-20].https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7168771/.DOI:10.1016/j.ijpx.2020.100047.
[22]DERAKHSHANDEH H,KASHAF S S,AGHABAGLOU F,et al.Smart bandages:the future of wound care[J].Trends Biotechnol,2018,36(12):1259-1274.
[23]PAN F,ZHANG S,ALTENRIED S,et al.Advanced antifouling and antibacterial hydrogels enabled by controlled thermo-responses of a biocompatible polymer composite[J].Biomater Sci,2022,10(21):6146-6159.
[24]ZHOU J,YAO D,QIAN Z,et al.Bacteria-responsive intelligent wound dressing:simultaneous in situ detection and inhibition of bacterial infection for accelerated wound healing[J/OL].[2023-03-20].https://www.sciencedirect.com/science/article/pii/S0142961218300279?via%3Dihub.DOI:10.1016/j.biomaterials.2018.01.024.
[25]THI N N D,MATTANA G,THU V T,et al.A simple flexible printed capacitive pressure sensor for chronic wound monitoring[J/OL].[2023-03-20].https://www.sciencedirect.com/science/article/pii/S0924424722001285?via%3Dihub.DIO:10.1016/j.sna.2022.113490.
[26]CAVALLO A,LOSI P,BUSCEMI M,et al.Biocompatible organic electrochemical transistor on polymeric scaffold for wound healing monitoring[J/OL].[2023-03-20].https://iopscience.iop.org/article/10.1088/2058-8585/ac84ec.DOI:10.1088/2058-8585/ac84ec.
[27]FILKO D,MARIJANOVI D,NYARKO E K.Automatic robot-driven 3D reconstruction system for chronic wounds[J/OL].[2023-03-20].https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8703929/.DOI:10.3390/s21248308.
[28]DA SILVA LIMA ROQUE G,ROQUE DE SOUZA R,ARAUJO DO NASCIMENTO J W,et al.Content validation and usability of a chatbot of guidelines for wound dressing[J/OL].[2023-03-20].https://www.sciencedirect.com/science/article/pii/S138650562100099X?via%3Dihub.DOI:10.1016/j.ijmedinf.2021.104473.
[29]CHOI H,KIM B,JEONG S H,et al.Microalgae-based biohybrid microrobot for accelerated diabetic wound healing[J/OL].[2023-03-20].https://onlinelibrary.wiley.com/doi/10.1002/smll.202204617.DOI:10.1002/smll.202204617.
[30]HOWELL R S,LIU H H,KHAN A A,et al.Development of a method for clinical evaluation of artificial intelligence-based digital wound assessment tools[J/OL].[2023-03-20].https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8134996/.DOI:10.1001/jamanetworkopen.2021.7234.
[31]冯建峰,王拥军,徐涛,等.全维度数据与智能诊疗的前沿与挑战——第232期“双清论坛”学术综述[J].中国科学基金,2021,35(1):73-80.
[32]杜妍莹,董鼎辉,马锋,等.人工智能在护理领域的应用进展[J].解放军护理杂志,2019,36(4):58-61.
[33]周新怡,余红雨,苏瑾,等.远程医疗在慢性伤口护理中的应用进展[J].护理研究,2022,36(7):1186-1189.
[34]吴琼,杨宝晨,郭娜,等.人工智能大数据时代医学数据保护的思考[J].人工智能,2022(1):54-61.
[35]PLOUG T,HOLM S.The right to a second opinion on artificial intelligence diagnosis-remedying the inadequacy of a risk-based regulation[J].Bioethics,2023,37(3):303-311.