Anna M. Sorensen MD , Annie M. Zlevor BA , Meridith A. Kisting MA , Allison B. Couillard MD , Timothy J. Ziemlewicz MD , Giuseppe V. Toia MD, MS , J. Louis Hinshaw MD , Michael Woods MD , Lindsay M. Stratchko DO , Perry J. Pickhardt MD , Marcia L. Foltz RN , Walter W. Peppler PhD , Fred T. Lee Jr. MD , Erica M. Knavel Koepsel MD
{"title":"经皮置针的CT导航:我是怎么做的","authors":"Anna M. Sorensen MD , Annie M. Zlevor BA , Meridith A. Kisting MA , Allison B. Couillard MD , Timothy J. Ziemlewicz MD , Giuseppe V. Toia MD, MS , J. Louis Hinshaw MD , Michael Woods MD , Lindsay M. Stratchko DO , Perry J. Pickhardt MD , Marcia L. Foltz RN , Walter W. Peppler PhD , Fred T. Lee Jr. MD , Erica M. Knavel Koepsel MD","doi":"10.1016/j.tvir.2023.100911","DOIUrl":null,"url":null,"abstract":"<div><p>CT navigation (CTN) has recently been developed to combine many of the advantages of conventional CT and CT-fluoroscopic guidance for needle placement. CTN systems display real-time needle position superimposed on a CT dataset. This is accomplished by placing electromagnetic (EM) or optical transmitters/sensors on the patient and needle, combined with fiducials placed within the scan field to superimpose a known needle location onto a CT dataset. Advantages of CTN include real-time needle tracking using a contemporaneous CT dataset with the patient in the treatment position, reduced radiation to the physician, facilitation of procedures outside the gantry plane, fewer helical scans during needle placement, and needle guidance based on diagnostic-quality CT datasets. Limitations include the display of a virtual (vs actual) needle position, which can be inaccurate if the needle bends, the fiducial moves, or patient movement occurs between scans, and limitations in anatomical regions with a high degree of motion such as the lung bases. This review summarizes recently introduced CTN technologies in comparison to historical methods of CT needle guidance. A “How I do it” section follows, which describes how CT navigation has been integrated into the study center for both routine and challenging procedures, and includes step-by-step explanations, technical tips, and pitfalls.</p></div>","PeriodicalId":51613,"journal":{"name":"Techniques in Vascular and Interventional Radiology","volume":"26 3","pages":"Article 100911"},"PeriodicalIF":1.4000,"publicationDate":"2023-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"CT Navigation for Percutaneous Needle Placement: How I Do It\",\"authors\":\"Anna M. Sorensen MD , Annie M. Zlevor BA , Meridith A. Kisting MA , Allison B. Couillard MD , Timothy J. Ziemlewicz MD , Giuseppe V. Toia MD, MS , J. Louis Hinshaw MD , Michael Woods MD , Lindsay M. Stratchko DO , Perry J. Pickhardt MD , Marcia L. Foltz RN , Walter W. Peppler PhD , Fred T. Lee Jr. MD , Erica M. Knavel Koepsel MD\",\"doi\":\"10.1016/j.tvir.2023.100911\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>CT navigation (CTN) has recently been developed to combine many of the advantages of conventional CT and CT-fluoroscopic guidance for needle placement. CTN systems display real-time needle position superimposed on a CT dataset. This is accomplished by placing electromagnetic (EM) or optical transmitters/sensors on the patient and needle, combined with fiducials placed within the scan field to superimpose a known needle location onto a CT dataset. Advantages of CTN include real-time needle tracking using a contemporaneous CT dataset with the patient in the treatment position, reduced radiation to the physician, facilitation of procedures outside the gantry plane, fewer helical scans during needle placement, and needle guidance based on diagnostic-quality CT datasets. Limitations include the display of a virtual (vs actual) needle position, which can be inaccurate if the needle bends, the fiducial moves, or patient movement occurs between scans, and limitations in anatomical regions with a high degree of motion such as the lung bases. This review summarizes recently introduced CTN technologies in comparison to historical methods of CT needle guidance. 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CT Navigation for Percutaneous Needle Placement: How I Do It
CT navigation (CTN) has recently been developed to combine many of the advantages of conventional CT and CT-fluoroscopic guidance for needle placement. CTN systems display real-time needle position superimposed on a CT dataset. This is accomplished by placing electromagnetic (EM) or optical transmitters/sensors on the patient and needle, combined with fiducials placed within the scan field to superimpose a known needle location onto a CT dataset. Advantages of CTN include real-time needle tracking using a contemporaneous CT dataset with the patient in the treatment position, reduced radiation to the physician, facilitation of procedures outside the gantry plane, fewer helical scans during needle placement, and needle guidance based on diagnostic-quality CT datasets. Limitations include the display of a virtual (vs actual) needle position, which can be inaccurate if the needle bends, the fiducial moves, or patient movement occurs between scans, and limitations in anatomical regions with a high degree of motion such as the lung bases. This review summarizes recently introduced CTN technologies in comparison to historical methods of CT needle guidance. A “How I do it” section follows, which describes how CT navigation has been integrated into the study center for both routine and challenging procedures, and includes step-by-step explanations, technical tips, and pitfalls.
期刊介绍:
Interventional radiology is an area of clinical diagnosis and management that is highly technique-oriented. Therefore, the format of this quarterly journal, which combines the visual impact of an atlas with the currency of a journal, lends itself perfectly to presenting the topics. Each issue is guest edited by a leader in the field and is focused on a single clinical technique or problem. The presentation is enhanced by superb illustrations and descriptive narrative outlining the steps of a particular procedure. Interventional radiologists, neuroradiologists, vascular surgeons and neurosurgeons will find this a useful addition to the clinical literature.