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1、介入放射学定义,是以影像诊断为基础,在医学影像诊断设备的引导下,利用穿刺针、导管及其他介入器材,对疾病进行治疗或采集组织学、细菌学及生理、生化资料进行诊断的学科 在影像设备导引下,利用微创的手段对疾病进行诊断和治疗的学科。是继内科学、外科学之后的第三医学,The history of interventional radiology,The history of interventional radiology is a fascinating迷人的 look at innovative 创新的 pioneers who changed the delivery of medicine and
2、 greatly improved the quality of patients lives.The improved ability of radiologists to see inside the body gave rise to 引起,使发生,导致interventional radiology(IR)-minimally invasive targeted treatments performed under guided imaging-in the mid-1970s.Interventional radiology procedures are a major advanc
3、e in medicine that do not require large incision 切口 and offer less risk,less pain and shorter recovery times compared to surgery.,The history of interventional radiology,Interventional radiologists invented angioplasty and the first catheter-delivered stent,state of the art treatments that are commo
4、n place in medicine today.Interventional radiology is a medical specialty recognized by the American Board of Medical Specialties and the American Medical Association.,介入放射学发展史,20世纪上半叶科学家的探索创新为今后的介入放射学发展奠定了良好坚实的基础1928年Santos等完成第一例经皮直接穿刺主动脉造影1929 Werner Forsmann:自体右心导管插管1931年Dos Stantos首先用针穿刺腹主动脉完成了最
5、早的动脉造影1940年古巴放射学家Farinas用股动脉切开的方法将导管送入主动脉,但是此方法由于操作繁杂并未被推广,Werner Forssman catheterized his own heart in 1929 to prove catheterization could be done 自体右心导管插管,Dr.Werner Forssman,He placed a ureteral catheter into a vein in his arm,advanced it to the right atrium of his heart,and walked upstairs to th
6、e x-ray department where he took the confirmatory x-ray film.In 1956,Dr.Werner Forssman was awarded The Nobel Prize,Dr.Werner Forssman,介入放射学发展史,20世纪40年代根据Cournand及Richards的经验开展了右心房、室及肺动脉的导管技术,The Nobel Prize in Physiology or Medicine 1956,Andr Frdric Cournand Columbia University Division,Cardio-Pulm
7、onary Laboratory,Bellevue Hospital New York,NY,USA.1/3 of the prize Werner Forssmann Mainz University Mainz,Federal Republic of Germany;Bad Kreuznach,Federal Republic of Germany.1/3 of the prize Dickinson W.Richards Columbia University New York,NY,USA.1/3 of the prize for their discoveries concernin
8、g heart catheterization and pathological changes in the circulatory system,20世纪40年代后期,瑞典学者Jonsson首先用经皮穿刺颈总动脉后,将细针芯抽出,通过外套管送入细银线,通过细银线作引导将外套针向下送至主动脉弓,行血管造影,Seldinger Technique,Seldinger技术的出现,血管造影术这一介入放射学的基本操作才由缓慢的步伐转向迅速的发展1953年瑞典Sven-Ivar Seldinger医师首创了用套管针、导丝和导管经皮股动脉插管作血管造影的方法,大大简化并提高了介入放射学操作的安全性,为当
9、代介入放射学奠定了基础应用初期,因为一些临床医师对其可行性持怀疑态度两发展缓慢20世纪50年代中期至60年代,Seldinger技术开始被应用于许多器官,如:经皮、经肝胆管造影、经皮肾盂、输尿管造影等北美放射学会因此而授予Seldinger荣誉会员称号,Sven Ivar Seldinger Catheter Replacement of the Needle in Percutanous Angiography,Sven Ivar Seldinger(1921-1999),radiologist,was born in Mora,Sweden.Graduating in medicine f
10、rom the Karolinska Institute in 1948,he began his training in radiology in 1950.In 1953,Dr.Seldinger published the description of a percutaneous entry technique in the journal,Acta Radiologica.,Sven Ivar Seldinger,The equipment required to perform the basic technique includes only(1)a thin wall intr
11、oducer needle,(2)a wire guide and(3)a plastic preformed catheter.Through a simple puncture,access is gained to any part of the body via the cardiovascular system,using a series of x-ray films as a guide,Sven Ivar Seldinger,Dr.Seldinger pioneered in applying his technique to the localization of tumor
12、s by arteriography,selective renal angiography,percutaneous transhepatic cholangiography,and portal venography.The simplicity of the Seldinger technique which continues to revolutionize cardiology and radiology has provided the catalyst 催化剂 for innovative application in the areas of interventional r
13、adiology,urology,anesthesiology and critical care medicine.,介入放射学发展史,1956年Oedman、Morino与Tillander等分别提出用导管作选择性插管术,使插管造影术逐渐成熟20世纪70年代至80年代期间:介入放射学使用的器材得到了迅速的发展和极大的改善、从而大大促进了经皮穿刺技术的应用和发展高分辨率影像增强器和DSA技术的普及,全身各部位的血管造影以及血管腔内介入疗法,因其侵袭程度小,治疗效果显著,而在世界各国广泛迅速地开展起来,Charles Theodore Dotter:The Father of Interven
14、tional Radiology,1964年美国放射学家Dotter开发了使用同轴导管系统的血管成形术,是介入放射学的新的亚专业-成形术实践和理论的奠基石在此基础上,才有球囊导管扩张术和金属支架置入术的出现,1964.1.16 1st PTA on a women of 83,Charles Theodore Dotter(1920-1985),was born in Boston,Massachusetts.He studied medicine and radiology at Cornell University,where he served in a staff position f
15、rom 1950 to 1952.He then served as Professor and Chairman of Radiology at the University of Oregon Medical School for 33 years until his death.Dr.Dotter altered the course of cardiovascular radiology and is considered the father of interventional radiology.He began modifying the Seldinger technique
16、for therapeutic purposes.,This first therapeutic use of the Seldinger technique quietly started a medical revolution:simultaneous diagnostic and therapeutic procedures reduced the number of surgical beds needed,patient risk and the length of patient stay.Costly and traumatic surgical procedures were
17、 eliminated in many cases.These benefits proliferated 增生扩散as the technique extended into other areas of medicine.,Dr.Dotter first described transluminal angioplasty in 1964.While skepticism 怀疑论 reigned 统治 in the United States,European radiologists institutionalized使制度化,习俗化 the term,“Dottering”of pat
18、ients.Dotters pioneering work and vision 想象力are reflected in four gold medals in radiology and,in 1978,a nomination任命 for the Nobel Prize in Medicine.,介入放射学发展史,1967年Margulis在美国放射学杂志AJR上最早提出“Interventional diagnostic radiology-a new subspeciality”Alexander R.Margulis.“Interventional diagnostic radiol
19、ogy-a new subspeciality”,Am.J.Roentgenol.Mar 1967;99:763-765.,Curriculum vitaeAlexander R.Margulis,Professor of Radiology AffiliationWeill Medical College,Cornell University,New York Date of birth31 March 1921 CountryUSA PositionClinical Professor of Radiology EducationHarvard Medical School,MD 1950
20、:Internship:Henry Ford HospitalDetroit,MI;Residency Radiology:Univ.Of Michigan,Ann ArborSeven Honorary Doctorates:Med.College Wisconsin,Marseilles,Toulouse,Montpellier,Louvain,Ludwig-Max.Univ.Muenchen,Karolinska Post graduate positionsAssistant Prof.Univ.of Minnesota,Assoc.Prof then Professor Washin
21、gton U.,St.Louis MO,1959-1963Professor and Chairman Univ.of Calif.SanFrancisco 1963-1989,Associate Chancellor and Founding DirectorMagnetic Res.Science Center UCSF Publicationsover 230 articles on GI radiology,Books on MRI Alimentary Tract Radiology Areas of researchGI Radiology,CT virtual colonosco
22、py,介入放射学被学术界广泛认可,是在l976年Wallace在“Cancer”杂志上以“Interventional Radiology”为题系统地阐述了介入放射学的概念以后,并于1979年欧洲放射学会第一次介入放射学学术会议上作了专题介绍,此命名方逐步在国际学术界达成共识,介入放射学的发展史,介入放射学的发展过程中,许多技术都来自外科手术,被放射学家采用并逐步改良以适应介入放射学的使用,并将一些原仅用于诊段的手段发展为介入治疗方法包括:经皮管腔成形术、血管栓塞术、经动脉灌注术等、经皮活检、抽吸与引流,介入放射学发展史:血管成形术与支架术,介入放射学发展史:血管成形术与支架术,1964年1月
23、16日Charles Dotter首次应用经皮穿刺插管,用不同直径的聚四氟乙烯同轴导管扩张技术治疗外周动脉粥样硬化获得初步成功。1973年Andreas Gruntzig 年发明了球囊导管(balloon catheter)后,使经皮腔内血管成形术得以在临床上普遍应用1977年Eurich首先把经皮血管成形术应用于冠状动脉,继而在欧美普遍开展,Andreas Gruentzig 1939-1985.1974.2.12 PTA with Gruentzig single lumen balloon catheter.1977.4 PTCA with balloon,Andreas Gruentz
24、ig,After employing Dotters techniques of transluminal angioplasty,which he had learned from Eberhart Zeitler in Nuremberg,Andreas Gruentzig,a young German physician working at University Hospital in Zurich,Switzerland,began toying with the idea of 不认真的考虑adding a balloon to the Dotter catheters,Andre
25、as Gruentzig,He started fashioning精加工 prototypes 原型in his own kitchen,searching for a viable可行的 material and design.In 1975 he developed a double-lumen catheter fitted with a polyvinylchloride氯化聚乙烯 balloon that would set in motion 发动,引起 a revolution in medicine.He presented the results of animal stu
26、dies with the balloon at the American Heart Association meeting in 1976 and was met with skepticism,although a few individuals saw the potential of his work.,Andreas Gruentzig,Dr.Richard Myler of Saint Marys Hospital in San Francisco suggested they collaborate and the two performed the first human c
27、oronary angioplasty intraoperatively during bypass surgery in San Francisco.In September 1977,in Zurich Switzerland,Gruentzig performed the first coronary angioplasty on an awake human.Now,a year later,when he presented the results of his first four angioplasty cases to the 1977 AHA meeting,the audi
28、ence burst into applause,acknowledging his breakthrough with a standing 直立的ovation热烈欢迎.,Andreas Gruentzig,Gruentzig began a careful,rigorous process 严格的程序of furthering and disseminating散布 the technique through live demonstration 实况演示 courses and establishment of a PTCA registry at the National Heart
29、,Lung and Blood Institute to gather and share experience.Throughout the 1980s,improvements in angioplasty technology continued exponentially 指数的,Gruentzigs breakthrough was a synthesis综合 of all that had come before and because of the brilliant way in which he fostered培养 its acceptance容忍,the field of
30、 interventional cardiology has forever altered the role of the cardiologist in treating coronary artery disease.,Andreas Gruentzig,介入放射学发展史:血管成形术与支架术,Dotter在1969年首先完成了血管内支架置入术的动物实验,即将不锈钢制作的金属钢圈置入犬的腘动脉内进行研究。1983年他又首创了镍钛记忆合金螺旋管状支架。1985年Gianturco和Palmaz分别创造了不锈钢Z型自涨式和球囊扩张式支架。1988年Rosch等对Z型支架进行了改良,此后又有一些
31、类型支架相继问世,并进一步广泛应用于临床。金属支架的出现克服了球囊扩张成型术后早期出现再狭窄的缺点,在临床得到了迅速的推广应用,并且得到不断地完善,Kurt Amplatz 1983 Nitinol wire coil stent 1984 Amplatz Vena Cava Filter,Kurt Amplatz was born in Weistrach,Lower Austria,on February 25,1924,and graduated from the University of Innsbruck with a medical doctorate degree in 195
32、1.He subsequently emigrated to the United States to pursue training in diagnostic radiology,which he successfully completed at Wayne State University in 1957.,Kurt Amplatz,Kurt Amplatz,On completion of his training,Dr.Amplatz took a position at the University of Minnesota under Dr.Leo Rigler and spe
33、nt his entire academic career at this institution,where he achieved the rank of full professor of radiology and was director of the division of cardiovascular and interventional radiology.,Kurt Amplatz,In the interventional procedures field,his inventions include many tools that are currently in use
34、,including the Amplatz access needle;catheters for selective coronary arteriography;the Amplatz guidewires;the Amplatz thrombectomy device;the nephrostomy肾造瘘术 dilatation set for the creation of percutaneous access to the kidney,which revolutionized the management of renal stones;an atrial septal def
35、ect closure device;and many other devices that have been mass-produced 成批生产 and used all over the world for the performance of diagnostic angiography and interventional radiologically guided procedures.,Kurt Amplatz,His academic productivity includes 629 scientific publications in the English litera
36、ture,seven textbooks,68 chapters in books by other authors,and more than 1000 scientific presentations at national and international scientific meetings.,介入放射学的发展:导管灌注栓塞术,1930年Brooks首次应用肌肉片栓塞创伤性颈动脉-海绵窦获得成功,从而开创了栓塞治疗的历史1963年Nusbaurn和Baurn应用血管造影术可发现流速低至0.5ml/min的活动性出血,继而采用经导管动脉内连续注入加压素控制出血随后,Roesh、Dot
37、ter、Brown报道经导管注入自体血凝块栓塞胃网膜右动脉治疗急性胃出血20世纪70年代初期,随着各种栓塞剂(如明胶海绵、聚乙烯醇、组织粘合剂、可脱球囊等)的发展及导管技术的改进,推动了栓塞治疗在临床上的应用,介入放射学的发展:导管灌注栓塞术,70年代中期,Gianturco和Wallace研制用于栓塞的钢丝圈,目前仍被广泛应用1981年Ellman等报道用无水酒精消除组织或器官功能,并首次用于栓塞肾获得成功近年来随着微导管、微钢圈的应用,进一步使外周血管和神经系统的血管病变的介入放射学治疗更为有效。日本学者打田日出夫、山田龙作等将栓塞术引入肿瘤治疗范围,率先开展了肝细胞癌的经动脉经导管化疗栓
38、塞术,目前已被各国学者广泛接受和推广,介入放射学发展史给我们带来的启发?勇于探索勇于创新为科学献身的精神,介入放射学的发展:-设备的改良,1932年Moniz和Caldas第一次使用人工快速换片机,能连续摄动脉、毛细血管及静脉相片1943年J Sanchez开始使用自动换片机20世纪80年代后:影像增强器、自动注射器、电视影像增强透视、电影摄影和电视录像Jonsson等利用杠杆原理发明了不锈钢高压注射器,瑞典Ake Gilund发明了第一个高压注射器与双向卷片换片器,介入放射学的发展:-监视手段的发展,超声应用到临床之前,一般依靠普通X射线通过骨性解剖标志进行穿刺,仍然存在着危险性大、准确性小
39、的问题超声实时监视超声穿刺探头和CT引导穿刺出现:使血管和非血管系统的穿刺治疗降低了损伤血管等并发症的出现,一次穿刺的成功率明显提高,介入放射学的发展:-监视手段的发展,DSA的出现:能够使用浓度较低的造影剂,得到清晰的减影后的血管造影图像开放式MR出现:MR引导下的介入操作,使介入诊断与治疗更如精确与丰富,并且减少了介入放射学医生的放射性损伤造影剂:也由临床反应多和易发生过敏的离子型造影剂,改良为非离子型造影。,1984年开展支气管动脉抗癌药灌注治疗肺癌1985年开展食道球囊扩张1986年开展肾动脉扩张从20世纪80年代早期起,国内刘子江教授连续举办介入放射学学习班,培养和训练了100余名介
40、入放射医生,这批学员现在已成为全国各大医院最早一批开展介入工作的骨干。,我国介入放射学发展简史,我国介入放射学发展简史,1993TIPPS(transjugular intrahepatic portal-vein stenting shunt)经颈静脉门腔静脉分流术,治疗肝硬化、门静脉高压、消化道出血,一度风靡全国,但再狭窄出现较早等问题未能得到解决,限制了以后的应用。早期介入放射学开展形式多种多样,有的与内科外科联合治疗患者,有的建立了介入病房。为我国介入放射学的发展奠定了良好的基础,我 国 译 名,我国介入放射学的开始,首届介入放射学学习班 刘子江教授于1981年起由卫生部批准举办“介入
41、放射学学习班”,向全国各地招生,推广了这一技术,从此介入放射学这一技术得以普及,1990成立中华放射学会介入放射学分会,改为临床科室的通知,卫生部卫医司发(90)第27号文件 1990年4月25日 关于将具备一定条件的放射科 改为临床科室的通知 进一步促进了我国介入放射学的发展,内科 外科 介入(第三医学)Interventional干涉、手术、介入、插足、第三者、乐于助人,介入放射学所需器材,监视手段及监视手段的选择至关重要。每一种监视手段有其各自的特点,合理选择监视设备才能保证介入放射学操作的顺利进行 影像监视设备 介入放射学器材,影像监视设备,DSA超声CTMRI直接X线透视间接X线透视
42、,DSA,是在间接X线透视基础上发展起来的,由于其计算机技术消除了骨骼、软组织对于注入血管系统造影剂影像的影响,提高了血管显示的清晰度,并减少了造影剂的用量,使器官、组织及病变的血流动力学显示的更加清楚目前是血管系统介入放射学首选的监视方法 发展快功能多:三维、C臂CT,超声波检查,优点实时、动态、经济、使用方便 作为穿刺的定位手段,有其独特的优越性 肝胆系统经皮穿刺等操作,超声更应作为首选不足 超声检查易受骨质、气体等因素影响,C T,能够使病灶的显示的更如清楚,尤其是近年来出现的CT透视更加为介入放射学的开展提供了便利条件,在非超声监视适应征的穿刺技术中,得到广泛的应用如颅内出血穿刺抽吸减
43、压治疗、肺内病变的活检等CT机价格远远超过超声,治疗费用较高,且具有放射损伤,不应作为首选的监视方法,MRI,MRI:没有射线损伤,规察范围大,开放型MR和透视技术,方便了介入放射学的操作,并且可以达到实时监视的程度,越来越被临床所认识,应用范围也越来越广设备昂贵、介入放射学器材(兼容)现在由于设备的普及程度、性能和专用无磁铁介入放射学器材(兼容)开发程度所限,尚未在临床得到广泛使用,但具有广阔的应用前景,0.23T开放式常导磁共振扫描仪,开放式(C型臂)磁体快速的MR扫描序列磁共振兼容性大屏幕监视器配有键盘、鼠标的床旁操纵台起动MR扫描的脚闸可折曲的多功能线圈,可折曲线圈,开放式磁体,室内监
44、视器,床旁操作台,红外线立体相机,手术床,直接X线透视,传统的、基本的监视手段,应用历史最早过去用于血管系统介入放射学及胆管系统、泌尿道系统等和用碘造影剂显影的非血管介入放射学监视方法现在应用的各种导管等介入器械几乎都被设计成X线可视或标记可视缺点:成像层次重叠,密度差异小,实质脏器需依赖对比剂的使用、暗室操作、不便于介入操作、X射线对患者、对术者的放射损伤,间接X线透视,间接X线透视是将通过人体的X射线通过光电转换器并经摄像系统传递到显示器上成像的方法由于使用了影像增强器图像清晰明亮,便于观察,所以作为介入放射学的监视方法间接X线透视已基本取代直接X线透视并且X线曝线量明显减少,对患者和操作
45、者都带来很大的益效,介入放射学所需器材,介入放射学使用的器材,种类繁多穿刺针导管造影用、引流、扩张导丝各种型号导管鞘支架自膨式、球扩式其他,介入放射学所需器材,穿刺针、导管等经皮导入的介入器材:整体由外径较粗、内径较小,发展到外径越来越细,内越来越大,为介入操作提供了方便条件导管:外径越来越小、扩张后球囊的直径则越来越大,越来越耐压金属支架:推送器的直经越来越小,而支架的直径越来越大,并且更加能够适应生理弯曲,介入放射学所需器材,在直接应用到介入放射学的器材的基础上,将原来在其他领域得到广泛应用的激光、微波等热源通过穿刺途经,送入肿瘤内部治疗实质性肿瘤将旋切技术与导管技求相结合发明出来的旋切导
46、管应用到血栓的治疗等,还将不断有新的技术和新的器材出现并应用到介入放射学中,穿刺针,最基本的器材经过穿刺针建立通道,才能进行下一步操作,如:血管穿刺、胆管穿刺、组织活检等,都不能缺少穿刺针。穿刺针的主要目的:在于建立通道后,通过导丝导入各种导管进行下一步操作,或直接经建立的通道,采取病理组织、抽吸内容物、注入药物等穿刺针在完成通道建立的前提下,如何尽量减少正常组织的损伤,是穿刺针研究及发展的关键,穿刺针:针芯和外套管 根据用途的不同也可以是2层以上的外套管,或单纯用于血管穿刺的没有针芯、中空的穿刺针穿刺针的外径是用号表示,内径为了和通过的导丝相对应则用英寸表示,穿刺针,导 管 Catheter
47、,分为造影导管、引流导管、球囊扩张导管等,分别用于造影、引流、扩张狭窄管腔之用造影导管中又有出厂时就塑好型的,如:肝管、猪尾巴Pigtail、眼镜蛇 Cobra、椎动脉管等引流管由于使用部位和用途的不同,长短、粗细、形状均不同,球囊导管则仅仅是导管直径和球囊直径的差别根据导管直径:微导管或同轴导管,微导管中根据用途也可分为造影导管和球囊扩张导管,导管直径的单位用F(Franch,1Franch0.335mm)球囊长度和直径则用厘米(cm),而导管内径则用英寸表示,微导管 microcatheter,导管 Catheter,Guiding Catheter Shapes,Straight,MPC
48、,MPD,Cerebral Modified(Burke),Simmons 2,Headhunter 1,长度对照表,导丝 guidewire,是通过穿刺针的外套管利用导丝交换法送入导管,或经导管利用导丝导向性能,将导管选择性插入的重要器材根据使用物理特性不同可以分为:超滑导丝、超硬导丝、超长的交换导丝用途的不同可以有中空的溶栓导丝等导丝的直接用英寸表示,导管鞘,为了避免导管反复出入组织管壁对局部造成的损伤,尤其在血管操作时避免损伤血管壁,而使用的器材它由带反流阀的外鞘和能够通过导丝的中空内芯组成,用硅胶制成的返流阀在防止血液外逸同时,可以反复通过相应口径的导管,而血管壁不会受损伤。内芯较硬,
49、前端成锥状,以保证导管鞘可以顺利沿导丝送入导管鞘的外套管的直径用F表示,而内芯的内径为了能通过的导丝相对应,用英寸表示,但是外套管的内径则为了与通过的导管一致,用F表示,导管鞘 sheath,支架 stent,用于对狭窄管腔支撑以达到恢复管腔流通功能之用。广义上可以分为内涵管和金属支架,狭义的支架,仅指金属支架内涵管仅用于非血管系统,外径虽然有粗细之分,但是内腔直径远小于金属支架所能达到的内径,由于管腔内沉积物的附着,容易早期出现再狭窄是其缺点;但可通过介入放射学技术或内窥镜将其取出后,重新留置则又是内涵管的优点,下腔静脉支架,膨胀后的支架,支架,金属支架根据其扩张的特性可分为 自膨式和球囊扩
50、张式,其中又有性能略有差异的不同材料和方法制成的支架:如:Palmaz、stent、Z stent等金属支架可用于血管系统和非血管系统管腔狭窄或建立新的通道,其他,下腔静脉过滤器:用于防止下肢静脉血栓脱落造成肺梗塞的用于取异物或结石的网篮,用于肿瘤穿刺治疗用的激光、微波、冷冻等器材,用于治疗血栓的旋切导管等。,介入放射学技术的分类:按方法分类,穿刺引流术(puncture and drinage)1.血管穿刺:如动静脉或门静脉的穿刺 2.囊肿、脓肿、血肿、积液的穿刺治疗:如肝囊肿的穿刺治疗 3.实质脏器肿瘤的穿刺治疗(消融术):如肝细胞癌的穿刺治疗 4.采取组织学标本:如经皮经肝的穿刺活检 5
