image guided therapy: interventional procedures...
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Image Guided Therapy:Image Guided Therapy:Interventional Procedures and Clinical IssuesInterventional Procedures and Clinical Issues
Filip Banovac, MDFilip Banovac, MD
Georgetown University HospitalGeorgetown University HospitalImaging Science and Information Systems Center (ISIS)Imaging Science and Information Systems Center (ISIS)
Department of RadiologyDepartment of RadiologyWashington, DC, USAWashington, DC, USA
GoalsGoals
• Describe Interventional Radiology (IR) – a medical subspecialty that utilizes imaging to perform minimally invasive procedures in treatment of disease
• Describe common interventional Radiology procedures and describe some of the technologies that are involved
• Examine the frontiers of technical innovation to improve and advance IR
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What is Interventional Radiology (IR) ?What is Interventional Radiology (IR) ?
•Targeted treatments with image guidance
•Less pain, less risk, faster recoveries than open surgery
•Interventional Radiologists are board certified physicians
What is Interventional Radiology (IR) ?What is Interventional Radiology (IR) ?
Diagnostic Radiology (5 years of Diagnostic Radiology (5 years of postdocpostdoc training)training)Vascular and Interventional Radiology (1Vascular and Interventional Radiology (1--2 additional 2 additional years)years)
NeurointerventionalNeurointerventional Radiology (2Radiology (2--3 additional years)3 additional years)Similar to Interventional Radiology but deals with interventionsSimilar to Interventional Radiology but deals with interventions in in the brain, spine and head and neckthe brain, spine and head and neck
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What is Interventional Radiology (IR) ?What is Interventional Radiology (IR) ?
Young SpecialtyCharles Dotter, MD - the “father of interventional radiology” was nominated for the Nobel Prize in medicine in 1978
Unrecognized specialtySociety of Interventional Radiology poll on name recognitionOne of technologically most advanced specialtiesMost recognized specialty – PEDIATRICS (92%)Most unrecognized specialty – interventional radiology (2%)
What are the advantages of What are the advantages of interventional radiology?interventional radiology?
Most procedures can be performed on an outpatient Most procedures can be performed on an outpatient basis or require only a short hospital staybasis or require only a short hospital stayGeneral anesthesia usually is not requiredGeneral anesthesia usually is not requiredRisk, pain and recovery time are often significantly Risk, pain and recovery time are often significantly reducedreducedThe procedures are usually less expensive than surgery The procedures are usually less expensive than surgery or other alternativesor other alternatives
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Vascular interventionsVascular interventionsNonNon--vascular interventionsvascular interventions
What procedures are done by IR?What procedures are done by IR?
Vascular interventionsVascular interventionsAngiographyAngiographyBalloon AngioplastyBalloon AngioplastyBlood vessel Blood vessel StentingStentingCatheter delivered chemotherapy for cancerCatheter delivered chemotherapy for cancerEndovascular embolizationEndovascular embolizationEndovascular Endovascular recanalizationrecanalization and and thrombolysisthrombolysisTIPSTIPSLong term venous access for dialysis and drug Long term venous access for dialysis and drug administrationadministration
What procedures are done by IR?What procedures are done by IR?
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NonNon--vascular interventionsvascular interventionsAbscess drainageAbscess drainageBile drainage for obstructed liver bile ductsBile drainage for obstructed liver bile ductsPercutaneousPercutaneous nephrostomiesnephrostomies and and stentingstentingRadiofrequency ablation (RFA) of tumorsRadiofrequency ablation (RFA) of tumorsGastrostomyGastrostomy for feedingfor feedingGastrojejunostomyGastrojejunostomy for feedingfor feedingImage guided needle biopsy Image guided needle biopsy
What procedures are done by IR?What procedures are done by IR?
Technologies Technologies
MultidetectorMultidetector FluoroFluoro--CTCTAdvantages:– Combines the advantages of
fluoroscopy with CT cross sectional imaging
– Considerable improvement from standard CT and even High Speed multi-detector CT
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CT CT Good contrastGood contrastNot real time (Not real time (FluoroFluoro--CT is real time, but limited CT is real time, but limited availability)availability)High radiation dose to the operatorHigh radiation dose to the operator
TechnologiesTechnologies
UltrasoundUltrasoundReal timeReal time
Excellent for soft tissue interventionsExcellent for soft tissue interventionsLimited windows, 2 dimensionalLimited windows, 2 dimensional
3D US exists but image hard to display useful data in 3D US exists but image hard to display useful data in interventionsinterventionsLimited by poor penetration of bone and air filled Limited by poor penetration of bone and air filled structuresstructures
Hard to see your instrumentsHard to see your instruments
TechnologiesTechnologies
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FluoroscopyFluoroscopyReal timeReal timeOverwhelming use and long clinical experienceOverwhelming use and long clinical experienceLimited contrast and poor organ/structure definitionLimited contrast and poor organ/structure definition
TechnologiesTechnologies
FluoroscopyFluoroscopyReal timeReal timeOverwhelming use and long clinical experienceOverwhelming use and long clinical experienceLimited contrast and poor organ/structure definitionLimited contrast and poor organ/structure definition
TechnologiesTechnologies
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AngiographyAngiography••RadiologicRadiologic exam of the arteries and veins to diagnose blockages and exam of the arteries and veins to diagnose blockages and other blood vessel problemsother blood vessel problems
•• uses a catheter to access the blood vessel and a contrast agentuses a catheter to access the blood vessel and a contrast agent to make to make the artery or vein visiblethe artery or vein visible
AngiographyAngiography•• Enabling Technology:Enabling Technology:
••Digital Subtraction Angiography (DSA)Digital Subtraction Angiography (DSA)
••Subtracts the bones and soft tissues out to only display blood vSubtracts the bones and soft tissues out to only display blood vessels essels once radiographic contrast is injectedonce radiographic contrast is injected
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AngiographyAngiography•• Limitation of present technology:Limitation of present technology:
••DSA images are temporary DSA images are temporary –– contrast washes out with bloodcontrast washes out with blood
•• intervention based on knowledge of anatomy and memory of what intervention based on knowledge of anatomy and memory of what was just seen.was just seen.
Balloon AngioplastyBalloon Angioplasty• Opens blocked or narrowed blood vessels by inserting a small balloon into the vessel and inflating it
• Used to unblock narrowed arteries in the legs, kidneys, liver or elsewhere in the body
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Balloon AngioplastyBalloon Angioplasty•• Enabling Technology:Enabling Technology:
••Balloons delivered over thin catheters to function at the locatiBalloons delivered over thin catheters to function at the location of on of disease without having to surgically disease without having to surgically ““openopen”” the patientthe patient
Balloon AngioplastyBalloon AngioplastyLimitation of present technology:Limitation of present technology:
•• Balloons displace the disease, they donBalloons displace the disease, they don’’t remove itt remove it
•• complicationscomplications
•• plaque embolizationplaque embolization
•• blood vessel dissectionblood vessel dissection
•• disease recurrence disease recurrence
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BiliaryBiliary Drainage and Drainage and StentingStenting• Uses a stent (tube) to open blocked ducts and allow
bile to drain from the liver
NephrostomyNephrostomy tube placementtube placement•Insertion of a tube into the kidney
•Used in patients whose kidney or ureters are obstructed from kidney stones or cancer
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NephrostomiesNephrostomies and and BiliaryBiliary duct Drainageduct DrainageLimitation of present technology:Limitation of present technology:
•• We donWe don’’t have good technology to insert our needles into these t have good technology to insert our needles into these targets if the targets are small.targets if the targets are small.
Liver Cancer14,000 cases of primary liver cancer are diagnosed each year (HCC is most common type)Due to the increase of hepatitis C, the incidence of HCC is on the rise
ChemoembolizationChemoembolization for liver cancerfor liver cancer
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Liver CancerLiver CancerSurgical removal of liver tumors offers the best Surgical removal of liver tumors offers the best chance for a curechance for a cureSurgical removal is not possible for more than Surgical removal is not possible for more than 75% with primary and 90% with secondary 75% with primary and 90% with secondary (metastases) liver cancer(metastases) liver cancer
ChemoembolizationChemoembolization for liver cancerfor liver cancer
Delivers a high dose of cancerDelivers a high dose of cancer--killing drugs directly to killing drugs directly to the tumor while depriving the tumor of its blood the tumor while depriving the tumor of its blood supply by blocking (supply by blocking (embolizingembolizing) the arteries feeding ) the arteries feeding the tumorthe tumor
ChemoembolizationChemoembolization for liver cancerfor liver cancer
Information provided by the Society of Interventional Radiology, www.SIRweb.org © 2004
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• Delivery of cancer-fighting agents directly to the site of a liver tumor
• Currently being used mostly to treat cancers of the liver and endocrine tumor metastases to the liver
ChemoembolizationChemoembolization for liver cancerfor liver cancer
EthiodolEthiodolPoppyseedPoppyseed OilOilAccumulates Accumulates preferentially in HCCpreferentially in HCC
ChemoembolizationChemoembolization for liver cancerfor liver cancer
Courtesy of Elliot Levy,MD, Georgetown University Hospitals
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Using imaging, a catheter is fed through the femoral Using imaging, a catheter is fed through the femoral artery to the blood vessels feeding the tumorartery to the blood vessels feeding the tumor
Information provided by the Society of Interventional Radiology, www.SIRweb.org © 2004
ChemoembolizationChemoembolization for liver cancerfor liver cancer
Small embolic particles Small embolic particles are injected to block the are injected to block the blood vesselblood vessel
Information provided by the Society of Interventional Radiology, www.SIRweb.org © 2004
ChemoembolizationChemoembolization for liver cancerfor liver cancer
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The drugs and lack of blood supply cause the tumor The drugs and lack of blood supply cause the tumor to shrinkto shrink
Information provided by the Society of Interventional Radiology, www.SIRweb.org © 2004
ChemoembolizationChemoembolization for liver cancerfor liver cancer
ChemoembolizationChemoembolization
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ChemoembolizationChemoembolization
53 year old male
May, 2002 September, 2003 March, 2004
ChemoembolizationChemoembolization for liver cancerfor liver cancer
Courtesy of Elliot Levy, Georgetown University Hospitals
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July, 2003
Courtesy of Elliot Levy, Georgetown University Hospitals
ChemoembolizationChemoembolization for liver cancerfor liver cancer58 year old male
August, 2003
Courtesy of Elliot Levy, Georgetown University Hospitals
ChemoembolizationChemoembolization for liver cancerfor liver cancer58 year old male
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Radiofrequency Ablation (RFA) of tumorsRadiofrequency Ablation (RFA) of tumors•Using radiofrequency (RF) energy to cook and kill cancerous tissue
•Alternative to surgical resection
•Only option in most patients with metastasis from colon cancer to liver
Information provided by the Society of Interventional Radiology, www.SIRweb.org © 2004
Clinical ApplicationClinical Application
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Radiofrequency ProbeRadiofrequency Probe
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Coaxial needle systemCoaxial needle system
Allows for biopsy before or during ablation, may also track easiAllows for biopsy before or during ablation, may also track easierer
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Radiofrequency AblationRadiofrequency Ablation
• At 46°C malignant cells will die after 8 minutes• At 51°C as little as 2 minutes are required• At temperatures above 60ºC intracellular proteins
denature• Thermal coagulation begins at 70°C• Tissue desiccation occurs at 100°C
• So if you cook it – you kill it !
RF 3000 generator
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Starburst electrode
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Another RF device
Radiofrequency Ablation (RFA)Radiofrequency Ablation (RFA)Using imaging, an interventional radiologists guides a small needle into the tumorFrom the tip of the needle, radiofrequency energy is transmitted into the targeted tissue, where it produces heat and kills the tumor
Information provided by the Society of Interventional Radiology, www.SIRweb.org © 2004
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NonsurgicalNonsurgical, localized treatment that kills the , localized treatment that kills the targeted tissue with heat, while sparing the targeted tissue with heat, while sparing the healthy tissuehealthy tissueUsually few side effectsUsually few side effects
Radiofrequency Ablation (RFA)Radiofrequency Ablation (RFA)
Information provided by the Society of Interventional Radiology, www.SIRweb.org © 2004
Information provided by the Society of Interventional Radiology, www.SIRweb.org © 2004
Radiofrequency Ablation (RFA)Radiofrequency Ablation (RFA)
NonsurgicalNonsurgical, localized treatment that kills the , localized treatment that kills the targeted tissue with heat, while sparing the targeted tissue with heat, while sparing the healthy tissuehealthy tissueUsually few side effectsUsually few side effects
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PRE
POSTCourtesy of Elliot Levy, Georgetown University Hospitals
Radiofrequency Ablation (RFA)Radiofrequency Ablation (RFA)
Radiofrequency Ablation (RFA)Radiofrequency Ablation (RFA)
PRE-RFACourtesy of Elliot Levy, Georgetown University Hospitals
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Angiogram performed and tumor was embolized first
Radiofrequency Ablation (RFA)Radiofrequency Ablation (RFA)
Courtesy of Elliot Levy MD, Georgetown University Hospitals
Radiofrequency Ablation (RFA)Radiofrequency Ablation (RFA)
Courtesy of Elliot Levy, Georgetown University Hospitals
Angiogram performed and tumor was embolized first
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RF Ablation
Radiofrequency Ablation (RFA)Radiofrequency Ablation (RFA)
Courtesy of Elliot Levy, Georgetown University Hospitals
Radiofrequency Ablation (RFA)Radiofrequency Ablation (RFA)
Courtesy of Elliot Levy MD, Georgetown University Hospitals
Post RF Ablation
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StentStent--graft Insertions for Aneurismsgraft Insertions for Aneurisms• For thoracic (TAA) and abdominal aortic aneurisms (AAA)
• Stent-graft reinforces a ruptured or ballooning section of an artery (an aneurysm) with a covered stent
• Alternative to open surgery which carries high morbidity and mortality
Information provided by the Society of Interventional Radiology, www.SIRweb.org © 2004
ThrombolysisThrombolysis and Venous Filtersand Venous Filters
• Dissolves blood clots by injecting clot dissolving drugs at the site of the clot (Urokinase, Alteplase, Tenectaplase)
• Reopens blood flow without surgery
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ThrombolysisThrombolysis and Venous Filtersand Venous Filters
• Dissolves blood clots by injecting clot dissolvong drugs at the site of the clot (Urokinase, Alteplase, Tenecteplase)
• Reopens blood flow without surgery
ThrombolysisThrombolysis and Venous Filtersand Venous Filters
• Mechanical filter prevents clots from flowing to the lung (pulmonary embolism)
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ThrombolysisThrombolysis and Venous Filtersand Venous Filters
• Mechanical filter prevents clots from flowing to the lung (pulmonary embolism)
TIPSTIPS (transjugular intrahepatic portosystemic shunt)
•A procedure to prevent fatal hemorrhage in patients with liver disease
•Usually awaiting transplant
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Arterial embolization for obstetric bleedingArterial embolization for obstetric bleeding• Embolization procedure of uterine arteries to stop life-threatening post
delivery bleeding
• Usually preventing hysterectomy
• Preserves fertility
Arterial embolization for obstetric bleedingArterial embolization for obstetric bleeding• Embolization procedure of uterine arteries to stop life-threatening post
delivery bleeding
• Usually preventing hysterectomy
• Preserves fertility
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Uterine Artery Embolization for Fibroid TumorsUterine Artery Embolization for Fibroid Tumors• An embolization procedure of uterine arteries to shrink painful, benign
tumors in the uterus.
• Alternative to surgical hysterectomy or myomectomy
Information provided by the Society of Interventional Radiology, www.SIRweb.org © 2004
Uterine Artery Embolization for Fibroid TumorsUterine Artery Embolization for Fibroid Tumors• An embolization procedure of uterine arteries to shrink painful, benign
tumors in the uterus.
• Alternative to surgical hysterectomy or myomectomy
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Uterine Artery Embolization for Fibroid TumorsUterine Artery Embolization for Fibroid Tumors• An embolization procedure of uterine arteries to shrink painful, benign
tumors in the uterus.
• Alternative to surgical hysterectomy or myomectomy
StrokeStroke
Carotid artery narrowing is a common cause of strokeThe vessel can close and brain is deprived of blood = strokeSmall plaque can break from the arterial wall and embolize to the brain = stroke
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Every 45 seconds someone in the U.S. has a strokeStroke is the 3rd leading cause of death in the U.S. behind high blood pressure and cancer
StrokeStroke
Preventing StrokePreventing Stroketreating treating ““hardening of the arterieshardening of the arteries”” in the carotid in the carotid artery in the neck with artery in the neck with stentingstentingFDA approved for highFDA approved for high--risk patientsrisk patients
StrokeStroke
Information provided by the Society of Interventional Radiology, www.SIRweb.org © 2004
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Information provided by the Society of Interventional Radiology, www.SIRweb.org © 2004
StrokeStroke
copyright 2004, Philippe Gailloud , Johns Hopkins University
Why Interventional Radiologists Why Interventional Radiologists need good technology?need good technology?
Our image guidance is only as good as the imaging equipmentOur limitations are largely due to our inability to see or precisely localize the focus of disease we want to treat
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Web sitewww.SIRweb.orgDoctor Finder
For More InformationFor More Information
AcknowledgementsAcknowledgementsCliniciansClinicians
Elliot Levy, MD, RadiologyElliot Levy, MD, RadiologyVance Watson, MD, RadiologyVance Watson, MD, Radiology
Scientists / ResearchersScientists / ResearchersKevin Cleary, Ph.D. / ISIS CenterKevin Cleary, Ph.D. / ISIS CenterDavid Lindisch, RT, Radiology / ISIS CenterDavid Lindisch, RT, Radiology / ISIS CenterDaigo Tanaka, MA, ISIS CenterDaigo Tanaka, MA, ISIS CenterJohn Tang, BS, ISIS CenterJohn Tang, BS, ISIS CenterSeong K. Mun, PhD, Radiology / ISIS CenterSeong K. Mun, PhD, Radiology / ISIS CenterSheng Xu Ph.D., Johns Hopkins ERC CISSTSheng Xu Ph.D., Johns Hopkins ERC CISST
CollaboratorsCollaboratorsDan Stoianovici, PhD, Johns Hopkins Urology / ERC CISSTDan Stoianovici, PhD, Johns Hopkins Urology / ERC CISSTRussell Taylor, PhD, Johns Hopkins ERC CISST Russell Taylor, PhD, Johns Hopkins ERC CISST Gabor Fichtinger, PhD, Johns Hopkins ERC CISSTGabor Fichtinger, PhD, Johns Hopkins ERC CISSTCharles Nguyen, PhD, Catholic UniversityCharles Nguyen, PhD, Catholic UniversityBrad Wood, MD, NIH RadiologyBrad Wood, MD, NIH Radiology
FundingFundingUS Army Medical Research and Materiel CommandUS Army Medical Research and Materiel CommandRSNA Holman Pathway Resident GrantRSNA Holman Pathway Resident Grant