CT to Ultrasound Registration: A Porcine Phantom Study. J. Xiang, S. Gill, C. Nguan, P. Abolmaesumi and R. N. Rohling University of British Columbia

Similar documents
Registration of 3D Ultrasound to Computed Tomography Images of the Kidney

In-vivo Targeting of Liver Lesions with a Navigation System based on Fiducial Needles

Integrated on-board CBCT-US imaging system for soft tissue IGRT and real-time intra-fraction monitoring

CASCINATION CAS-ONE SURGERY STEREOTACTIC NAVIGATION SYSTEM FOR ABDOMINAL SURGERY

Image-Guided Thoracic Surgery using a Mobile C-Arm for CBCT: Image Quality, Dose, and First Experience in Imaging the Fully Deflated Lung

Un Sistema di Navigazione basato su Mixed Reality per Trattamenti HIFU

Registration-Free Laparoscope Augmentation for Intra-Operative Liver Resection Planning

Visualizing the invisible

Dose comparison between Ziehm Vision RFD 3D, Medtronic O-arm O2 and Samsung NeuroLogica BodyTom

Breast Reconstruction Using Patients Own Tissue Based on CT Angiography and 3-D Surface Scanning

Clinical Applications. ImagingRite. Interventional Radiology

Ingenia MR-RT. MR Systems. The comprehensive MR-sim solution to fit your planning

LOGIQ S8 with XDclear Simply Amazing

Integrated planning, navigation and robotic targeting for tumor ablation

POSTERIOR HEPATIC DETECTION USING ULTRASOUND FOR DEFORMATION CORRECTION IN IMAGE GUIDED LIVER SURGERY. Janet Ondrake. Thesis

CT procedure with needle guidance for heptatocellular carcinoma

A Novel Segmentation and Navigation Tool for Endovascular Stenting of Aortic Aneurysms

Accuracy of Localization of Prostate Lesions Using Manual Palpation and Ultrasound Elastography

RADIATION ONCOLOGY RESIDENCY PROGRAM Competency Evaluation of Resident

Section: Magnetic Resonance Imaging

An ultrasonic volumetric scanner for image-guided surgery

Pulmonary Nodule Localization - Best Method. Jay M. Lee, M.D. Chief and Associate Professor Division of Thoracic Surgery, UCLA

Low Dose, Lightning Speed, Latest Applications

Recent clinical advances and applications for medical image segmentation

Virtual Reality-Enhanced Ultrasound Guidance for Atrial Ablation: In vitro Epicardial Study

Ultrasound-Based Real-Time Monitoring of Intrafraction Prostate Motion a transperineal approach

THE NEW 640 SLICE CT SCANNER

Accuracy Evaluation of a 3D Ultrasound-guided Biopsy System

80 Years of Innovation

Percutaneous renal puncture: requirements and preliminary results

Hybrid Rooms for Interventional Radiology

Trends in Computer-Assisted Surgery: Past, Present and Future

Current Market Dynamics and Future Vision of the Care Cycle

Applicability of navigation in trauma

Predictive and patient-specific numerical simulations of endovascular surgery for aortic abdominal aneurysms. Michel Rochette

2017 ACR Computed Tomography Quality Control Manual FAQS

Clinical Applications. ImagingRite. Neuro Intervention. 1 ImagingRite

The Unique, New MRI Philips Ingenia 3 Tesla is now in Ayios Therissos! The first-ever digital broadband MR system has been installed in Ayios

Fast enough to stop the Capable of delineating Unprecedented imaging power for the. Virtual endoscopy. The gatewa

Leading Canadian Pediatric Hospital Continues to Drive Dose Down for Sick Children

Model-Assisted Image-Guided Liver Surgery Using Sparse Intraoperative Data

CT Guided Electromagnetic Navigational Bronchoscopy

Towards Scarless Surgery: An Endoscopic-Ultrasound Navigation System for Transgastric Access Procedures

Adaptive Iterative Dose Reduction in 3D

Trusted Performance. Smart Investment. 80 detector row Ultra Helical CT

Abdominal CT with Single-Energy Metal Artifact Reduction (SEMAR): Initial Experiences

This is probably the kind of radiotherapy that you are used to delivering in your country.

Optimisation of Clinical Protocols

Occams Business Research & Consultancy

Computer-Aided Surgical Navigation Coding Guide Neurosurgery. May 1, 2009

Optimisation in CT. A case for shared approach. Stephen J. Golding University of Oxford

IMGING GUIDANCE IN PCNL. Mohammad Hossein Soltani MD Assistant professor of urology Fellowship of endourology

Clinical feasibility of dual tube floor based kilo voltage X-ray localization system for image guided radiation therapy

Soft Tissue Puncture Model for Situation Awareness Percutaneous Robot

SYNAPSE is a registered trademark of FUJIFILM Medical Systems U.S.A., Inc. in United States, Australia and Canada

Interventional Radiology

Connect and Deliver Optima CT580 RT

FRIENDS OF AMIGO. Advanced Multimodality Image Guided Operating Suite

Image-Guided Procedures,

Your surgical room. Simplified.

Optimal landmarks selection and fiducial marker placement for minimal target registration error in image-guided neurosurgery

The Journal of Thoracic and Cardiovascular Surgery

CT post processing and low dose scanning

3D Spherical Harmonics Deformation Visualization of Intraoperative Organ

CT Cystogram CT Pelvis WO

Making the difference with Live Image Guidance

Imaging. Steve Rusckowski CEO Philips Healthcare

1 hour 24 hours. Two images from the successful in-vivo test of gamma camera imaging of Radspherin distribution in the peritoneal cavity of rats

Clarity CT Technology

Ultrasound Segmentation in Navigated Liver Surgery

03/08/2017. Advances and Challenges in Contour QA for Adaptive RT. Objective. Disclosures

Mirada Case Study. VentureFest, July

Quality ID #262: Image Confirmation of Successful Excision of Image-Localized Breast Lesion National Quality Strategy Domain: Patient Safety

Feasibility of Merging Sacroiliac Fusion Computed Tomography Preoperative Planning to Original Computed Tomography Scans

GE Healthcare. Revolution GSI. A Better Exam.

Imaging/Imagine Needs for Proton Therapy: Treatment Planning. Lei Dong, Ph.D. Scripps Proton Therapy Center San Diego, CA

Positive surgical margins in partial nephrectomy specimens: Urologist view. Ofer Nativ MD

OUR WISH LIST RESEARCH EQUIPMENT

OUR WISH LIST RESEARCH EQUIPMENT

Disclosures 7/31/2017. Clinical Impact and Applications of 4D Imaging (in RT)

Design and Preliminary Clinical Studies of an MRI-Guided Transrectal Prostate Intervention System

E2E SBRT Thorax Phantom

Ultrasound Elastography

Extending Ultrasound Capabilities. General Imaging

First Experiences with the Ziehm Vision FD Mobile C-Arm with Flat-Panel Detector

The Cost-Benefit Calculus of CT Angiograms

Motiva: a TV-based platform for remote patient management

A-mode ultrasound acquisition system for computer assisted orthopaedic surgery and other

COMPREHENSIVE FAMILY OF INTERVENTIONAL SYSTEMS

ENGINEERING ASPECTS OF SURGERY

Medical Image Processing for Intuitive Navigation and Surgical Workflow Analysis

Copyright Jedediah K. White

Percutaneous Spinal Injections problem presentation for HW1

Measure #262: Image Confirmation of Successful Excision of Image-Localized Breast Lesion National Quality Strategy Domain: Patient Safety

Positron Emission Tomography Present status and future prospects

GE Healthcare. Introducing Veo * on Discovery * CT750 HD Great care by design

Computed Tomography. Printed in Japan

CTA Throughout the Ages

Transcription:

CT to Ultrasound Registration: A Porcine Phantom Study J. Xiang, S. Gill, C. Nguan, P. Abolmaesumi and R. N. Rohling University of British Columbia 1

Motivation Ultrasound to CT registration can improve many minimally invasive procedures including partial nephrectomy. Many new registration techniques are being developed. Phantoms are a method of providing a gold standard for registration. We provide a recipe for producing a realistic kidney phantoms to validate registration. 2

Clinical Context Amongst Canadians, kidney cancer is the 6 th most common cancer in women and 10 th most common cancer in men (Canadian Urological Association). For diagnosis, patients receive CT angiography (CTA). Intraoperatively, the surgeon currently uses ultrasound only to check the margins of the tumour. Fusion of CTA and intraoperative US would enable accurate navigation and tumour resection at several stages of the surgery. 3

Clinical Context Register 4

Related Work: Validation Ground Truth from Anatomical Landmarks US to MR on cardiac images. (Zhang et al., 2006). US to CT via simulated US of kidney and liver. (Wein et al., 2008). Surface Matching US to CT of the kidney. (Leroy et al., 2007). Fiducial Markers in Cadavers US to CT of femur and pelvis. (Penney et al., 2006) Fiducial Markers in Phantoms US to CT via simulated US on phantom of the spine (Gill et al., 2009). US to CT and elastography to CT on gelatin phantom with excised porcine kidneys (Keil et al., 2009). What is needed is a phantom with clearly identifiable fiducials that can provide a gold standard for registration of soft tissue. 5

Goals of Phantom Construction High quality images in CTA and US. Depict the surface boundaries of the kidney. Define the vascular and pyramid anatomy of the kidney in both modalities. 6

Phantom Construction A A) Remove the renal capsule so that it does not trap air. B B) Inject contrast agent (Omnipaque iohexol): 1 to 40 dilution in water to highlight parenchyma. 1 to 5 dilution in gelatin solution to highlight the arteries. 7

Phantom Construction Cont d C C) Artery and vein are separated. D D) Artery and vein are tied off to prevent leaking of contrast agent into the agar. 8

Phantom Construction Cont d A B A) Placement of excised kidneys on an agar layer. B) Kidneys encased in agar. 9

Phantom Construction 10

Ultrasound and CT Acquisition CT scans were acquired using the Aquilion 64-slice CT scanner (Toshiba Medical Systems) US acquired using the Ultrasonix Sonix RP machine (Ultrasonix Medical Corporation with the convex curvilinear abdominal probe (4DC7-340). 11

Comparison A C A) US of non-freshly excised kidney with no contrast. B C) CT of non-freshly excised kidney with no contrast. D B) US of freshly excised kidney with contrast. D) CTA of freshly excised kidney. 12

Comparison A) CTA of phantom. B) CTA of human kidney. Can identify the vascular system, renal pyramids and the renal cortex. 13

Registration Algorithm CT Volume Mapped CT Values Simulated US Reflections Simulated US Volume US Volume LC 2 Similarity Measure CMA-ES Optimizer Registered US and CT Volume For registration algorithm, see Gill et al., 2009 and Wein et al., 2008 14

Registration Ultrasound Simulated Ultrasound 30 trials of the registration algorithm 7 corresponding CT to US volumes generated a mean TRE of 5.7 ± 2.9 mm. Comparable to results from other studies. CT 15

Fiducial localization error in US data. Inherent distortions in US caused by speed of sound and scan-conversion. Can improve registration with more sophisticated simulation such as considering the true shape of the radiating beam (Shams et al., 2008). Slight blurring around the boundaries of the organ due to leaking of contrast agent. This can be avoided by injecting contrast agent at the time of the CT. 16

s and Future Work Our phantom design produces realistic image features in both US and CTA, and provides a gold standard with fiducials. Successful registration was performed with accuracy of 5.7 mm. Studies conducted in vivo will present some differences that are not represented by the phantom such as deformation. Having a gold standard by which to test algorithms supports the development of CT to US intensitybased registration. 17

Thank you! 18

Back Up Slides Succeed... 19

Ultrasound of Patient s Kidney 20

Equations 21

Equations Cont d 22

2024 © businessdocbox.com Privacy Policy | Terms of Service | Feedback