New VR Technology Puts Interventional Radiologists Inside 3D Blood Vessels
|
By MedImaging International staff writers Posted on 01 Jun 2019 |
|
Image: With new VR software, interventional radiologists can navigate a catheter through anatomical junctions and angles (Photo courtesy of UW Medicine).
A team of researchers from the University of Washington (Seattle, WA, USA) has pioneered virtual reality (VR) technology that puts the operator inside 3D blood vessels. By following an anatomically correct, dynamic, 3D map of a phantom patient's vessels, interventional radiologists can navigate a catheter, a thin flexible tube inserted into arteries and veins and steered to any organ in the body, through junctions and angles. The catheter's tip is equipped with sensors that visually represent its exact location to the VR headset.
Interventional radiologists, cardiologists, vascular surgeons, and neuro-interventionalists typically use catheters, guided by X-ray visuals to treat various conditions such as liver tumors, narrowed and bleeding arteries, and uterine fibroids, among others. The researchers conducted tests of a phantom patient and found that the VR guidance got them to the destination about 40 seconds faster, on average, over 18 simulations, as compared to X-ray guidance, which interventional radiologists usually rely on to guide catheters through the vessels.
More importantly, since VR employs a magnetic field to visualize the catheter, it greatly reduces and could eliminate the need for the radiation exposure accompanying X-ray navigation. The researchers believe that VR’s small footprint also could make interventional radiology portable and allow interventionalists and endovascular specialists to conduct procedures remotely, far from the patient receiving treatment.
“All the information you’re getting from the sensors on the catheters can be used in different ways,” said UW Medicine interventional radiologist Wayne Monsky, one of the collaborators who pioneered the VR technology. “We can get positional information (about physiology and anatomy) as we’re doing our procedure … and we can learn from how those catheters move. Ideally that positional information could be fed into tele-robotic systems so that, just by turning my catheter here, in some room across the globe, the catheter is moving in that direction in a person in need there.”
Related Links:
University of Washington
Interventional radiologists, cardiologists, vascular surgeons, and neuro-interventionalists typically use catheters, guided by X-ray visuals to treat various conditions such as liver tumors, narrowed and bleeding arteries, and uterine fibroids, among others. The researchers conducted tests of a phantom patient and found that the VR guidance got them to the destination about 40 seconds faster, on average, over 18 simulations, as compared to X-ray guidance, which interventional radiologists usually rely on to guide catheters through the vessels.
More importantly, since VR employs a magnetic field to visualize the catheter, it greatly reduces and could eliminate the need for the radiation exposure accompanying X-ray navigation. The researchers believe that VR’s small footprint also could make interventional radiology portable and allow interventionalists and endovascular specialists to conduct procedures remotely, far from the patient receiving treatment.
“All the information you’re getting from the sensors on the catheters can be used in different ways,” said UW Medicine interventional radiologist Wayne Monsky, one of the collaborators who pioneered the VR technology. “We can get positional information (about physiology and anatomy) as we’re doing our procedure … and we can learn from how those catheters move. Ideally that positional information could be fed into tele-robotic systems so that, just by turning my catheter here, in some room across the globe, the catheter is moving in that direction in a person in need there.”
Related Links:
University of Washington
Gold Member
Solid State Kv/Dose Multi-Sensor
AGMS-DM+
Ultrasound Doppler System
Doppler BT-200
New
Ultrasound Table
Ergonomic Advantage (EA) Line
New
1.5T MRI System
uMR 670
Latest Industry News News
- Hologic Acquires UK-Based Breast Surgical Guidance Company Endomagnetics Ltd.
- Bayer and Google Partner on New AI Product for Radiologists
- Samsung and Bracco Enter Into New Diagnostic Ultrasound Technology Agreement
- IBA Acquires Radcal to Expand Medical Imaging Quality Assurance Offering
- International Societies Suggest Key Considerations for AI Radiology Tools
- Samsung's X-Ray Devices to Be Powered by Lunit AI Solutions for Advanced Chest Screening
- Canon Medical and Olympus Collaborate on Endoscopic Ultrasound Systems
- GE HealthCare Acquires AI Imaging Analysis Company MIM Software
- First Ever International Criteria Lays Foundation for Improved Diagnostic Imaging of Brain Tumors
- RSNA Unveils 10 Most Cited Radiology Studies of 2023
- RSNA 2023 Technical Exhibits to Offer Innovations in AI, 3D Printing and More
- AI Medical Imaging Products to Increase Five-Fold by 2035, Finds Study
- RSNA 2023 Technical Exhibits to Highlight Latest Medical Imaging Innovations
- AI-Powered Technologies to Aid Interpretation of X-Ray and MRI Images for Improved Disease Diagnosis
- Hologic and Bayer Partner to Improve Mammography Imaging
- Global Fixed and Mobile C-Arms Market Driven by Increasing Surgical Procedures
Channels
Radiography
view channel
Novel Breast Imaging System Proves As Effective As Mammography
Breast cancer remains the most frequently diagnosed cancer among women. It is projected that one in eight women will be diagnosed with breast cancer during her lifetime, and one in 42 women who turn 50... Read more
AI Assistance Improves Breast-Cancer Screening by Reducing False Positives
Radiologists typically detect one case of cancer for every 200 mammograms reviewed. However, these evaluations often result in false positives, leading to unnecessary patient recalls for additional testing,... Read more
MRI
view channel
Low-Cost Whole-Body MRI Device Combined with AI Generates High-Quality Results
Magnetic Resonance Imaging (MRI) has significantly transformed healthcare, providing a noninvasive, radiation-free method for detailed imaging. It is especially promising for the future of medical diagnosis... Read more
World's First Whole-Body Ultra-High Field MRI Officially Comes To Market
The world's first whole-body ultra-high field (UHF) MRI has officially come to market, marking a remarkable advancement in diagnostic radiology. United Imaging (Shanghai, China) has secured clearance from the U.... Read more
Ultrasound
view channel.jpg "Image: CAM figures of testing images (Photo courtesy of SPJ; DOI:10.34133/research.0319)")
Diagnostic System Automatically Analyzes TTE Images to Identify Congenital Heart Disease
Congenital heart disease (CHD) is one of the most prevalent congenital anomalies worldwide, presenting substantial health and financial challenges for affected patients. Early detection and treatment of... Read more
Super-Resolution Imaging Technique Could Improve Evaluation of Cardiac Conditions
The heart depends on efficient blood circulation to pump blood throughout the body, delivering oxygen to tissues and removing carbon dioxide and waste. Yet, when heart vessels are damaged, it can disrupt... Read more
First AI-Powered POC Ultrasound Diagnostic Solution Helps Prioritize Cases Based On Severity
Ultrasound scans are essential for identifying and diagnosing various medical conditions, but often, patients must wait weeks or months for results due to a shortage of qualified medical professionals... Read more
Nuclear Medicine
view channel
New PET Biomarker Predicts Success of Immune Checkpoint Blockade Therapy
Immunotherapies, such as immune checkpoint blockade (ICB), have shown promising clinical results in treating melanoma, non-small cell lung cancer, and other tumor types. However, the effectiveness of these... Read more![Image: Whole-body maximum-intensity projections over time after [68Ga]Ga-DPI-4452 administration (Photo courtesy of SNMMI)](https://globetechcdn.com/mobile_medicalimaging/images/stories/articles/article_images/2024-05-09/JNM May 2024 Hofman.jpg "Image: Whole-body maximum-intensity projections over time after [68Ga]Ga-DPI-4452 administration (Photo courtesy of SNMMI)"){kind=small}
New PET Agent Rapidly and Accurately Visualizes Lesions in Clear Cell Renal Cell Carcinoma Patients
Clear cell renal cell cancer (ccRCC) represents 70-80% of renal cell carcinoma cases. While localized disease can be effectively treated with surgery and ablative therapies, one-third of patients either... Read more
New Imaging Technique Monitors Inflammation Disorders without Radiation Exposure
Imaging inflammation using traditional radiological techniques presents significant challenges, including radiation exposure, poor image quality, high costs, and invasive procedures. Now, new contrast... Read more
New SPECT/CT Technique Could Change Imaging Practices and Increase Patient Access
The development of lead-212 (212Pb)-PSMA–based targeted alpha therapy (TAT) is garnering significant interest in treating patients with metastatic castration-resistant prostate cancer. The imaging of 212Pb,... Read moreGeneral/Advanced Imaging
view channel
Bone Density Test Uses Existing CT Images to Predict Fractures
Osteoporotic fractures are not only devastating and deadly, especially hip fractures, but also impose significant costs. They rank among the top chronic diseases in terms of disability-adjusted life years... Read more
AI Predicts Cardiac Risk and Mortality from Routine Chest CT Scans
Heart disease remains the leading cause of death and is largely preventable, yet many individuals are unaware of their risk until it becomes severe. Early detection through screening can reveal heart issues,... Read more
Imaging IT
view channel
New Google Cloud Medical Imaging Suite Makes Imaging Healthcare Data More Accessible
Medical imaging is a critical tool used to diagnose patients, and there are billions of medical images scanned globally each year. Imaging data accounts for about 90% of all healthcare data1 and, until... Read more
