Live 3D Holographic Imaging for Use in Interventional Cardiology Assessed 
|
By MedImaging International staff writers Posted on 04 Nov 2013 |
|
Image: Manipulating a 3D hologram (see video) (Photo courtesy of RealView Imaging).
Philips (Best, The Netherlands) and RealView Imaging, Ltd. (Yokneam, Israel) have completed a clinical study that has demonstrated the viability of using a unique live three-dimensional (3D) holographic visualization and interaction technology to guide minimally invasive structural heart disease procedures. In the pilot study that involved eight patients and was conducted in collaboration with the Schneider Children’s Medical Center (Petach Tikva, Israel), RealView’s innovative visualization technology was used to display interactive, real-time 3D holographic images acquired by Philips’ interventional X-ray and cardiac ultrasound systems.
Clinicians in the interventional team were able to view detailed dynamic 3D holographic images of the heart “floating in free space” during a minimally-invasive structural heart disease procedure, in addition to viewing the patient’s heart on a 2D screen, without using special eyewear. The physicians were also able to manipulate the projected 3D heart structures by just touching the holographic volumes in front of them. The study findings revealed the potential of the technology to optimize the context and guidance of structural heart repairs.
“The holographic projections enabled me to intuitively understand and interrogate the 3D spatial anatomy of the patient’s heart, as well as to navigate and appreciate the device-tissue interaction during the procedure,” said Dr. Einat Birk, pediatric cardiologist and director of the Institute of Pediatric Cardiology at Schneider Children’s Medical Center.
Dr. Elchanan Bruckheimer, pediatric cardiologist and director of the Cardiac Catheterization Laboratories at Schneider Children’s Medical Center, added, “The ability to reach into the image and apply markings on the soft tissue anatomy in the X-ray and 3D ultrasound images would be extremely useful for guidance of these complex procedures.”
The findings of this unique pilot study were presented by Dr. Bruckheimer at the 25th annual Transcatheter Cardiovascular Therapeutics (TCT) scientific symposium, held October 27-November 1, 2013, in San Francisco (CA, USA), and sponsored by the Cardiovascular Research Foundation.
“Our ultimate goal is to create the future of healthcare by delivering innovative solutions that enhance clinical capabilities and improve patient outcomes,” said Bert van Meurs, general manager of integrated clinical solutions and marketing for imaging systems at Philips Healthcare. “By teaming up with partners that share our passion for innovation, we have been able to demonstrate the feasibility and potential value of the world’s first holographic visualization technology targeted at guiding minimally invasive cardiac procedures.”
“I see clear indications that 3D medical holography will play an important role in medical imaging in the near future,” said Aviad Kaufman, CEO of RealView Imaging. “With the advancement of live 3D imaging and increasing clinical evidence of its value for a variety of procedures, we are convinced that our holographic technology will further enhance 3D imaging and, most importantly, improve patient care.”
Progress in image-guided therapies for heart diseases—from the opening of obstructed coronary arteries to catheter ablation therapy for heart arrhythmias and catheter-based structural heart procedures (for example, heart valve replacements)—have greatly increased the need for live 3D image guidance, to supplement current live 2D image guidance. Live X-ray and live 3D cardiac ultrasound imaging are typically used simultaneously to guide minimally invasive structural heart repair procedures, with the ultrasound images providing detailed insights into the heart’s soft tissue anatomy, and the X-ray imaging providing visualization of catheters and heart implants.
The technologic developments in the acquisition of live 3D images to guide minimally invasive procedures have also triggered the development of novel ways to visualize the data. Following the promising findings generated by this pilot study, Philips and RealView Imaging will continue to examine the clinical benefits of integrating live 3D imaging and medical holography, both in interventional cardiology and in other clinical areas.
RealView’s proprietary technology projects hyper-realistic, dynamic 3D holographic images “floating in the air” without the need for any type of eyewear or a traditional 2D screen. The projected 3D volumes appear in free space, allowing the user to touch and interact precisely within the image, presenting a unique and proprietary advance in digital holography and real-time 3D interaction capabilities. Sample 3D holographic images can be seen at RealView’s Website.
Related Links:
Philips Healthcare
RealView Imaging
Schneider Children’s Medical Center
Clinicians in the interventional team were able to view detailed dynamic 3D holographic images of the heart “floating in free space” during a minimally-invasive structural heart disease procedure, in addition to viewing the patient’s heart on a 2D screen, without using special eyewear. The physicians were also able to manipulate the projected 3D heart structures by just touching the holographic volumes in front of them. The study findings revealed the potential of the technology to optimize the context and guidance of structural heart repairs.
“The holographic projections enabled me to intuitively understand and interrogate the 3D spatial anatomy of the patient’s heart, as well as to navigate and appreciate the device-tissue interaction during the procedure,” said Dr. Einat Birk, pediatric cardiologist and director of the Institute of Pediatric Cardiology at Schneider Children’s Medical Center.
Dr. Elchanan Bruckheimer, pediatric cardiologist and director of the Cardiac Catheterization Laboratories at Schneider Children’s Medical Center, added, “The ability to reach into the image and apply markings on the soft tissue anatomy in the X-ray and 3D ultrasound images would be extremely useful for guidance of these complex procedures.”
The findings of this unique pilot study were presented by Dr. Bruckheimer at the 25th annual Transcatheter Cardiovascular Therapeutics (TCT) scientific symposium, held October 27-November 1, 2013, in San Francisco (CA, USA), and sponsored by the Cardiovascular Research Foundation.
“Our ultimate goal is to create the future of healthcare by delivering innovative solutions that enhance clinical capabilities and improve patient outcomes,” said Bert van Meurs, general manager of integrated clinical solutions and marketing for imaging systems at Philips Healthcare. “By teaming up with partners that share our passion for innovation, we have been able to demonstrate the feasibility and potential value of the world’s first holographic visualization technology targeted at guiding minimally invasive cardiac procedures.”
“I see clear indications that 3D medical holography will play an important role in medical imaging in the near future,” said Aviad Kaufman, CEO of RealView Imaging. “With the advancement of live 3D imaging and increasing clinical evidence of its value for a variety of procedures, we are convinced that our holographic technology will further enhance 3D imaging and, most importantly, improve patient care.”
Progress in image-guided therapies for heart diseases—from the opening of obstructed coronary arteries to catheter ablation therapy for heart arrhythmias and catheter-based structural heart procedures (for example, heart valve replacements)—have greatly increased the need for live 3D image guidance, to supplement current live 2D image guidance. Live X-ray and live 3D cardiac ultrasound imaging are typically used simultaneously to guide minimally invasive structural heart repair procedures, with the ultrasound images providing detailed insights into the heart’s soft tissue anatomy, and the X-ray imaging providing visualization of catheters and heart implants.
The technologic developments in the acquisition of live 3D images to guide minimally invasive procedures have also triggered the development of novel ways to visualize the data. Following the promising findings generated by this pilot study, Philips and RealView Imaging will continue to examine the clinical benefits of integrating live 3D imaging and medical holography, both in interventional cardiology and in other clinical areas.
RealView’s proprietary technology projects hyper-realistic, dynamic 3D holographic images “floating in the air” without the need for any type of eyewear or a traditional 2D screen. The projected 3D volumes appear in free space, allowing the user to touch and interact precisely within the image, presenting a unique and proprietary advance in digital holography and real-time 3D interaction capabilities. Sample 3D holographic images can be seen at RealView’s Website.
Related Links:
Philips Healthcare
RealView Imaging
Schneider Children’s Medical Center
New
Pocket Fetal Doppler
CONTEC10C/CL
New
Digital Intelligent Ferromagnetic Detector
Digital Ferromagnetic Detector
Radiology Software
DxWorks
New
Medical Radiographic X-Ray Machine
TR30N HF
Latest Radiography News
- World's Largest Class Single Crystal Diamond Radiation Detector Opens New Possibilities for Diagnostic Imaging
- AI-Powered Imaging Technique Shows Promise in Evaluating Patients for PCI
- Higher Chest X-Ray Usage Catches Lung Cancer Earlier and Improves Survival
- AI-Powered Mammograms Predict Cardiovascular Risk
- Generative AI Model Significantly Reduces Chest X-Ray Reading Time
- AI-Powered Mammography Screening Boosts Cancer Detection in Single-Reader Settings
- Photon Counting Detectors Promise Fast Color X-Ray Images
- AI Can Flag Mammograms for Supplemental MRI
- 3D CT Imaging from Single X-Ray Projection Reduces Radiation Exposure
- AI Method Accurately Predicts Breast Cancer Risk by Analyzing Multiple Mammograms
- Printable Organic X-Ray Sensors Could Transform Treatment for Cancer Patients
- Highly Sensitive, Foldable Detector to Make X-Rays Safer
- Novel Breast Cancer Screening Technology Could Offer Superior Alternative to Mammogram
- Artificial Intelligence Accurately Predicts Breast Cancer Years Before Diagnosis
- AI-Powered Chest X-Ray Detects Pulmonary Nodules Three Years Before Lung Cancer Symptoms
- AI Model Identifies Vertebral Compression Fractures in Chest Radiographs
Channels
MRI
view channel
AI Tool Predicts Relapse of Pediatric Brain Cancer from Brain MRI Scans
Many pediatric gliomas are treatable with surgery alone, but relapses can be catastrophic. Predicting which patients are at risk for recurrence remains challenging, leading to frequent follow-ups with... Read more
AI Tool Tracks Effectiveness of Multiple Sclerosis Treatments Using Brain MRI Scans
Multiple sclerosis (MS) is a condition in which the immune system attacks the brain and spinal cord, leading to impairments in movement, sensation, and cognition. Magnetic Resonance Imaging (MRI) markers... Read more
Ultra-Powerful MRI Scans Enable Life-Changing Surgery in Treatment-Resistant Epileptic Patients
Approximately 360,000 individuals in the UK suffer from focal epilepsy, a condition in which seizures spread from one part of the brain. Around a third of these patients experience persistent seizures... Read more
Ultrasound
view channel.jpeg "Image: The AI-powered lung ultrasound tool outperformed human experts by 9% in diagnosing TB (Photo courtesy of Adobe Stock)")
AI-Powered Lung Ultrasound Outperforms Human Experts in Tuberculosis Diagnosis
Despite global declines in tuberculosis (TB) rates in previous years, the incidence of TB rose by 4.6% from 2020 to 2023. Early screening and rapid diagnosis are essential elements of the World Health... Read more
AI Identifies Heart Valve Disease from Common Imaging Test
Tricuspid regurgitation is a condition where the heart's tricuspid valve does not close completely during contraction, leading to backward blood flow, which can result in heart failure. A new artificial... Read more
Nuclear Medicine
view channel
Novel Radiolabeled Antibody Improves Diagnosis and Treatment of Solid Tumors
Interleukin-13 receptor α-2 (IL13Rα2) is a cell surface receptor commonly found in solid tumors such as glioblastoma, melanoma, and breast cancer. It is minimally expressed in normal tissues, making it... Read more
Novel PET Imaging Approach Offers Never-Before-Seen View of Neuroinflammation
COX-2, an enzyme that plays a key role in brain inflammation, can be significantly upregulated by inflammatory stimuli and neuroexcitation. Researchers suggest that COX-2 density in the brain could serve... Read more
General/Advanced Imaging
view channel
AI-Powered Imaging System Improves Lung Cancer Diagnosis
Given the need to detect lung cancer at earlier stages, there is an increasing need for a definitive diagnostic pathway for patients with suspicious pulmonary nodules. However, obtaining tissue samples... Read more
AI Model Significantly Enhances Low-Dose CT Capabilities
Lung cancer remains one of the most challenging diseases, making early diagnosis vital for effective treatment. Fortunately, advancements in artificial intelligence (AI) are revolutionizing lung cancer... 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
Global AI in Medical Diagnostics Market to Be Driven by Demand for Image Recognition in Radiology
The global artificial intelligence (AI) in medical diagnostics market is expanding with early disease detection being one of its key applications and image recognition becoming a compelling consumer proposition... Read more
Industry News
view channel
GE HealthCare and NVIDIA Collaboration to Reimagine Diagnostic Imaging
GE HealthCare (Chicago, IL, USA) has entered into a collaboration with NVIDIA (Santa Clara, CA, USA), expanding the existing relationship between the two companies to focus on pioneering innovation in... Read more
Patient-Specific 3D-Printed Phantoms Transform CT Imaging
New research has highlighted how anatomically precise, patient-specific 3D-printed phantoms are proving to be scalable, cost-effective, and efficient tools in the development of new CT scan algorithms... Read more
Siemens and Sectra Collaborate on Enhancing Radiology Workflows
Siemens Healthineers (Forchheim, Germany) and Sectra (Linköping, Sweden) have entered into a collaboration aimed at enhancing radiologists' diagnostic capabilities and, in turn, improving patient care... Read more