Best Medical 3D Visualization Software - Page 2
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Compare the Top Medical 3D Visualization Software as of March 2026 - Page 2
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ExacTrac Dynamic
Brainlab
ExacTrac Dynamic unifies the power and precision of cutting-edge tracking technologies. Deliver high-precision treatments for a wide range of patient positioning and monitoring workflows including cranial and prostate. This all-in-one system’s revolutionary new thermal-surface camera technology works in tandem with real-time X-Ray tracking for extraordinary accuracy. The 4D Thermal Camera creates a highly accurate and reliable hybrid thermal surface by correlating the patient’s heat signature to their reconstructed 3D surface structure. To achieve this, 300,000 3D surface points are acquired and matched to the heat signal generated by the thermal camera, creating another dimension to track their position. -
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D2P
Oqton
FDA 510(k)-cleared D2P® software and 3D Systems printers allow surgeons, radiologists, lab technicians, and device designers to create diagnostic-quality digital 3D models and physical 3D prints easily and quickly. DICOM images are imported into the D2P stand-alone modular software package that consolidates all 3D model segmentation and preparation steps into one workstation. D2P is a cleared medical device intended for pre-operative surgical planning and the production of 3D-printed anatomic models for diagnostic purposes. The unique image segmentation tool set and its advanced virtual reality (VR) visualization allow clinicians and point-of-care (POC) staff to minimize the effort and time associated with the creation of patient-specific anatomic models. Digital models exported from the D2P software can be used in a wide variety of applications including 3D printers, VR devices, surgical planning software, and CAD software. -
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LarkXR
Paraverse Technology Limited
LarkXR, A Proprietary Enterprise-Grade Real Time 3D XR Cloud Streaming & Rendering Solution revolutionizes the way immersive 3D XR experiences are hosted, rendered, and streamed. Key Features: 1. Unparalleled Streaming & Rendering Capability. 2. Multi-GPU Resource Pooling Utilization. 3. Ultra-Low Latency <30ms. 4. High-Fidelity. High-Precision. 3D/XR Content. 5. 2K~8K High Resolution & 60~120 FPS. High Frame Rate Support. 6. Developer-Friendly. Rich APIs / SDKs. Diverse Industry Scene. 2nd Development Capabilities. 7. Rapid No-Code Deployment. Seamless Integration. 8. Compatibility & Interoperability. All Terminals. All Engines - UE, Unity, CryEngine, Unigine & OSG. XR & Spatial Devices, VR/AR/MR Headsets, Holographic, Mobiles, Tablets and PCs. Web-Based XR Applications (WebXR Support) . WebGL Apps Streaming Support. Operating Systems - Windows, Linux, MacOS, Android and iOS. 9. Scalability & Stability. High Concurrency 20K+ & 50+M Minutes. 10. Zero Cost In Testing. -
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MetaMotus Galileo
Fourier
The MetaMotus Galileo system, developed by Fourier Intelligence, is an advanced research and training platform designed for biomechanics, rehabilitation exercises, and sports science. It integrates various cutting-edge technologies, such as a six-axis motion platform, force plate, LED curved screen, adaptive dual-belt treadmill, dynamic weight support, motion capture system, upper and lower limb rehabilitation robots, exercise equipment, and human-computer interaction software. This provides a versatile clinical assessment and rehabilitation training environment using virtual reality and robotics technology for both clinical and research purposes. The Galileo system is suitable for assessing and training a variety of functional impairments in adults and children, including neurological and musculoskeletal injuries, amputations, limb disabilities, cardiorespiratory dysfunction, and degenerative conditions. -
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Surgical Science
Surgical Science
Surgical Science is a leading provider of medical simulation training and software solutions, dedicated to enhancing patient safety and healthcare outcomes through validated, customized simulations. Their high-fidelity simulations enable healthcare professionals to safely advance their skills, from essential techniques to managing complex cases, without putting patients at risk. Trusted by surgeons, clinicians, and healthcare teams worldwide, Surgical Science's evidence-based simulations support better patient care every day. With over 8,000 simulators in use, covering more than 150 medical procedures, and supported by over 400 validated studies, their impact is significant. Their ready-to-use simulators and evidence-based customizable curricula allow healthcare professionals and teams to elevate their proficiency, promote professional growth, and ultimately improve patient treatment and safety. -
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Materialise Mimics
Materialise
Materialise Mimics is a comprehensive software platform designed to facilitate the conversion of medical image data into accurate 3D models, supporting a range of applications from personalized device design to advanced anatomical analysis. The platform offers a suite of tools that enable efficient planning, design, and 3D printing of models and guides for cases of varying complexity, directly at the point of care. A key component of the platform is Mimics Core, an advanced 3D medical image segmentation software that streamlines the process from image acquisition to 3D model creation. This tool supports virtual procedure planning and is integral to the platform's capabilities. The Mimics Innovation Suite enhances the platform's functionality by providing advanced tools for engineers and researchers. It simplifies the use of 3D medical image data, making it accessible and beneficial for those aiming to improve patient care through technology. -
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MiNNOVAA
MiNNOVAA
MiNNOVAA is a medical information technology company providing solutions in the field of medical imaging software and medical image exchange. Our motto is 'medical imaging innovation,' and our key characteristic is the agility and cutting-edge technology we employ to develop our solutions. Our primary focus areas include medical image viewer, radiology workflow, and artificial intelligence in diagnostic reporting. With a young and dynamic team consisting of approximately 20 programmers and product managers, along with colleagues in marketing, sales, technical support, call center, and administration, we strive to make a significant transformation in medical imaging and contribute to individual healthcare. Our clinical imaging IT solution caters to mid-size hospitals and imaging clinics, providing an extensive range of features, including on-premise core PACS software, DICOM web viewer, imaging workstation software (multi-platform), integration with EHR/EMR/HIS, and workflow engine/RIS. -
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Axial3D
Axial3D
Axial3D is dedicated to advancing patient-specific care by transforming healthcare through its 3D medical imaging and 3D patient-specific solutions, making personalized surgical care routine and scalable. Our patented AI-driven, cloud-based platform empowers medical device companies, imaging providers, and hospitals to harness data-rich, accurate 3D models for enhanced surgical planning, improved patient outcomes, and optimized workflows. Our solutions include 3D visualization, 3D mesh files, 3D print-ready files, and 3D printed models, all designed to integrate seamlessly into existing medical workflows. By converting complex DICOM images into precise, actionable 3D data, we boost efficiency, speed, and scalability in patient-specific device development. Our cloud-based platform offers a unique solution for surgeons seeking a comprehensive view of their patient’s anatomy prior to surgery, enhancing the accuracy and precision of surgical planning beyond traditional 2D imaging. -
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Synapse 3D
FUJIFILM Healthcare Americas Corporation
Fujifilm's Synapse 3D is an advanced visualization platform developed in collaboration with radiologists, cardiologists, surgeons, and other specialists, offering over 50 applications to enhance diagnostic accuracy and efficiency. Its server-side technology supports both cloud and on-premise hosting, performing state-of-the-art image analyses to assist with interpretation, reporting, and treatment planning while facilitating clinical collaboration across the enterprise. Specialty areas include cardiology, pulmonology, oncology, urology, neurology, and gastroenterology. The platform's scalable architecture supports limitless growth, dependable workflows enhance productivity, and specialized applications meet vast visualization needs. Native cardiology offerings elevate cardiac care, and AI-driven detection improves interpretation accuracy and efficiency. Synapse 3D seamlessly integrates with Fujifilm's Synapse Enterprise PACS. -
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Amira Software
Thermo Fisher Scientific
Thermo Scientific Amira Software is a powerful, universal 2D–5D solution for visualizing, analyzing, and understanding life science and biomedical research data from various imaging modalities, including optical and electron microscopy, CT, MRI, and other techniques. With incredible speed and flexibility, Amira Software supports advanced 2D–5D bioimaging workflows in research areas ranging from structural and cellular biology to tissue imaging, neuroscience, preclinical imaging, and bioengineering. Key features include import and image data processing, visualization and exploration, advanced segmentation, measurement, quantification, and analysis, as well as specialized tools for molecular visualization, object tracking, filament tracing, meshing for finite element analysis, diffusion tensor imaging, 3D registration, and biomaterial deformation analysis. Amira Software also offers customization options and access to ecosystems such as MATLAB, Python, and custom C++. -
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Caas MR 4D Flow
Pie Medical Imaging
Caas MR 4D Flow is specifically designed to extract relevant information from 3D phase-contrast MR images within a few clicks. Based on these phase-contrast images, two pioneering 4D Flow modules are offered to perform a complete flow analysis that can aid in reading and interpreting cardiovascular MR images and assist in planning the time and type of intervention. These two modules include a module to analyze vessels, from the aorta up to smaller vessels in, for example, the kidneys, and a module to analyze the heart valves in terms of regurgitation fraction. Key results include visualization of aortic blood flow as streamlines, pathlines, and color-coded vectors; distribution of wall shear stress and local values of wall shear stress; pressure difference over a segment; visualization and quantification of regurgitant fraction over all four valves; and 2D flow phase-contrast analysis. -
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EchoPixel True 3D
EchoPixel
EchoPixel's True3D software platform creates a holographic digital twin of a patient's heart, allowing surgical teams to study and plan using a virtual version before an incision is ever made. This technology overcomes the limitations of 2D imaging by providing a 4D interactive holographic experience, enabling real-time accurate situational awareness of catheters and implantable devices in relation to complex anatomy. True3D is utilized in clinical applications such as congenital heart defects, including MAPCA, PA reconstruction, DORV, ASD, VSD, and CAVC, as well as structural heart procedures like LAAO, transseptal cross, TMVR, and TAVR. The platform has been adopted by leading hospitals worldwide, including Miyazaki University Hospital in Japan, and has received medical device registration in Japan. By leveraging True3D, physicians can enhance their understanding of 3D anatomic relationships, potentially reducing procedure times. -
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Elements Cranial SRS
Brainlab
Brainlab's Elements Cranial Stereotactic Radiosurgery (SRS) is an advanced software solution designed to streamline the planning of complex cranial procedures, such as arteriovenous malformations, pituitary adenomas, and vestibular schwannomas. The workflow integrates automation at every step, including image fusion, distortion correction, object outlining, and segmentation, ensuring submillimetric accuracy and consistency. A key feature is the patented 4Pi arc setup optimization, which, combined with a volumetric modulated arc therapy algorithm specifically designed for radiosurgery, achieves high plan quality by delivering highly conformal doses while avoiding critical structures. The software also offers unique 3D views and robust dosimetric results, enhancing the precision and efficiency of treatment planning. Additionally, Elements SmartBrush allows for quick and easy 3D target outlining by defining volumes on just two slices. -
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Elements Multiple Brain Mets SRS
Brainlab
Brainlab's Elements Multiple Brain Metastases SRS is an advanced software solution designed to streamline the planning and treatment of patients with multiple brain metastases. This workflow enables clinicians to irradiate multiple metastases simultaneously without exposing the entire brain to radiation, thereby reducing treatment delivery times. The process begins with automation-supported pre-planning steps, including image fusion, distortion correction, object outlining, and segmentation, which expedite planning and enhance accuracy. The software employs inverse-optimized dynamic conformal arc treatments, utilizing a single isocenter to deliver highly conformal doses with steep gradients, ensuring precise target coverage while sparing healthy tissue. This approach allows for the creation of consistent, high-quality radiosurgery plans in minutes, benefiting both clinicians and patients by minimizing treatment times and improving outcomes. -
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Elements Spine SRS
Brainlab
Brainlab's Elements Spine Stereotactic Radiosurgery (SRS) is an advanced software solution designed to optimize the treatment of spinal metastases. The workflow incorporates automation at every step, including anatomical mapping, curvature correction, and target definition, ensuring submillimetric accuracy and consistency. A unique algorithm compensates for variations in spinal curvature, enhancing image fusion accuracy. Automatic segmentation of spinal anatomy utilizes a patented synthetic tissue model to identify and label individual spine levels, facilitating precise dose calculations. The software provides spinal tumor outlining tools for Gross Tumor Volume (GTV) contouring and automatically proposes the corresponding Clinical Target Volume (CTV) and cropped spinal canal object based on International Spine Consortium Guidelines. Integration with AI-powered contouring solutions enables automatic, reliable, and fast delineation of over 200 structures, including lymph nodes. -
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EMSE
Cortech Solutions
EMSE is a suite of advanced, powerful, and usable software tools to measure, describe, and visualize human brain dynamics, used worldwide for research in neuroscience, neurotechnology, and clinical neurophysiology. We specialize in multimodal source estimation techniques, enabling the researcher to combine EEG and MRI datasets to better answer where things are happening in the brain, and when things change. Conventional neuroimaging (for example magnetic resonance imaging, or MRI) can answer the where question, but not the when question. Electroencephalography (EEG) and the closely allied Event-Related Potentials (ERPs) can tell you when something happened with an accuracy of thousandths of a second but aren't very good at the where questions. EMSE combines MRI and EEG to answer both when and where in a way that neither method can answer alone. We call this process multimodal dynamic functional brain imaging or source estimation. -
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F.A.S.T. aiCockpit
Fovia Ai
Fovia Ai's F.A.S.T. aiCockpit is an AI viewer delivering efficient navigation, visualization, and interaction with AI results from multiple vendors and algorithms, all via one consistent user experience with fewer overall clicks. It allows users to visualize and interact with all their algorithm results in one convenient interface, supplying a streamlined experience for radiologists and clinical specialists. The platform delivers physician-validated findings to AI orchestrators, PACS, and reporting systems using the latest interoperability standards. It supports multiple AI formats, including DICOM Structured Reports, DICOM Key Images, DICOM GSPS, and DICOM segmentation objects. F.A.S.T. aiCockpit features a cloud-ready framework, delivering AI-assisted radiology results anytime and anywhere, accessible from any web-enabled browser. With one simple integration, users can complete their AI offering without launching multiple viewers. -
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HeartFlow
HeartFlow
HeartFlow's non-invasive personalized cardiac test provides unprecedented visualization of each patient's coronary arteries, enabling physicians to create more effective treatment plans for their patients. The HeartFlow FFRCT Analysis starts when a patient undergoes a standard coronary computed tomography scan at a hospital or imaging center. The CT images are securely uploaded to our cloud. Next, we use advanced algorithms incorporating artificial intelligence to build a personalized, digital model of that patient’s coronary arteries. Our team of highly trained analysts then inspects this model, making any needed edits. Once this patient-specific model is completed, the HeartFlow pathway applies physiologic principles and computational fluid dynamics to compute the blood flow and FFRCT values at every point in the model. Throughout the process, we follow rigorous and well-established protocols to ensure consistent processing for every patient. -
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Infervision
Infervision
Infervision is a leading AI medical technology company established in 2016, focusing on improving multidisciplinary services and operations with AI. They offer cutting-edge AI products that support medical professionals in all areas, from disease screening and diagnosis to intervention and treatment, patient management, and medical research. Their solutions include InferRead CT Lung for lung nodule detection from chest CT, InferRead DR Chest for detecting chest abnormalities from chest X-rays, InferRead CT Coronary for identifying coronary artery stenosis in coronary CTA, InferRead CT Stroke for triaging hemorrhage from brain CT, InferRead CT Bone for identifying chest fractures from chest CT, and InferRead CT Pneumonia for identifying and triaging pneumonia from chest CT. Additionally, they offer InferOperate for 3D reconstruction in thoracic, liver, and urological surgeries, InferCare for patient management and image follow-up, and InferScholar as an AI-enabled medical research tool. -
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qCT
Qure.ai
Qure.ai's qLC-Suite is an AI-powered solution designed to enhance early detection and management of lung nodules, thereby facilitating timely intervention for lung cancer. The suite offers precise quantification, comprehensive characterization, and 3D visualization of lung nodules, ensuring no missed opportunities for early intervention. It supports both incidental and targeted screening by locating nodules and measuring their volume with a single click. Additionally, it tracks volumetric growth over time, aiding in monitoring nodule progression. The qLC-Suite integrates seamlessly into existing workflows, providing rapid analysis and reporting to support clinical decision-making. Comprehensive lung nodule management platform that enables care coordination through smart prompts, hardware-agnostic image viewing for AI-annotated chest X-rays and CTs, cross-departmental scan sharing, and custom notifications for suspect cases. -
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INFINITY ANALYZE 7
Teledyne Vision Solutions
INFINITY ANALYZE 7 is an intuitive software package designed for camera control, image capture, and processing across life science, clinical, and industrial research applications. It supports both brightfield and fluorescence imaging modes, ensuring high-quality, reproducible, and accurate results. The software includes features such as image processing, fluorescence acquisition, calibration and presets, annotations, and comprehensive camera controls. Users can perform tasks like focus stacking, and image stitching, and apply various post-processing functions to captured images. The fluorescence mode allows for multi-channel or single-channel image capture, streamlining the process of acquiring sequences into composite results. User-defined button labels and hot keys facilitate quick access to presets when switching microscope objectives, enhancing workflow efficiency. Annotations like lines, arrows, and shapes can be added to highlight areas of interest. -
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Us2.ai
Us2.ai
Us2.ai automates the fight against heart disease with AI ultrasound software enabling access to heart health for all. The platform offers 45 automated echo parameters, including strain analysis, providing real-time 2D and Doppler interpretation. It connects to any ultrasound device, delivering zero-click, complete reports that are accurate and interchangeable with expert analyses. Us2.ai's AI echo copilot generates fully automated analyses of all heart chambers using both 2D and Doppler views, integrating international reference guidelines into comprehensive reports processed in real time. The software has received FDA clearance for Us2.v2, featuring 45 automated echo parameters, including strain analysis, marking a significant stride in medical innovation. Us2.ai's mission is to democratize echocardiography, making ultrasound accessible to anyone, anywhere. -
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XStream HDVR
Fovia Ai
Fovia's XStream HDVR SDK Suite offers a comprehensive set of tools for advanced visualization, enabling seamless integration into various platforms, including enterprise-wide networks, standalone workstations, and cloud-based mobile applications. The suite includes components such as F.A.S.T. Interactive Segmentation for dynamic 3D segmentation, F.A.S.T. RapidPrint for streamlined volume-to-print workflows, and F.A.S.T. Cloud SDK for cloud-based advanced visualization. These tools facilitate the development of custom workflows and high-performance interactive imaging applications. Fovia provides a user-friendly API, custom integration assistance, and a comprehensive feature set to meet diverse needs in the advanced visualization market. -
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CubeVue
CurveBeam
CurveBeam AI's CubeVue software provides powerful visualization tools to enhance dataset analysis, giving you intuitive interpretation and treatment planning tools at your fingertips. Basic visualization tools include zoom, pan, and window level adjustments; distance and angle measurements; case workup saving; side-by-side study comparisons; and the ability to create DICOM or JPEG images from any window, including 3D. Advanced visualization tools encompass dynamic 3D renderings, multiplanar reconstruction views, and SimX views. Dynamic 3D renderings allow free rotation to visualize the volume from any angle, peeling away or building on skin for clinical assessment, and scrolling through the volume slice by slice. MPR views enable the rotation of planes to create custom reformats on the fly, synchronized navigation of coronal, axial, and sagittal slices, and adjustment of slice thickness to create custom slabs. SimX views generate digitally reconstructed radiographs from CT data. -
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Zegami
Zegami
Deliver explainable imaging AI faster and more accurately with Zegami. Our full-stack service enables researchers, data scientists and medical practitioners to deliver explainable imaging AI with greater efficiency and accuracy. Our team and tools become your data science plug-in, to create, enhance and validate machine learning models in healthcare, life sciences and manufacturing, to drive your business or project forward. -
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Simplant
Dentsply Sirona
Guided surgery for your choice of implant systems. Simplant delivers predictable 3D implant treatment solutions, enabling outstanding prosthetic results as planned. Simplant solutions are cost-effective, user-friendly and uniquely compatible with the brands and equipment that clinicians already know and use. This computer guided implant treatment is compatible with over 10,000 implants from more than 100 brands, as well as all DICOM compatible CT scanners and major optical and intraoral scanners. From dental scanning and planning, to drilling and implant placement, to Immediate Smile temporary restorations delivered prior to surgery, Simplant offers clinicians a comprehensive 3D system for predictable implant treatment. -
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Vitrea
Canon Medical Informatics
Vitrea software is a multi-modality vendor agnostic advanced visualization system providing comprehensive applications in a variety of IT environments – from single-site to multi-site standardization. Vitrea Advanced Visualization can help you standardize and consolidate your radiology IT footprint. Global Illumination is an alternate 3D rendering technique to help provide a more photorealistic view of human anatomy. Users are able to acquire and share these images for communication and education. Advanced imaging tools, such as in-suite 3D viewing and semi-automated measurements, provide physicians with patient information anywhere, anytime. Radiologists can share images throughout their enterprise.
