When Innovation Comes to Life

On this page, you’ll find detailed tables comparing the different implementations of 3D Organon, including their modules, features, and tools. These tables are designed to help you understand the capabilities and differences of each license, making it easier to select the most suitable option for your needs.

The comparisons cover aspects such as platform compatibility (desktop/laptop PC, mobile, tablet, standalone VR, PC VR), features list, modules, licensing capabilities, performance, and additional functionalities like camera passthrough for VR and more.

By examining these detailed comparisons, educators, practitioners, students, and institutions can make informed decisions to best meet their specific teaching and learning needs and enhance their educational programs.

For the best experience, we recommend viewing this page on a larger screen such as a laptop, PC, or tablet.

Device Implementation

PC
For Windows PCs and Apple Macs, 3D Organon leverages higher processing power and memory for superb content. The UI uses mouse and keyboard for precise navigation, and larger screens enable detailed visualization and multi-window functionality, enhancing the educational experience.
Mobile
Balances performance and visual quality on handheld devices. The touch interface offers intuitive navigation, and responsive design ensures usability across screen sizes. Efficient resource management maintains performance and conserves battery life for an engaging on-the-go experience.
Tablet
The tablet version uses the larger screen for more detailed views and complex interfaces, similar to desktop. Responsive design and intuitive controls enhance usability and educational value.
Standalone VR
Optimized for smooth performance on standalone VR hardware, the app uses controllers or hand tracking for intuitive 360-degree navigation. It supports camera passthrough and manages battery life for extended, immersive educational experiences.
PC VR
Leverages high-end PC hardware for detailed 3D models and superb XR medical imaging. Supports advanced controllers and tracking for precise, immersive interaction while maintaining high frame rates for a smooth VR experience.

3D Organon adapts to various platforms by optimizing performance and user experience.

Modules Comparison for VR

Anatomy
XR Imaging
Quiz
Medverse
Ultrasound
License Type*
The Anatomy module revolutionizes medical learning with immersive 3D models, enabling detailed, interactive exploration and enhanced comprehension of human anatomy.
XR Imaging revolutionizes medical imaging education with immersive, colorful 3D reconstructions from DICOM files, enhancing comprehension through interactive, precise visualizations.
The Quiz module enhances learning with interactive, immersive, hands-on quizzes that test knowledge and offer immediate feedback, improving retention and comprehension effectively.
Medverse revolutionizes medical education with an immersive 3D environment for learning anatomy and ultrasound simulations. It features detailed models, real-time manipulation, and fosters global collaborative learning.
The Ultrasound simulator offers hands-on learning with virtual probes on 3D models, providing realistic ultrasound practice via VR, enhancing diagnostic skills and spatial awareness efficiently.
Standalone VR
Student
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Non-commercial
Standalone VR
Standard
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Commercial
Standalone VR
Premium
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Commercial
PC VR
Standard
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Commercial
PC VR
Premium
Commercial
WebXR
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Non-commercial

*A Non-commercial License is strictly for personal use and cannot be used for any business or commercial purposes, ensuring it is ideal for hobbyists or individual learners. A Commercial License, allows for business use, including educational activities, making it suitable for institutions, educators, and organizations that require the software for professional or instructional purposes.

Overall Features for VR

High quality graphics
Built in multilanguage
Visualization in immersive VR environment
Vizualization in standard 3D environment
Environment colors
Environment scenes
Medverse network Join
Medverse network Create
Visual package update
Language package updates
Option to select between High quality (default) or Standard quality (for older devices) graphic output.
16 languages multilingual support, enabling users worldwide to learn in their preferred language for enhanced accessibility.
Visualizing educational software on PC, tablet, and mobile devices offers convenient, interactive learning with easy access to resources and the ability to study anytime, anywhere
Visualizing educational software in a VR environment offers immersive, interactive experiences that enhance engagement, understanding, and retention of complex concepts.
The multiple Environments selector function allows users to choose from different 3D environments, each with distinct background colors. This feature enhances the visualization experience by providing various settings that can improve contrast and visibility of anatomical structures. Users can select environments that best suit their preferences or specific learning contexts, making it easier to focus on and distinguish between different anatomical details.
The multiple Environment Scenes selector allows users to choose different 3D environments, changing the background color and overall scene. The feature expands this by transforming the entire virtual room setup, including objects and furniture. This immersive function contextualizes anatomical models in various settings, like a clinical room or a lecture hall, enhancing learning and presentations with realistic scenarios and interactive environments.
Join any Medverse live session.
Enables instructors create remote delivery sessions on a Medverse.
The Visual Package Update automatically updates the system each time the app launches. It retrieves update files that enhance models and app functions, ensuring users have access to the latest anatomical information and features. This ensures that the app remains current and optimally functional, providing users with improved accuracy and usability over time.
The Language Package Updates automatically updates language files for anatomical terms and the user interface whenever the app is launched. It retrieves update files that ensure translations are current and accurate, enhancing user experience by providing localized content in multiple languages. This feature ensures that users can navigate and learn from the app effectively in their preferred language, promoting accessibility and usability across diverse global audiences.
Standalone VR
Student
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Standalone VR
Standard
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Standalone VR
Premium
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PC VR
Standard
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PC VR
Premium
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WebXR
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Anatomy Features for VR

Diagram
Body Systems
Topographic Anatomy
Regional Anatomy
Microscopic
Body Actions
Anatomical Terminology
Anatomy Definitions
Cadaver Images
Clinical Correlations
Search Box
Bone mapping
Organ mapping
Nervous system mapping
Lock
Outline
Views
Augmented reality function
Mixed reality camera passthrough
Multiselect
Objects breadcrumb
Tumor / Growth
Spurs / Osteophytes
Pain
Slicing
Drawing
3D Drawing
Screenshot
Explode
Note Taking
Record video
Record 360o video
Web Browser
Custom Scene save
Unique breadcrumb diagram feature, which generates detailed, visual pathways of body systems. This function meticulously outlines every part of each system, providing users with an in-depth understanding of anatomical connections and hierarchies. This immersive tool aids in both learning and teaching by visually breaking down complex anatomical structures into manageable and comprehensible segments.
A dynamic body system view, allowing users to toggle entire body systems on or off. This function enables a focused study of individual systems by hiding others, providing a clear and unobstructed view. It enhances learning by simplifying complex anatomical structures, making it easier to understand the spatial relationships and interactions within the human body.
The topographic anatomy layout, presenting body regions in an organized, map-like format. This function simplifies the selection of desired models. The intuitive layout enhances navigation and learning by providing a clear, visual representation of anatomical regions, making it easier to isolate and study particular parts of the body.
The regional anatomy layout organizes the body into distinct regions, inspired by traditional anatomy atlases. This function hosts collections of popular anatomical models, enabling users to explore specific areas in detail. By grouping related structures together, it enhances the learning experience, making it easy to access and study complex anatomy in a structured and intuitive manner.
Features a unique function that presents microscopic anatomy models in a full-thickness digital histology layout. This immersive feature allows users to explore detailed, 3D representations of tissues at the microscopic level. By providing a comprehensive view of cellular structures and their spatial relationships, it enhances understanding of histology and integrates seamlessly with macroscopic anatomy studies. This function offers an unparalleled depth of detail, facilitating advanced learning and research in microscopic anatomy.
It showcases body actions comprehensively, detailing all motions of muscles and their muscle fiber bundles in separate views. Additionally, it includes actions of other organs, offering a holistic understanding of physiological processes.
Supports simultaneous display of up to two different languages.
It features detailed anatomical definitions for each selected structure, providing comprehensive information and enhancing understanding of anatomical specifics.
Image collection of dissected cadavers organized per body region
Common clinical correlations organized per body system. Aids comprehension of pathologic anatomy.
Enhanced search functionality provides detailed results ranging from organs to individual anatomical structures, facilitating precise exploration and learning.
The Bone Mapping function provides a detailed view of bones, highlighting borders, parts, landmarks, muscle origins, and insertions. This feature offers comprehensive anatomical insights for enhanced understanding and study of skeletal structures.
The Organ Mapping function allows users to explore organs in detail, showcasing parts, landmarks, impressions, and segments. This feature offers a comprehensive view of organ anatomy, facilitating deeper understanding and study of their structure and function within the body.
The Nervous System Mapping function provides a detailed exploration of the brain, showcasing lobes, gyri, sulci, functional areas, and landmarks. This feature offers a comprehensive view of neuroanatomy, facilitating deeper understanding and study of the brain's structure and functional regions.
The Lock mode tool allows users to selectively lock specific body systems or anatomical structures. Once locked, interactions within the app are restricted to those interrelated with the chosen systems. This feature is particularly useful for focused study or detailed exploration of interconnected anatomical components. It enables users to isolate and examine complex relationships and functions within the body, enhancing learning, teaching, and professional analysis in medical and educational settings.
The Outline tool adds a distinct contour around the skin, aiding in the identification and visualization of anatomical structures. This feature enhances clarity by outlining the body's external boundaries, facilitating easier navigation and understanding of internal anatomical relationships and structures. It serves as a valuable tool for both educational purposes and clinical applications, providing a clear visual reference for studying anatomy and explaining medical conditions.
The Views tool provides button-based navigation of anatomical planes and views, enabling users to quickly switch between different perspectives of the body. This feature allows for immediate access to frontal, lateral, dorsal, and other views, facilitating comprehensive exploration of anatomical structures from various angles. It enhances the learning experience by providing a streamlined way to study and understand the spatial relationships and orientations of organs and systems within the body.
The augmented reality (AR) functions on mobile and tablet devices enhance learning by overlaying detailed anatomical models onto the real-world environment. This allows users to interact with and explore anatomical structures in 3D, making complex concepts more tangible and engaging.
Mixed reality camera passthrough integrates real-world views with overlaid digital content in supported standalone VR devices, enabling simultaneous interaction with physical surroundings and virtual elements for immersive experiences.
Enable selection of multiple structures with options for manipulations such as isolation, fading, and more, enhancing interactive exploration capabilities in the app.
The objects breadcrumb function acts as a navigational aid that reveals detailed relationships when a selected anatomical structure is chosen. This feature allows users to trace hierarchical connections and dependencies within the anatomical model. By selecting a specific structure, users can explore its associated parts, substructures, or related anatomical elements in a detailed and organized manner. This enhances the understanding of anatomical relationships and facilitates comprehensive study and exploration of complex anatomical systems within the app.
This function enables users to simulate tumor placement on 3D models. This feature allows for visualization of tumor growth, aiding in educational purposes for students and patient education. Users can observe how tumors affect surrounding tissues and organs, enhancing understanding of pathological processes and treatment impacts. This interactive tool provides a valuable resource for both learning and explaining complex medical conditions.
The Spurs function allows users to simulate osteophyte placement on 3D models. Designed for educational purposes, this feature helps students and patients understand the formation and impact of bone spurs, particularly in the context of osteoarthritis.
The Pain feature allows users to simulate the placement of pain effects on 3D models. This function is designed for educational purposes, helping students and patients visualize and understand the sources and pathways of pain within the body. By illustrating how pain manifests in various anatomical structures, this feature enhances comprehension of medical conditions and pain management strategies. It serves as a valuable tool for teaching and patient education, making complex concepts more accessible and relatable.
The Slicing tool allows users to section 3D models across any anatomical plane. This feature provides a detailed view of internal structures, enhancing understanding of the relationships between them. It also aids comprehension of anatomical structures as seen in CT and MRI imaging modalities, making it easier to correlate 3D models with actual medical images. This tool is invaluable for both educational and clinical purposes, offering an interactive way to explore and study anatomy in greater depth.
The Drawing tool allows users to draw with color brushes directly onto 3D models. This feature serves as an excellent demonstration tool for teaching, enabling educators to highlight and explain anatomical intricacies, physiological processes, and pathological conditions. By visually marking specific areas on the models, instructors can provide clear, interactive explanations that enhance understanding and engagement in both students and patients.
The 3D Drawing tool allows users to draw with color brushes directly onto 3D models. This tool is an exceptional resource for teaching, enabling educators to highlight and explain anatomical intricacies, physiological processes, and pathological conditions in a virtual reality environment. By visually marking specific areas on the models in a 3D space, instructors can provide clear, interactive explanations that enhance understanding and engagement for both students and patients. This immersive feature makes complex concepts more accessible and facilitates more effective learning and communication.
The Snapshot tool allows users to capture and save images of the 3D models directly to their local device. This feature is ideal for creating visual aids for study, presentations, or patient education. By taking snapshots of specific anatomical views or customized scenes, users can easily reference and share detailed anatomical information, enhancing their learning and teaching experience.
The Explode tool allows users to spread anatomical structures apart from each other, providing a clearer view of their spatial relationships and individual components. This feature is particularly useful for studying complex regions where structures overlap or are closely packed together. By separating these elements, users can gain a better understanding of the anatomy and its organization, making it an excellent tool for both education and detailed anatomical analysis.
The Note tool enables users to create personal notes linked to specific anatomical structures. These notes appear as pop-up annotation labels in 3D Organon that are easily identifiable by the user. This feature facilitates detailed study and personalized learning by allowing users to annotate important information, clinical findings, or study notes directly on the 3D models. It enhances comprehension and retention by providing context-specific information right within the app, making it a valuable tool for students, educators, and healthcare professionals alike.
The screen recording feature allows users to capture videos while using the app. This functionality enables educators and professionals to record demonstrations, tutorials, or presentations of anatomical structures and functions in real-time. These recordings can be shared with peers and students for learning purposes, facilitating remote education, collaboration, and review of complex anatomical concepts. It serves as a powerful tool for enhancing teaching methods and fostering interactive learning experiences
The 360-Degree VR recording feature allows users to capture immersive videos while interacting with anatomical models in a virtual environment. This functionality enables educators and professionals to record comprehensive demonstrations and presentations from all angles within the VR space. These recordings provide a fully immersive experience, allowing viewers to explore anatomical structures in 360 degrees. They can be shared with peers and students for learning purposes, enhancing remote education, collaborative learning, and in-depth study of anatomical complexities. This feature leverages VR technology to deliver a dynamic and engaging approach to anatomical education and professional training.
The Web browser tool allows users to access a web browser directly within the software interface, whether on their device or in virtual reality. This feature is invaluable for accessing additional resources, such as online educational materials, research articles, or cloud-based files, while simultaneously using the app. It facilitates seamless integration of external information into the learning or professional workflow, enhancing productivity and expanding the scope of information available for study or presentation purposes.
The function of Scene save allows users to save personalized configurations of anatomical models, viewpoints, and annotations for future reference or sharing. Scenes can be organized into user defined folders, facilitating efficient study, teaching, or presentation by preserving specific setups tailored to individual needs or educational purposes. This organizational capability enhances usability and workflow management within the app.
Standalone VR
Student
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Standalone VR
Standard
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Standalone VR
Premium
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PC VR
Standard
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PC VR
Premium
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WebXR
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XR Imaging Features for VR

DICOM LIbrary
Cororization
Cororization Presets
Custom Cororization Presets
Rendering, -Options
Rendering, -Detail level
Tissue filtering
Presets customizer
Slicing, -Sliders
Slicing, -Free hand
Cutoff box
Views
The Library file storage allows users to upload patient CT and MRI DICOM datasets for visualization within the app. This feature enables the integration of real patient data into the anatomical models, providing a personalized and detailed view of the patient's anatomy. The uploaded files are anonymized and stored locally on the user's device, ensuring privacy and quick access. This tool is invaluable for medical professionals and students, facilitating detailed analysis, visualization of own diagnosis, and educational purposes by allowing the examination of specific patient cases in a 3D interactive environment.
The Colorized Segmentation function enhances the visualization of imported patient CT and MRI DICOM datasets. This feature allows users to create detailed 3D representations of complex patient anatomy and pathology by segmenting tissues based on Hounsfield Units (HU) values. Different tissues are colorized accordingly, providing a clear and intuitive understanding of various anatomical structures and abnormalities. This advanced visualization aids in accurately identifying and studying different tissues, understanding of own diagnostic capabilities and educational outcomes by offering a vivid and comprehensive view of the patient's unique anatomy.
Multiple presets are available for quick use, and users can create custom presets for specific tissues and organs. This feature enables specialized visualization, taking the understanding of complex anatomies to the next level by providing clear, color-coded distinctions between different anatomical structures and abnormalities.
Users can create their own custom presets for specific tissues and organs, enabling specialized and detailed visualization of complex anatomies.
The Rendering options allows users to select among rendering options that affect the opacity, shading, color schemes, and lighting of 3D models generated from patient CT and MRI DICOM datasets. This customization enables users to highlight specific anatomical structures or pathologies, enhancing the clarity and detail of the visualizations to suit their needs for understanding own diagnosis or education.
This feature includes the ability to finely tune the level of detail presented, allowing users to adjust and optimize the visual complexity of anatomical structures and pathologies. This precision customization ensures that users can achieve the desired level of detail necessary for understanding own diagnosis, comprehensive study, and effective educational presentations.
In addition to the rendering options, we included a Tissue Filtering feature that utilizes Hounsfield Unit (HU) characteristics. This advanced tool enables users to selectively hide or filter out specific tissue types based on their HU values. By applying HU filtering, users can focus on specific anatomical tissues or pathologies of interest while suppressing irrelevant structures, enhancing clarity and focusing the analysis on critical diagnostic or educational objectives. This capability supports a more detailed and nuanced exploration of patient CT and MRI DICOM datasets, catering to diverse clinical and educational needs.
The Presets function allows users to save personalized configurations for coloring and rendering, tailored for specific anatomical analyses. For instance, users can create presets optimized for visualizing liver diseases, highlighting anomalies like tumors or cirrhosis. Similarly, presets for colon pathologies can emphasize conditions such as polyps or inflammation, aiding in detailed examination. For pancreatic diseases, customized presets can focus on visualizing abnormalities like cysts or tumors with enhanced clarity and detail. These presets ensure consistent and effective visualization across different DICOM files, facilitating comprehensive study and understanding own diagnosis of complex anatomical conditions.
The Slicing Sliders function allows users to accurately and interactively slice through rendered 3D DICOM models at any anatomical plane using adjustable sliders. This feature enables precise exploration of anatomical structures by dynamically adjusting the position and orientation of the slicing planes. Users can navigate through different layers of tissues and organs in real-time, enhancing the ability to examine specific regions of interest, visualize complex anatomical relationships, and analyze pathologies from multiple perspectives. This interactive tool supports detailed study, understanding of own diagnosis, and educational presentations by providing a flexible and intuitive method for exploring 3D anatomical data.
The freehand Slicing feature utilizes VR controllers to enable users to accurately slice through rendered 3D DICOM models at any anatomical plane. This interactive function allows for precise exploration of anatomical structures by directly manipulating slicing movements with VR controllers. Users can navigate through different layers of tissues and organs in real-time, facilitating detailed examination of specific regions of interest, visualizing complex anatomical relationships, and analyzing pathologies from various perspectives. This intuitive tool enhances the experience of studying, diagnosing, and presenting 3D anatomical data within a virtual reality environment.
The Cutoff box function allows users to interactively cut through rendered 3D DICOM models using an adjustable box. Users can precisely control where the model is cut by adjusting the size and position of the box. They can choose to include or exclude parts of the model, aiding in focused visualization of specific areas such as closed spaces and cavities. This feature supports detailed examination, understanding of own diagnostic accuracy, and enhances understanding of complex anatomical structures and relationships.
The Views tool provides button-based navigation of anatomical planes and views, enabling users to quickly switch between different perspectives of the body. This feature allows for immediate access to frontal, lateral, dorsal, and other views, facilitating comprehensive exploration of anatomical structures from various angles. It enhances the learning experience by providing a streamlined way to study and understand the spatial relationships and orientations of organs and systems within the body.
Standalone VR
Student
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Standalone VR
Standard
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