Alternatives to D2P

Axial3D is committed to enhancing personalized healthcare by revolutionizing the industry with its innovative 3D medical imaging and tailored patient solutions, thereby making individualized surgical care both routine and scalable. Their proprietary AI-driven platform, which operates in the cloud, enables medical device manufacturers, imaging specialists, and healthcare facilities to utilize rich data for creating precise 3D models that facilitate better surgical planning, lead to improved patient outcomes, and streamline workflows. Among the offerings are 3D visualizations, mesh files, print-ready files, and actual 3D printed models, all crafted to seamlessly fit into current medical practices. By transforming intricate DICOM images into accurate, actionable 3D representations, the company significantly enhances efficiency, speed, and scalability in the development of patient-specific devices. The cloud-based platform uniquely equips surgeons with a detailed perspective of their patient’s anatomy before surgery, thereby improving the accuracy and precision of surgical planning far beyond what traditional 2D imaging can provide. This advancement not only benefits individual patients but also paves the way for broader applications in the medical field.

ProtonPACS, a picture archiving solution, manages image storage, distribution, and optimizes workflow throughout the organization. It offers front and back-end patient management solutions that reduce manual and/or duplicate patient information entry. Integration of HL7 to information systems (EHRs, RISes, etc.) The platform includes this feature. ProtonPACS includes Intelerad's Inteleviewer. This diagnostic viewer gives radiologists and other healthcare professionals the tools to optimize images and change layouts, measure critical points, perform image reconstructions, and create key images. Radiologists can use the integrated speech recognition engine and worklist to create reports for referring doctors. Both reports and images are accessible via any web-enabled device from the system's portal. ProtonPACS uses a secure hybrid model that combines on-premise hardware and cloud hosting.

Pro Surgical 3D is a complimentary DICOM viewer authorized by the FDA and created by Stratovan, designed for the examination and manipulation of individualized medical data. This tool allows users to import DICOM images and create detailed 3D visualizations that aid in both surgical preparation and diagnostic assessments. It features sophisticated 3D surface and volume rendering, along with multi-planar reformatting, delivering precise anatomical representations that enhance clinical understanding. Users can easily navigate through 3D models by rotating, zooming, and panning, and they have the ability to take measurements and make annotations directly on the visualizations. The aim of Pro Surgical 3D is to enhance patient outcomes by facilitating thorough preoperative planning, enabling detailed analysis of intricate anatomical features. This software is compatible with multiple imaging techniques, including CT and MRI, and allows users to load DICOM files from their local storage. Additionally, Pro Surgical 3D incorporates user-friendly tools for adjusting thresholds and cropping images to focus on specific areas of interest, making it a versatile asset in the medical field. Its comprehensive features ensure that healthcare professionals can make well-informed decisions during patient care.

Materialise Mimics is an all-encompassing software solution aimed at transforming medical imaging data into precise 3D models, serving a variety of purposes such as custom device development and detailed anatomical studies. This platform includes a diverse array of tools that streamline the planning, designing, and 3D printing processes for models and surgical guides tailored to different levels of complexity, enabling immediate use in clinical settings. Central to the platform is Mimics Core, a sophisticated software designed for 3D medical image segmentation that efficiently transitions from image capture to the creation of 3D models. This functionality aids in virtual procedure planning and is essential to the overall effectiveness of the platform. Additionally, the Mimics Innovation Suite expands the platform's capabilities by offering advanced resources for engineers and researchers. By simplifying the engagement with 3D medical imaging data, it becomes a valuable asset for improving patient outcomes through innovative technological applications. Ultimately, this software provides a crucial bridge between advanced imaging techniques and practical medical solutions.

Fovia's XStream HDVR SDK Suite delivers an extensive array of tools for sophisticated visualization, allowing for effortless integration across multiple platforms, such as enterprise networks, independent workstations, and cloud-enabled mobile applications. Within this suite, users will find features like F.A.S.T. Interactive Segmentation, which supports dynamic 3D segmentation, F.A.S.T. RapidPrint for efficient volume-to-print processes, and F.A.S.T. Cloud SDK designed for advanced visualization in the cloud. These innovative tools empower the creation of tailored workflows and high-performance imaging applications that enhance user experience. Furthermore, Fovia offers a user-friendly API coupled with custom integration support, ensuring that a wide range of needs in the advanced visualization sector are effectively addressed. This commitment to versatility and user satisfaction solidifies Fovia's position as a leader in the visualization technology market.

OSSA 3D is an innovative iPad app tailored to transform CT scans into precise 3D models suitable for printing. This user-friendly software solution in the realm of medical 3D printing empowers healthcare professionals to generate accurate anatomical representations for the purpose of surgical planning and enhancing patient education. With the OSSA3D app, medical providers, regardless of their background in 3D modeling, can swiftly and effortlessly create detailed digital models from medical imaging data using just their fingertips. Our mobile platform facilitates virtual surgical planning, allowing orthopedic surgeons to meticulously outline the procedure steps for their patients, including osteotomy, fracture reduction, screw placement, and plate templating. The software’s automatic plate contouring simplifies the templating process and supports the creation of custom plate designs tailored to individual needs. Additionally, various 3D implant options, such as those for hip and knee replacements, can be easily imported and adjusted for patient-specific applications, enhancing the overall efficacy of surgical interventions. This application not only streamlines the surgical preparation process but also significantly contributes to improved patient outcomes.

3D-DOCTOR is a sophisticated software solution designed for 3D modeling, image processing, and measurement across various imaging modalities, including MRI, CT, PET, and microscopy, as well as scientific and industrial applications. It accommodates both grayscale and color images in multiple formats such as DICOM, TIFF, Interfile, GIF, JPEG, PNG, BMP, PGM, MRC, RAW, and more. This powerful software generates 3D surface models and performs volume rendering from 2D cross-sectional images in real-time on your computer. Users can export polygonal mesh models in various formats, including STL, DXF, IGES, 3DS, OBJ, VRML, PLY, and XYZ, making it suitable for applications like surgical planning, simulation, quantitative analysis, finite element analysis, and rapid prototyping. In addition, it allows for 3D volume calculations and other measurements crucial for quantitative insights. The vector-based tools enhance the ease of handling image data, facilitating measurement and analysis efficiently. Moreover, 3D CT and MRI images can be re-sliced along any chosen axis, and it is capable of registering multi-modality images to produce comprehensive image fusions, ensuring a versatile approach to imaging challenges.

OsiriX is a highly esteemed medical imaging software designed for viewing DICOM (Digital Imaging and Communications in Medicine) files, catering especially to healthcare professionals who require efficient management and analysis of medical images. This versatile platform boasts capabilities for 2D, 3D, and 4D visualization, complemented by sophisticated post-processing tools that enhance diagnostic precision. Its advanced features, including volume rendering and detailed image manipulation, make it a preferred choice among radiologists, clinicians, and researchers worldwide. Available in two versions, OsiriX provides a free (Lite) option alongside a paid (MD) version that includes enhanced functionalities and necessary certifications for clinical application, such as FDA and CE approvals. Additionally, the software's user-friendly interface and robust performance contribute to its widespread adoption in the medical community.

Fujifilm's Synapse 3D represents a cutting-edge visualization solution that has been crafted in conjunction with a variety of medical professionals, including radiologists, cardiologists, and surgeons, providing more than 50 applications designed to improve both the accuracy and efficiency of diagnoses. This platform features advanced server-side technology that accommodates both cloud and on-premise hosting, enabling sophisticated image analyses that aid in interpretation, reporting, and treatment planning while promoting effective clinical collaboration throughout the organization. It addresses specialty fields such as cardiology, pulmonology, oncology, urology, neurology, and gastroenterology, showcasing its versatility. The architecture of Synapse 3D is scalable, allowing for unlimited expansion, and its reliable workflows boost overall productivity while catering to extensive visualization requirements through specialized applications. The platform also includes native cardiology features that enhance cardiac care, and its AI-driven detection capabilities significantly enhance the accuracy and efficiency of interpretations. Additionally, Synapse 3D offers seamless integration with Fujifilm's Synapse Enterprise PACS, making it an invaluable resource for healthcare providers seeking to optimize patient outcomes. With these comprehensive features, it stands to revolutionize the way medical imaging is approached in clinical settings.

Brainlab's Elements Spine Stereotactic Radiosurgery (SRS) represents a cutting-edge software solution aimed at refining the management of spinal metastases. This innovative workflow features automation at each phase, encompassing anatomical mapping, curvature adjustments, and target identification, which guarantees precision and uniformity down to submillimetric levels. A distinctive algorithm addresses variations in spinal curvature, thereby improving the accuracy of image fusion. The software employs automatic segmentation of spinal anatomy through a patented synthetic tissue model that effectively identifies and labels different spine levels for accurate dose calculations. Tools for outlining spinal tumors are included for Gross Tumor Volume (GTV) contouring, along with automatic suggestions for the Clinical Target Volume (CTV) and a cropped spinal canal object in alignment with International Spine Consortium Guidelines. Furthermore, the integration of AI-driven contouring solutions allows for the swift and dependable delineation of over 200 structures, including lymph nodes. This advancement not only streamlines the treatment process but also enhances overall patient outcomes in spinal cancer management.

Harness the capabilities of Simpleware software to effortlessly handle 3D and 4D imaging data sourced from MRI, CT, and micro-CT scans. Explore your data through sophisticated visualization techniques, thorough analysis, and precise quantification methods. Develop accurate models that are primed for design, simulation, and 3D printing processes. The latest Simpleware W-2024.12 update enhances the software's integration of AI-driven segmentation tools and optimized design functionalities, significantly speeding up your 3D image processing and analytical workflows. Our cutting-edge platform for 3D image processing and model creation enables the transformation of 3D and 4D image data into products and workflows that integrate effortlessly with design and simulation applications. With a user-friendly interface, you can quickly access all necessary tools and features. Conduct extensive analyses of even the most intricate 3D image datasets, ensuring the generation of top-tier design and simulation-ready models that meet your exacting standards. This advancement allows users to leverage the latest technology for better results in their projects.

Studycast is a cloud-based PACS and imaging workflow platform that helps providers work faster and more securely. Clinicians can access diagnostic-quality images, document findings, and create structured reports from any location. Its intuitive design streamlines the entire process from exam to archive, improving efficiency, reducing costs, and supporting quicker patient care. As a true cloud-native system, Studycast requires no complex installations or expensive hardware. It provides secure access from any internet-connected device and unifies the full imaging workflow within one simple platform. The workflow is fully end-to-end: orders route directly to imaging equipment, studies upload automatically to the cloud, and technologists complete before sending cases to physicians. Automatic alerts notify clinicians when studies are ready, reducing delays. Physicians can review cine loops, compare images, annotate diagrams, take measurements, and sign reports digitally from any location. More than 120 specialized worksheets (including echo, OB, POCUS, vet, and more) support accuracy and consistency, featuring auto-filled measurements, dropdown fields, and interactive diagrams. Studycast Advisor™ provides guideline-based recommendations to enhance reporting. Providers can log in from desktops, laptops, or mobile devices with secure access to studies and reports. Results can be shared easily with patients and referring providers through HIPAA- and PIPEDA-compliant portals. All data is encrypted and stored across multiple secure sites for redundancy and long-term compliance. Automated archiving ensures information stays protected and accessible. Studycast can be implemented in just a few weeks, with configuration support, unlimited training, and ongoing assistance included.

MiNNOVAA is a company specializing in medical information technology, particularly in the realms of medical imaging software and the exchange of medical images. With the guiding principle of "medical imaging innovation," we stand out for our nimbleness and the state-of-the-art technology we utilize in crafting our solutions. Our main areas of concentration are the development of medical image viewers, enhancement of radiology workflows, and the incorporation of artificial intelligence in diagnostic reporting. Our energetic team comprises around 20 skilled programmers and product managers, alongside professionals in marketing, sales, technical support, call center operations, and administration, all dedicated to driving a meaningful transformation in the field of medical imaging and enhancing individual healthcare experiences. We offer a comprehensive clinical imaging IT solution tailored for mid-sized hospitals and imaging clinics, featuring a wide array of functionalities such as on-premise core PACS software, a DICOM web viewer, multi-platform imaging workstation software, seamless integration with EHR/EMR/HIS systems, and an efficient workflow engine/RIS. Ultimately, our commitment to innovation and comprehensive solutions aims to redefine how medical imaging is approached and utilized within healthcare settings.

Altris AI is an advanced, cloud-based clinical decision support system powered by artificial intelligence, specifically tailored to aid eye care professionals in interpreting OCT scans and making informed decisions. The platform streamlines the identification of pathological OCT scans while recognizing over 70 retina-related pathologies and biomarkers, which include some that are quite uncommon. Features of the system encompass severity detection, analysis of retina layer thickness, layer segmentation, and both automatic and manual measurement capabilities. It is designed to work seamlessly with all OCT devices and accommodates various data formats like DICOM, JPEG, and PNG. Furthermore, Altris AI has received FDA clearance, CE certification, and is compliant with GDPR and HIPAA regulations, thereby upholding rigorous standards for data security and patient confidentiality. By integrating this innovative tool into their practices, eye care professionals can significantly enhance patient triage, improve diagnostic precision, and more effectively track the progression of diseases over time. As a result, the adoption of Altris AI not only streamlines workflows but also elevates the overall quality of patient care in eye health.

Surgeons today face immense pressure as their workload continues to rise, surpassing the number of professionals available to meet the demand. At Enhatch, we are creating an Intelligent Surgery Ecosystem aimed at eradicating inefficiencies that currently plague the operating room. By leveraging AI-driven technology and collecting data throughout the surgical process—from pre-operative assessments to post-operative evaluations—we strive to enhance each surgery continually. Without the integration of Intelligent Surgery into the surgical workflow, surgeons will likely experience heightened burnout and an overwhelming workload. The foundation of every successful surgery lies in effective pre-operative planning, which includes gathering critical patient information, transforming 2D images into detailed 3D models, and enabling seamless collaboration among surgeons before the actual surgery. This approach not only simplifies information sharing among the surgical team, thereby boosting their confidence, but also facilitates intelligent sizing, which minimizes the need for excessive inventory during the procedure and leads to better surgical outcomes. Ultimately, adopting this innovative ecosystem is essential for the future of surgical practices and the well-being of surgeons.

ARVIS (Augmented Reality Visualization and Information System) is an innovative surgical guidance device that is worn by orthopedic surgeons to facilitate procedures such as total hip, total knee, and unicompartmental knee arthroplasties. By employing cameras positioned at the surgeon's eye level, ARVIS is capable of tracking reusable markers on the patient, delivering precise, real-time navigation assistance in a hands-free manner right at the surgical site. This advanced system eliminates the reliance on pre-operative imaging, thus streamlining the surgical workflow and offering cost benefits relative to traditional robotic systems. The specially designed augmented reality eyepiece integrates stereo infrared tracking cameras and a 3D AR display, all powered by a robust mobile processor, ensuring that surgeons can concentrate on the patient without the distraction of external displays. Additionally, ARVIS operates using hands-free gaze and voice commands, reducing potential line-of-sight challenges and enhancing its integration into existing surgical procedures. Its innovative approach not only improves efficiency but also elevates the overall experience for both the surgeon and the patient.

Realize Medical's Elucis is an FDA-approved extended reality platform that simplifies the segmentation of images, promotes collaboration among remote teams, and allows for procedural planning in a virtual reality space. Elucis is capable of handling an unlimited number of 3D and 4D CT and MR images, ensuring thorough project integration. It boasts cutting-edge image processing features, including both manual and automatic registration, as well as the display of images in 2D, 3D, and 4D formats. The platform’s segmentation tools are engineered for efficiency and user-friendliness, enabling precise measurement, cutting, and planning tasks directly in a virtual environment. Additionally, Elucis includes advanced 4D modeling capabilities that permit intricate segmentation of cardiac structures in mere minutes, regardless of the phase. Users have the flexibility to import 3D structure files from external sources and can easily export their work with a single click. Furthermore, the platform enhances teamwork by allowing multiple users to connect seamlessly with local or remote colleagues throughout the entire workflow, making it a versatile tool for medical professionals. This feature not only streamlines communication but also ensures that all stakeholders can contribute effectively to the project.

HeartFlow offers a groundbreaking, non-invasive cardiac test that delivers detailed visualizations of individual coronary arteries, allowing doctors to develop more tailored treatment strategies for their patients. The process begins when a patient has a standard coronary computed tomography scan performed at a medical facility. Following this scan, the CT images are securely sent to our cloud-based system. Utilizing cutting-edge algorithms powered by artificial intelligence, we create a customized digital representation of the patient's coronary arteries. Our skilled analysts then review this model, making necessary adjustments to ensure accuracy. After finalizing the patient-specific model, the HeartFlow pathway employs physiological principles and computational fluid dynamics to analyze blood flow and compute FFRCT values throughout the model. We adhere to strict and well-established protocols throughout this entire process, ensuring uniform processing for every individual patient, which ultimately enhances the quality of care provided. This innovative approach not only improves diagnostic precision but also empowers healthcare providers to make informed decisions for optimal patient outcomes.

Brainlab's Elements Multiple Brain Metastases SRS represents a cutting-edge software solution aimed at optimizing the planning and execution of treatment for patients suffering from multiple brain metastases. This innovative workflow allows healthcare providers to target several metastases at once without subjecting the entire brain to radiation, thus significantly shortening the duration of treatment delivery. The procedure starts with pre-planning steps that are supported by automation, which includes tasks like image fusion, distortion correction, object outlining, and segmentation; all of which enhance both the speed and precision of the planning process. The software utilizes inverse-optimized dynamic conformal arc techniques, focusing on a single isocenter to achieve highly conformal dose distributions with sharp gradients, ensuring accurate target coverage while protecting surrounding healthy tissue. This method facilitates the rapid generation of consistent, high-quality radiosurgery plans within minutes, ultimately benefiting clinicians and patients alike by reducing treatment durations and enhancing overall outcomes. Moreover, the efficiency and effectiveness of this software can lead to improved patient satisfaction and a more streamlined clinical workflow.

EchoPixel's True3D software platform generates a holographic digital replica of a patient's heart, which allows surgical teams to analyze and strategize using a virtual model prior to making any incisions. This innovative technology addresses the constraints of traditional 2D imaging by offering a 4D interactive holographic environment that provides real-time insights on the positioning of catheters and implantable devices in complex anatomical settings. True3D finds its application in various clinical scenarios, including congenital heart anomalies such as MAPCA, PA reconstruction, DORV, ASD, VSD, and CAVC, as well as in structural heart interventions like LAAO, transseptal cross, TMVR, and TAVR. Leading medical institutions around the globe, including Miyazaki University Hospital in Japan, have embraced this platform, which has also achieved medical device registration in Japan. By utilizing True3D, healthcare professionals can deepen their comprehension of three-dimensional anatomical relationships, which may lead to shorter procedure durations. Furthermore, the ability to visualize a patient's heart in such detail can significantly enhance preoperative planning and ultimately improve patient outcomes.

VolView is an open-source tool designed for radiological professionals, enabling them to visualize DICOM data in three dimensions through interactive cinematic volume rendering. This application runs directly in web browsers, allowing secure data handling as files remain on the user's device without requiring installation. Supporting a convenient drag-and-drop interface for DICOM files, VolView excels in delivering high-quality and interactive 3D renderings. Users can explore various color presets, modify lighting and transparency settings, crop images, and engage with 3D data for enhanced understanding. The platform features both standard 2D and 3D controls, measurement tools, and annotation capabilities, with continual updates made in response to user suggestions. As it operates locally, VolView harnesses the processing power of the user's CPU, GPU, and disk space, avoiding reliance on external servers or cloud services. Additionally, being open-source, it remains freely available to healthcare professionals, promoting wide accessibility and collaboration in the clinical community. This empowers clinicians to utilize advanced visualization techniques in their diagnostic processes.

Vesalius3D is an advanced software solution designed for exceptional 3D visualization and exploration of personalized anatomical structures specific to individual patients. This tool enables users to visualize intricate details of patient anatomy that may be overlooked when relying solely on traditional 2D imaging slices. With its user-friendly interface, the software allows for quick navigation within the patient’s anatomy, providing a seamless experience. Importantly, Vesalius3D operates with standard medical imaging modalities like CT, MRI, and Ultrasound, eliminating the need for specialized scans. It includes presets tailored to the most frequently encountered tissue types. Additionally, the software features preconfigured visualizations that let users immediately access results without the hassle of manual adjustments, focusing on commonly used tissues. Beyond visualization, Vesalius3D includes an array of measurement tools, offering both 2D quantification options—such as measuring distances, angles, and contour areas—and 3D quantification capabilities to analyze shapes, contours, and spatial relationships accurately. This comprehensive suite of features empowers healthcare professionals to gain deeper insights into patient anatomy efficiently.

MaestroAR® offers specialized learning experiences in 3D augmented reality through its dV-Trainer® and FlexVR™ robotic surgery simulators. By utilizing recordings of actual surgical procedures, MaestroAR® enables learners to engage deeply in the surgical experience, operating virtual robotic tools to manipulate anatomical structures within an enhanced 3D video environment. This innovative platform not only fosters a deeper understanding of procedures but also cultivates critical decision-making abilities. Guided by esteemed robotic surgery educators, trainees receive comprehensive, step-by-step instruction throughout a complete robot-assisted surgical process. As they navigate the simulation, learners manipulate lifelike 3D robotic instruments to respond to procedural inquiries, recognize and engage with various anatomical areas, and practice essential skills in a virtual reality setting. This immersive approach enhances both knowledge retention and practical application in the field of robotic surgery.

Surgical Science stands out as a premier provider of medical simulation training and software solutions, with a commitment to improving patient safety and healthcare results through personalized, validated simulations. By offering high-fidelity simulations, they allow healthcare professionals to refine their skills—ranging from fundamental techniques to the management of intricate cases—safely, without exposing patients to risk. Renowned by surgeons, clinicians, and healthcare teams globally, Surgical Science's evidence-based simulations contribute to enhanced patient care on a daily basis. With over 8,000 simulators in operation, spanning more than 150 medical procedures and backed by over 400 validated studies, their influence is considerable. Their ready-to-use simulators, combined with evidence-based customizable curricula, empower healthcare professionals and teams to advance their expertise, foster professional development, and ultimately enhance the quality of patient care and safety. Furthermore, the integration of these advanced simulation tools into training programs has revolutionized the way medical professionals prepare for real-world challenges, ensuring they are equipped to provide the best possible care in critical situations.

For more than ten years, TraumaCad software has provided orthopedic surgeons with the ability to visualize their anticipated outcomes before beginning procedures, thereby facilitating seamless surgical processes from initiation to completion. This software boasts a comprehensive digital library of templates and encompasses a wide array of measurement tools suitable for every aspect of the orthopedic field, including Total Hip Replacement (THR), Total Knee Replacement (TKR), trauma cases, pediatric procedures, deformity correction, foot and ankle surgeries, spinal interventions, and upper limb treatments. Users can benefit from a range of automated features, such as image recognition for precise calibration and Auto planning for Total Hip and Knee Replacement procedures, which streamline the planning process. Additionally, regular automatic updates guarantee that you are using the most current software version and template resources available. Pre-operative reports can be generated with ease, encapsulating patient images, implant details, measurements, and additional notes, ensuring that all relevant information is organized and accessible for review. This blend of functionality and innovation ultimately enhances the overall efficiency and effectiveness of surgical planning in orthopedic care.

Our innovative mobile visualization platform, recognized with awards, allows healthcare professionals to work together and make diagnoses while accessing and sharing 2D/3D medical images seamlessly across various devices. With secure data access from any location, there's no need to transfer or duplicate original files. This platform is selected and relied upon by some of the largest and most cutting-edge healthcare institutions globally. Designed by clinicians for their peers, the ResolutionMD enterprise viewer enhances patient care and optimizes workflows through features that comply with HIPAA regulations, alongside robust mobile functionality. With FDA Class II certification and other international accreditations, you can confidently make diagnoses using both mobile and web applications, ensuring high-quality care for patients everywhere. This innovative approach not only improves efficiency but also fosters a collaborative environment among healthcare providers.

Brainlab's Elements Cranial Stereotactic Radiosurgery (SRS) represents a cutting-edge software tool aimed at simplifying the intricate planning involved in cranial surgeries, including procedures for arteriovenous malformations, pituitary adenomas, and vestibular schwannomas. This workflow incorporates automation throughout each phase, encompassing image fusion, distortion correction, object outlining, and segmentation, which collectively ensure remarkable accuracy and reliability at a submillimeter level. A standout feature is the patented 4Pi arc setup optimization, which, when paired with a volumetric modulated arc therapy algorithm tailored for radiosurgery, results in superior plan quality by delivering precisely targeted doses while sparing vital surrounding structures. The software further provides distinctive 3D visualizations and reliable dosimetric outputs, significantly improving the precision and efficiency of treatment planning. Moreover, Elements SmartBrush facilitates swift and straightforward 3D target outlining, enabling users to define volumes efficiently using only two slices, thus enhancing overall workflow productivity. This innovative approach not only streamlines the planning process but also enhances the accuracy of treatment delivery in complex cases.

Caas MR 4D Flow is expertly crafted to efficiently extract pertinent data from 3D phase-contrast MR images with minimal effort. Utilizing these advanced images, it provides two innovative 4D Flow modules that facilitate comprehensive flow analysis, which is instrumental in the assessment and interpretation of cardiovascular MR images, as well as in strategizing the timing and nature of interventions. One of these modules focuses on evaluating blood vessels, ranging from major arteries like the aorta to smaller vessels such as those found in the kidneys, while the other specializes in assessing heart valves concerning regurgitation fraction. Among the significant outputs are the visualization of aortic blood flow presented as streamlines, pathlines, and color-coded vectors; detailed mapping of wall shear stress alongside localized wall shear stress values; measurement of pressure differences across specific segments; and the visualization and quantification of regurgitant fractions for all four heart valves, in addition to conducting 2D flow phase-contrast analyses. This comprehensive approach not only enhances understanding but also significantly aids clinicians in making informed decisions regarding patient care.

PeriopSim is an innovative medical simulation training tool tailored for perioperative nurses and surgical teams, enabling them to safely familiarize themselves with instruments and procedures prior to actual surgeries. This application features comprehensive step-by-step instructions accompanied by authentic surgical footage and voice guidance, creating an immersive learning experience. Its primary goal is to shorten the orientation period for novice nurses, equipping them with the knowledge they need before stepping into the operating room, which subsequently boosts their confidence when handling unfamiliar surgical tasks. Moreover, PeriopSim offers extensive analytics reports that monitor both individual and group learning trajectories, facilitating effective training while promoting cost-efficiency through the secure sharing of iPads among various student groups, teams, or departments. The development and validation of PeriopSim involved collaborative research with surgeons, nurses, and educators, and it has gained traction, being implemented in over 200 healthcare facilities across the nation. This widespread adoption underscores the application's effectiveness in enhancing the training experience for surgical staff.

Medis Suite XA serves as our comprehensive solution for X-Ray angiography, built upon over three decades of expertise in cardiovascular image analysis. This all-inclusive package features an array of modules, including a user-friendly viewer and various analyses dedicated to coronary and vascular assessments, enabling detailed anatomical evaluations of arteries. It also encompasses analyses for both left and right ventricles along with integrated reporting capabilities. Among its offerings are advanced analyses for coronary and peripheral vessels (QCA and QVA) as well as left and right ventriculograms (QLV and QRV). A standout feature is the innovative QFR® analysis, which evaluates the functional significance of lesions without requiring adenosine or a pressure wire. Moreover, the suite allows for seamless integration within the healthcare IT infrastructure, ensuring effortless connectivity with the DICOM network, thus enhancing workflow efficiency and patient care. Ultimately, Medis Suite XA represents a significant advancement in the field of cardiovascular imaging.

Organize your 3D models in the cloud for easy access from any location, allowing you to upload your .stl files for slicing or even use pre-sliced .gcode files. Our online STL viewer enables you to add and modify your designs effortlessly, while you can print wirelessly through an elegantly designed and user-friendly interface. Slice your models with confidence using recommended settings from manufacturers. As everything is browser-based, there’s no need for software installations or ongoing updates. With the AstroPrint mobile app, you can activate your WIFI 3D Printer to print from any device, control your 3D printer remotely, and receive push notifications when your prints complete. Additionally, you can monitor real-time print progress and even add a camera to stream live video, capture snapshots, or create timelapses. Whether you are managing a 3D Print Farm Business, representing a large university with over a hundred printers, or working with a major enterprise like Stanley Black and Decker, our services are tailored to meet your needs. This versatility ensures that users across various sectors can effectively manage their 3D printing tasks with ease and convenience.

The latest update, Creality slicer-4.8.0, introduces support for the Portuguese language across all Creality FDM 3D printers, although it is exclusively available for Windows users; Mac users are advised to opt for the Cura software instead. As a prominent manufacturer in the 3D printing sector, Creality specializes in the development of both FDM and resin 3D printers, alongside a range of 3D printing filaments and related maker products. Established in 2014, Shenzhen Creality 3D Technology Co., Ltd. is committed to the design, research, and production of cutting-edge 3D printing technology. Our dedicated R&D team, comprised of experienced engineers and researchers, diligently works to innovate and enhance user experiences with our products. Investment in research and development spans various areas, including FDM and resin 3D printers, 3D scanners, filaments, and even 3D printed drones and robots, all supporting the STEAM education initiative. We aim to educate and empower individuals about the fascinating world of 3D printing technology, inspiring them to create and realize their innovative dreams. Ultimately, our vision is to transform imaginative ideas into tangible realities for creators everywhere.

Slice:Drop is an interactive online platform designed for viewing medical imaging data in three dimensions, enabling users to swiftly examine scientific and medical imagery. It seamlessly accommodates various scientific file formats, including volumetric data, models, and fibers right from the start. Users can effortlessly drag and drop their medical imaging files onto the site, eliminating the need for any file conversions, allowing for immediate rendering. The platform utilizes WebGL and HTML5 canvas technology to visualize data in both 2D and 3D while employing its proprietary open-source toolkit known as XTK. Importantly, all data processing occurs on the client side, which means no information is transmitted over the internet, thereby safeguarding privacy and security. Furthermore, Slice:Drop provides a range of functionalities, such as adjusting 3D opacity, configuring window/level settings, implementing thresholding, and controlling label map opacity for volumetric data; as well as managing show/hide options, opacity settings, and scalars for mesh data; and applying show/hide features and fiber length thresholds for fiber visuals. This makes it an invaluable resource for professionals in the medical field who require efficient and secure access to imaging data.

InsiteOne serves as a holistic platform for enterprise imaging, integrating medical imaging, data oversight, and diagnostic processes into a single, cloud-capable solution. The platform features a vendor-independent archive designed to hold imaging and clinical information across various departments such as radiology, cardiology, and pathology, while adhering to standards like DICOM, FHIR, and IHE to ensure smooth interoperability. It can be utilized in various deployment models, including on-premises, public or private cloud, or hybrid environments, facilitating centralized data storage, automated lifecycle management, enriched metadata, and robust encrypted data protection along with geographically diverse disaster recovery options, thereby safeguarding an immense volume of clinical images and patient information. In addition to its storage capabilities, InsiteOne enhances enterprise imaging accessibility by allowing clinicians to view diagnostic images through a zero-footprint, browser-based viewer compatible with desktops, tablets, and mobile devices, enabling them to conduct measurements, engage in 3D volume rendering, and perform detailed reviews without the necessity of specialized workstations. This comprehensive approach not only simplifies the imaging process but also significantly improves the efficiency of clinical workflows.

CaptureITPro is an all-encompassing software solution for medical imaging and reporting, created by AmbalSoft to streamline the processes of capturing, storing, and managing high-resolution medical visuals and videos. This software is compatible with a diverse array of medical instruments, which include endoscopes, laparoscopes, bronchoscopes, gastroscopes, colonoscopes, cystoscopes, arthroscopes, and surgical microscopes. Users can record images in several formats such as BMP, JPG, and DICOM, while video recordings are available in AVI and MPEG formats. CaptureITPro excels in high-definition video capture, accommodating resolutions up to 1080p at frame rates of 50/60fps, employing H.264 compression for optimal storage efficiency. Additionally, it boasts a Picture-in-Picture feature that allows multiple video sources to be viewed simultaneously, thereby improving the clarity and understanding of medical procedures. The software is fully compliant with DICOM standards, which facilitates seamless integration with Hospital Management Systems (HMS) and Picture Archiving and Communication Systems (PACS), and it is capable of supporting modalities like ultrasound for comprehensive medical imaging solutions. Furthermore, CaptureITPro's user-friendly interface enhances workflow efficiency by simplifying the management of complex imaging tasks.

Fovia Ai's F.A.S.T. aiCockpit serves as an AI viewer that enhances navigation, visualization, and interaction with AI-generated results from various vendors and algorithms through a unified user experience that minimizes the number of clicks needed. This platform facilitates the visualization and interaction of all algorithm outcomes within a single, user-friendly interface, significantly improving the workflow for radiologists and clinical professionals. By providing physician-validated insights to AI orchestrators, PACS, and reporting systems, it adheres to the most up-to-date interoperability standards. The system is compatible with multiple AI formats, such as DICOM Structured Reports, DICOM Key Images, DICOM GSPS, and DICOM segmentation objects. Furthermore, F.A.S.T. aiCockpit boasts a cloud-ready architecture, enabling access to AI-assisted radiology results from anywhere at any time via any web-enabled browser. With just one straightforward integration, users can seamlessly complete their AI capabilities without the need to switch between various viewers, thus streamlining their overall workflow even further. This innovative approach not only enhances efficiency but also empowers healthcare professionals to make more informed decisions quickly.

PICOM365 serves as a cloud-based platform for medical imaging, PACS (Picture Archiving and Communication System), and enterprise imaging, enabling healthcare organizations to efficiently store, manage, view, report, and share diagnostic images along with associated clinical data across various specialties and locations, offering secure and scalable access from anywhere at any time. Designed specifically for cloud deployment, with hybrid capabilities, this system effectively consolidates DICOM and non-DICOM imaging workflows within a single platform, thereby eliminating data silos and allowing clinicians to easily access comprehensive patient imaging histories, previous reports, and structured data through a web interface that requires no downloads. Supporting a wide range of imaging disciplines such as radiology, cardiology, vascular care, women's health, and ophthalmology, PICOM365 also integrates effortlessly with EHRs, artificial intelligence tools, analytics, and other third-party systems, thereby enhancing both diagnostic efficiency and clinical collaboration. With its innovative approach, PICOM365 is redefining the way healthcare professionals interact with medical imaging, ultimately leading to improved patient outcomes and streamlined workflows across the healthcare continuum.

Slicing software for 3D printing governs every detail of your print process, converting 3D models into commands that the printer can interpret. Enhanced instructions lead to superior prints, which means that even a minor upgrade in software can significantly improve outcomes. Indeed, over 90% of professionals concur that the quality of 3D printing software is more crucial to print quality than the printer itself! This is why engineers, architects, designers, and researchers depend on Simplify3D to achieve remarkable results while maintaining total control over their printing tasks. Driven entrepreneurs, makers, and designers benefit from robust software features that open up new possibilities, elevating their creations to unprecedented heights. Educators and students utilize a singular software interface to manage all their 3D printing devices. Additionally, an array of extensive online resources continuously engages students, providing them with challenges that foster their learning and development throughout the educational journey. These resources ensure that users remain well-equipped to navigate the evolving landscape of 3D printing technology.

IdeaMaker creates Gcode for 3D printing. It also supports STL, OBJ and OLTP files. It has a user-friendly interface that can be customized for advanced users. IdeaMaker, for example, allows you to adjust the layer height based on the detail level of your printed area. This improves quality and reduces print time. You can also differentiate settings by Modifier, Per Group Setting, or Per-Layer Setting. IdeaMaker also offers customized support, model repair and cut-free service. IdeaMaker can be seamlessly connected to Raise3D’s other resources and tools. RaiseCloud, a cloud-based printer management platform that allows you to automate small batch manufacturing and print remotely. IdeaMaker Library is an open library that allows users to access and share slicing profiles and model files, as well as printing files. IdeaMaker allows users to upload Gcode to Octoprint and connect any 3rd-party open-source 3D printer.

LuxFlow is an advanced software designed for preparing dental 3D prints, significantly enhancing and automating intricate printing workflows, allowing dental practitioners to transition from design files to ready-to-print outputs with ease. It works effortlessly within the LuxCreo ecosystem, simplifying various processes such as automatic orientation, support generation, nesting, and slicing for diverse dental applications and resin workflows, effectively converting traditionally manual preparation stages into a streamlined one-click operation that conserves time and minimizes mistakes. Specifically engineered for dental use, LuxFlow comes equipped with professional-grade settings and smart defaults that guarantee consistent, high-quality results for crowns, models, nightguards, surgical guides, and various other dental appliances. Users have the capability to import common design files and utilize automated features for optimal placement and support configurations, while also having the option to adjust settings for more intricate control as necessary. This makes LuxFlow an indispensable tool for dental professionals looking to enhance their productivity and quality of work in 3D printing.

Our innovative AI solution empowers healthcare practitioners to conduct high-quality ultrasound examinations anytime and anywhere, irrespective of their experience level with ultrasound technology. While ultrasound serves as a reliable and effective diagnostic instrument, mastering its use can be challenging, requiring extensive specialized training and often resulting in variable image quality. The examination process demands precise hand-eye coordination and can be visually unintuitive, complicating the learning curve. Moreover, conventional ultrasound software fails to provide guidance on how to maneuver the ultrasound transducer effectively or offer immediate feedback regarding the clarity of the images obtained. This can lead to subpar imaging, which in turn results in overlooked diagnoses, unnecessary repeat exams, and inconsistent interpretations of the results. Consequently, the full potential and advantages of ultrasound technology have not been completely harnessed. With the advent of our AI-driven technology, any healthcare provider can now effortlessly capture high-quality diagnostic ultrasound images, as the AI assists them throughout each phase of the scanning procedure, ensuring accuracy and efficiency. This advancement not only enhances the diagnostic capabilities of healthcare providers but also promotes better patient outcomes through timely and accurate assessments.

CryptoChart™ offers a secure and efficient method for delivering patient medical images and records through a straightforward yet highly secure CryptoChart code. This code allows patients to access their images at any time and from any location, making it simple to share via text message or email. If you require help with CryptoChart, it’s best to contact the facility where you initially received your information. Empower your marketing team to enhance both patient and physician experiences, providing them with a distinct competitive edge. Alleviate the demands on IT by utilizing a robust 25-character encryption strength, along with a random web access code. The viewer is compatible with all mobile devices and desktops, ensuring convenience. Offer your patients a fast and effortless way to manage and share their personal health information, enhancing their overall experience and satisfaction.

Implement comprehensive clinical decision support across your entire organization. Enhance your PACS and EMR systems to streamline imaging processes and boost patient care quality. We recognize that you manage diverse types of images from various sources, and your patients deserve optimal care. While sometimes a single solution may suffice, achieving an enterprise-wide AI-powered imaging analysis is possible with a contemporary technology framework and an intuitive user interface tailored for all physicians. Whether it's for radiology assessments, procedural planning, or consultations at the point of care, users can utilize a complete range of clinical resources through a robust advanced UI or a straightforward web-based interface. TeraRecon is capable of handling multiple imaging modalities and can support up to 40 concurrent users engaged in sophisticated image processing from one virtual server, whereas competitors typically struggle to accommodate many modalities or users without requiring additional servers. This scalability and flexibility position TeraRecon as a leader in the field of imaging solutions.

Horos is a free and open-source medical imaging application tailored for macOS, providing a comprehensive 64-bit DICOM viewer that caters to the needs of the medical imaging community. Developed from OsiriX 5.8, it serves purposes in research, education, and non-diagnostic medical imaging contexts. This versatile tool can handle a broad spectrum of DICOM files and boasts advanced features like 2D/3D multi-planar reconstruction, surface and volume rendering, and maximum intensity projection. Users can seamlessly view, import, and export studies, measure anatomical structures, annotate images, and utilize filters or adjustments for enhanced visualization. Furthermore, Horos includes anonymization capabilities, DICOM Query/Retrieve functions from PACS servers, and supports plugins and scripting, allowing for extensive customization. The user interface is both intuitive and flexible, making it suitable for beginners and seasoned professionals alike, and it integrates well with educational materials and teaching workflows. Additionally, its ongoing updates and community support ensure that Horos remains relevant and effective for various medical imaging needs.

3dSynth is a creative toolpath synthesizer designed for experimental and artistic 3D printing workflows. Instead of converting meshes into G-code, it generates toolpaths directly using parametric definitions you control. This approach removes the need for mesh repair, slicer tweaking, or intermediate STL files. Users begin by defining a base profile using a spline editor, shaping the object’s silhouette along its height. From there, stackable modulators are applied to mathematically transform the geometry, such as adding waves, bumps, twists, or fractal patterns. Each effect can be limited to specific height ranges, enabling intricate surface detail and variation. The interface provides instant visual feedback with a live 3D preview of the exact print path. Built-in printer profiles ensure exported G-code includes proper start and end sequences. 3dSynth is especially suited for spiral vase printing and other continuous extrusion designs. The result is a fast, expressive workflow focused on form exploration rather than traditional modeling.