Alternatives to Medis Suite XA

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.

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.

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.

Vitrea software serves as a versatile and vendor-neutral advanced visualization platform that delivers a wide range of applications across various IT settings, whether in single-site or multi-site configurations. With Vitrea Advanced Visualization, organizations can achieve standardization and streamline their radiology IT landscape effectively. The use of Global Illumination, a sophisticated 3D rendering method, enhances the photorealism of anatomical images. This allows users to capture and disseminate these visualizations for educational and communication purposes. Moreover, advanced imaging features, including in-suite 3D visualization and semi-automated measurement tools, empower healthcare providers to access patient data conveniently from any location. Furthermore, radiologists have the capability to share imaging results seamlessly throughout their entire organization. This interconnected approach not only improves collaboration but also enhances the overall quality of patient care.

ExacTrac Dynamic brings together advanced tracking technologies to enhance both power and precision in medical treatments. It ensures high-precision care across a variety of patient positioning and monitoring tasks, particularly in areas such as cranial and prostate treatments. The system features groundbreaking thermal-surface camera technology that operates alongside real-time X-Ray tracking to provide exceptional accuracy. By utilizing a 4D Thermal Camera, it generates a reliable hybrid thermal surface by mapping the patient's heat signature to their reconstructed 3D structural data. This process involves the collection of 300,000 distinct 3D surface points, which are then aligned with the thermal camera's heat signals, adding a new dimension to the tracking of patient positioning. Such innovations are set to transform the landscape of precision medicine, offering even better outcomes for patients undergoing treatment.

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.

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.

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.

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.

Us2.ai is revolutionizing the battle against heart disease by utilizing AI-driven ultrasound software that ensures heart health can be accessible to everyone. This innovative platform provides 45 automated echo parameters, such as strain analysis, and enables real-time interpretation of 2D and Doppler images. It seamlessly integrates with any ultrasound machine, producing zero-click, comprehensive reports that maintain high accuracy and can be easily compared with expert evaluations. The AI echo copilot from Us2.ai autonomously analyzes all heart chambers through both 2D and Doppler perspectives, incorporating global reference guidelines into detailed, real-time reports. Recently, the software obtained FDA clearance for Us2.v2, which also boasts 45 automated echo parameters, including strain analysis, representing a remarkable advancement in healthcare technology. Ultimately, Us2.ai aims to democratize echocardiography, ensuring that ultrasound technology is available to individuals regardless of their location or circumstances, thereby promoting better heart health for all. This commitment to accessibility and innovation positions Us2.ai at the forefront of the medical technology landscape.

Qure.ai's qLC-Suite is a cutting-edge AI-driven tool aimed at improving the early identification and management of lung nodules, which is crucial for prompt lung cancer intervention. This solution delivers accurate measurements, thorough characterization, and 3D imaging of lung nodules, ensuring that opportunities for early treatment are not overlooked. It is capable of supporting both incidental and targeted screenings by efficiently identifying nodules and calculating their volume with just one click. Moreover, the system monitors volumetric changes over time, providing valuable insights into nodule development. The qLC-Suite is designed to integrate smoothly into current workflows, offering quick analysis and reporting that assist healthcare professionals in their decision-making processes. In addition to its analytical capabilities, it serves as a comprehensive platform for managing lung nodules, facilitating care coordination through intelligent prompts, providing hardware-agnostic image viewing for AI-enhanced chest X-rays and CT scans, enabling seamless sharing of scans across departments, and allowing for tailored notifications for cases of concern. Overall, qLC-Suite represents a significant advancement in lung cancer care, promoting timely interventions that can ultimately save lives.

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.

Altris AI is an innovative clinical decision support system powered by artificial intelligence and hosted in the cloud, aimed at helping eye care professionals with the interpretation of OCT scans and clinical decision-making. This platform streamlines the identification of pathological OCT scans while being capable of recognizing over 70 different retina pathologies and biomarkers, some of which are uncommon. Among its features are the ability to assess severity, analyze retina layer thickness, segment layers, detect pathologies, and perform both automatic and manual measurements. Altris AI seamlessly works with all OCT devices and accommodates various formats such as DICOM, JPEG, and PNG. The system holds FDA clearance, CE certification, and adheres to GDPR and HIPAA regulations, ensuring robust data security and patient confidentiality. By incorporating Altris AI into their workflow, eye care practitioners can enhance patient triage, improve diagnostic precision, and more effectively track the progression of diseases, ultimately leading to better patient outcomes. Additionally, this advanced technology empowers eye care professionals to make more informed decisions, fostering an environment of improved patient care and treatment strategies.

Founded in 2016, Infervision stands at the forefront of AI-driven medical technology, dedicated to enhancing multidisciplinary healthcare services and operations through innovative artificial intelligence solutions. Their advanced AI offerings are designed to assist healthcare professionals across a spectrum of tasks, including disease screening, diagnosis, intervention, treatment, patient management, and medical research. Among their array of solutions, InferRead CT Lung specializes in detecting lung nodules from chest CT scans, while InferRead DR Chest focuses on identifying chest abnormalities via X-ray imaging. Moreover, InferRead CT Coronary is tailored for recognizing coronary artery stenosis during coronary CT angiography, and InferRead CT Stroke is adept at triaging hemorrhages from brain CT scans. The company also provides InferRead CT Bone for spotting chest fractures in CT images and InferRead CT Pneumonia for diagnosing and managing pneumonia cases. Beyond these, their offerings extend to InferOperate, which facilitates 3D reconstruction for thoracic, liver, and urological surgical procedures, and InferCare, a tool designed for effective patient management and image follow-up. Additionally, InferScholar acts as an AI-enhanced resource for medical research, further solidifying Infervision's commitment to transforming healthcare through AI technology. This comprehensive suite of solutions positions Infervision as a pivotal player in the evolution of medical practices.

Quickly identify the suitable landing zones for the treatment of abdominal aneurysms (EVAR), thoracic aneurysms (TEVAR), or the placement of fenestrated stents (FEVAR). All necessary metrics, including diameter, clock position, volumes, and length, can be acquired through automatically detected centerlines or 3D double oblique imaging. Manufacturer-specific stent order forms are integrated to create PDF files, allowing for straightforward email orders of required stents. Our commitment to enhancing the quality and efficiency of cardiovascular image analysis is focused on improving patient treatment outcomes. We continuously align our product offerings with the latest advancements in cardiovascular technology. This alignment allows us to deliver optimal software solutions to our clients precisely when they need them. Furthermore, we recognize the significance of comprehensive training and support to ensure all users feel confident in their analysis skills. We provide customizable training options designed to meet individual needs and preferences. By fostering a supportive learning environment, we empower our users to excel in their practice.

XDR’s Dental Imaging Software is expertly designed to provide both user-friendly functionality and exceptional diagnostic capability. It features an Exposure Meter that enhances both the capturing and diagnosing processes. Users can effortlessly apply filters such as the Perio, Sharp, and Endo with just a single click. It also allows for cumulative measurements and real-time image viewing during charting, thanks to its Floater feature. The software incorporates a patented Unwarp technology to correct projective distortion, along with Bi-Directional Scaling for precise rescaling. Additionally, it offers a virtual acetate overlay designed specifically for implant planning and supports preformatted text insertion for efficiency. Users can easily select tooth numbers and utilize a misfiled exams finder. This robust software can detect even the faintest lesions and the narrowest files. It consistently ranks among the best in peer-reviewed studies, providing exposure feedback to ensure diagnostic accuracy while adhering to ALARA principles. By leveraging advanced mathematics and radiographic physics, this software stands out as a powerful tool in dental imaging. Ultimately, it enhances the overall workflow and accuracy of dental diagnostics.

AnalyzeDirect is a medical technology firm focused on research, known for its global distribution and support of Analyze, a premier software for advanced biomedical imaging that excels in visualization, manipulation, and measurement. The latest version, Analyze 15.0, provides an accessible and user-friendly interface for image visualization and analysis in medical research, incorporating advanced segmentation tools that enable quick and accurate definition of regions, comprehensive statistical analysis supported by strong measurement capabilities, and effective registration techniques for image fusion across different modalities. Additionally, it comes equipped with a wide range of display tools for reviewing and visualizing images, as well as filtering options for enhancing and optimizing image quality. This software is compatible with more than 45 file formats, including DICOM alongside various standard radiological and neurological formats, making it a preferred choice for a diverse group of users, such as physicians, researchers, educators, and graduate students affiliated with leading medical institutions, universities, pharmaceutical firms, biotech enterprises, medical device manufacturers, and contract research organizations across the globe. The extensive usability of Analyze ensures that it remains a vital resource in advancing medical imaging technologies and methodologies.

The Medical Imaging Suite from Google Cloud is crafted to revolutionize the way organizations handle imaging diagnostics by ensuring that imaging data is not only accessible but also interoperable and beneficial. This suite provides a secure, compliant, and fully managed service to oversee healthcare data in various formats such as FHIR, HL7v2, and DICOM, alongside unstructured text in natural language. Utilizing a cloud infrastructure simplifies the process of storing and sharing extensive collections of medical images that are prevalent in the healthcare sector, making it both efficient and economical. The Cloud Healthcare API facilitates operations to read DICOM instances, studies, and series in alignment with the DICOMweb standard. Furthermore, the suite enhances research capabilities and improves the overall patient experience in healthcare by providing comprehensive solutions for data storage and analysis, among other functionalities. Additionally, it offers guidance on concepts and best practices for the integration of third-party medical imaging viewers with the Cloud Healthcare API, ensuring a seamless experience for users. This holistic approach not only streamlines workflow but also fosters innovation in the medical imaging landscape.

Cardiovascular diseases cause over 20 million fatalities globally each year, with many of these lives potentially saved through timely detection. However, the healthcare system worldwide is often bogged down and constrained by human limitations in conducting thorough analyses. This is where AIATELLA makes a significant impact. Our innovative AI-driven image analysis technology revolutionizes cardiovascular diagnostics by streamlining manual vascular measurements in a detailed and quantifiable manner. Leveraging historical data, we substantially reduce the time, expenses, and expertise required, thereby enhancing the capacity for essential imaging. The AIATELLA solution boosts the speed, accuracy, and precision of diagnostics, providing vital measurements and assessments of disease progression in mere seconds, rather than the traditional hours. Consequently, by elevating the efficiency and reliability of analyses, we empower doctors to dedicate more time to patient care while fostering a new era of preventative and personalized medicine accessible to everyone. Moreover, this advancement signifies a shift toward a more proactive approach in healthcare, where early intervention becomes the norm rather than the exception.

3D-DOCTOR is a sophisticated software solution designed for 3D modeling, image processing, and measurement, tailored for applications in MRI, CT, PET, microscopy, and both scientific and industrial imaging. It accommodates a variety of image formats including DICOM, TIFF, Interfile, GIF, JPEG, PNG, BMP, PGM, MRC, RAW, and more, whether they are grayscale or color images. The software enables the creation of intricate 3D surface models and real-time volume rendering from 2D cross-sectional images directly on your computer. You have the ability to export these polygonal mesh models into formats such as STL, DXF, IGES, 3DS, OBJ, VRML, PLY, and XYZ, which can be utilized for surgical planning, simulations, quantitative analyses, finite element analyses, and rapid prototyping endeavors. Additionally, 3D-DOCTOR facilitates the calculation of 3D volumes and various measurements essential for quantitative research. Its vector-based tools enhance the ease of handling image data, performing measurements, and conducting analyses. The software also allows for the re-slicing of 3D CT/MRI images along any desired axis, with the capability to register multi-modality images, thereby enabling comprehensive image fusions that can lead to enhanced diagnostic insights. Overall, 3D-DOCTOR is an invaluable tool for professionals seeking precision and efficiency in 3D imaging and analysis.

CubeVue software by CurveBeam AI offers an array of robust visualization features that significantly improve dataset analysis, providing users with intuitive tools for interpretation and treatment planning right at their fingertips. Among the basic visualization functionalities are options for zooming, panning, adjusting window levels, measuring distances and angles, saving case workups, comparing studies side by side, and exporting images in DICOM or JPEG formats, including 3D views. More advanced features include dynamic 3D renderings, multiplanar reconstruction (MPR) views, and SimX views. The dynamic 3D renderings provide the flexibility to rotate and visualize the volume from any perspective, allowing users to peel away layers of skin for clinical evaluation and scroll through the volume slice by slice. MPR views facilitate the on-the-fly rotation of planes, enabling users to create custom reformats instantly, synchronize navigation across coronal, axial, and sagittal slices, and modify slice thickness for tailored slabs. Additionally, SimX views produce digitally reconstructed radiographs derived from CT data, enhancing diagnostic capabilities and contributing to better patient outcomes. This comprehensive suite of visualization tools empowers healthcare professionals to make informed decisions during the treatment planning process.

Thermo Scientific Amira Software stands out as a robust, all-encompassing solution for the visualization, analysis, and comprehension of life science and biomedical research data across a range of imaging techniques, including optical microscopy, electron microscopy, CT scans, and MRI. Notable for its rapid processing capabilities and adaptability, Amira Software facilitates sophisticated 2D–5D bioimaging workflows in diverse research domains such as structural biology, cellular biology, tissue imaging, neuroscience, preclinical studies, and bioengineering. Among its essential features are the ability to import and process image data, explore and visualize findings, perform advanced segmentation, and conduct measurement and quantification tasks. Additionally, it includes specialized tools for molecular visualization, object tracking, filament tracing, meshing suited for finite element analysis, diffusion tensor imaging, 3D registration, and examining biomaterial deformation. Furthermore, Amira Software provides options for customization and integration with various ecosystems, including MATLAB, Python, and bespoke C++ solutions, enhancing its versatility for researchers in the field. This comprehensive capability makes it an indispensable tool for those aiming to extract meaningful insights from complex biological data.

Riverain Technologies has developed ClearRead Xray, a suite of five applications that have received FDA clearance, aimed at improving the speed and precision of interpreting chest X-rays within healthcare settings, all without the need for extra equipment, procedures, or exposure to radiation. This innovative platform utilizes specialized suppression technology to create a clear view of the chest, which significantly aids in the swift and precise identification of cardiothoracic conditions. Among its standout features are the generation of bone-suppressed images that enhance visualization, the ability to spot potential lung cancer nodules, a decrease in the time required to read portable X-rays, automatic comparisons with previous examinations to emphasize changes, and compatibility across various imaging devices and protocols throughout the enterprise. Additionally, the ClearRead Xray Bone Suppress feature notably enhances soft tissue visibility by minimizing the presence of bone structures in digital images, thereby assisting radiologists in uncovering nodules that may have previously gone unnoticed. This comprehensive approach not only boosts diagnostic capabilities but also streamlines workflow in busy medical environments.

EMSE is a comprehensive suite of sophisticated and user-friendly software tools designed for measuring, describing, and visualizing the dynamics of the human brain, utilized globally in fields such as neuroscience, neurotechnology, and clinical neurophysiology. Our expertise lies in advanced multimodal source estimation techniques, which empower researchers to integrate EEG and MRI datasets, thus providing clearer insights into both the spatial and temporal aspects of brain activity. Traditional neuroimaging methods, like magnetic resonance imaging (MRI), excel in locating brain activity but fall short in determining the timing of events. In contrast, electroencephalography (EEG) and its related technique, Event-Related Potentials (ERPs), can pinpoint when neural events occur with remarkable precision, but they struggle with spatial localization. By merging MRI and EEG data, EMSE uniquely addresses both the "where" and "when" questions of brain activity, offering a level of detail that neither technique can achieve on its own. This innovative approach is referred to as multimodal dynamic functional brain imaging or source estimation, allowing for a deeper understanding of the brain's intricate workings. By leveraging this technology, researchers can uncover new insights into brain dynamics that were previously unattainable.

CSAM TRIS is a robust and versatile Radiology Information System designed specifically for healthcare professionals working within Nordic Radiology Departments. This user-friendly platform combines high functionality with stability, catering effectively to radiology departments of varying sizes and workflows. Thanks to ongoing input from committed users, CSAM TRIS excels in delivering a seamless experience for its operators. Essential tasks can be executed swiftly through intuitive keystrokes and specialized tools, showcasing the system’s remarkable balance between information management and usability. Furthermore, CSAM TRIS enhances IT connectivity among X-ray departments, clinical teams, outpatient facilities, and primary healthcare services, all while prioritizing user needs related to security and quality. The software is equipped with a range of contemporary features, such as the ability to send interactive online referrals directly to Radiology, ensuring a comprehensive approach to patient care. Overall, CSAM TRIS stands as a testament to innovative technology in the healthcare sector.

Dragonfly is a robust, adaptable, and easy-to-use software that provides quantitative solutions for a wide range of imaging studies, such as 2D, 3D, and 4D analyses, effectively handling data from various imaging systems like correlative and hyperspectral imaging, X-ray, SEM, FIB-SEM, ion beam, and confocal microscopy, along with other sophisticated applications. With its interactive inspection tools and comprehensive quantification workflows, users can achieve in-depth understanding of material structures and properties. The software offers a suite of post-processing capabilities, including data restructuring, filtering, volume and slice registration, and image stitching. Additionally, it features powerful segmentation tools that enable precise labeling of image characteristics. Dragonfly also addresses image enhancement and segmentation challenges with its advanced Deep Learning solutions. Users are empowered to streamline their 3D analysis processes through easily created macros. By integrating Deep Learning into its functionalities, Dragonfly transforms the landscape of image processing, providing access to the only commercially-supported Deep Learning engine that allows for the training and execution of custom networks, which significantly enhances the overall user experience. This innovative approach ensures that both novice and experienced users can tackle complex imaging tasks with confidence and efficiency.

The FDA-cleared D2P® software, in combination with 3D Systems printers, empowers surgeons, radiologists, lab technicians, and device designers to efficiently generate high-quality diagnostic digital 3D models and tangible 3D prints. By importing DICOM images into the D2P standalone modular software, all necessary steps for 3D model segmentation and preparation are streamlined into a single workstation. Designed as a medical device, D2P facilitates pre-operative surgical planning and the creation of 3D-printed anatomical models for diagnostic use. Its distinctive image segmentation toolkit, paired with sophisticated virtual reality (VR) visualization, significantly reduces the time and effort required for clinicians and point-of-care (POC) personnel to produce customized anatomical models for their patients. Furthermore, the digital models generated by D2P can be utilized across various platforms, including 3D printers, VR systems, surgical planning applications, and CAD software, enhancing the overall flexibility and effectiveness of medical practices. This innovative approach not only improves surgical preparation but also fosters collaboration among healthcare professionals by providing them with precise and accessible anatomical representations.

Innovative AI solutions that smoothly integrate with your PACS and radiology processes empower radiologists to streamline their workflows and enhance patient care. As the demand for medical imaging continues to rise, radiologists are often overwhelmed by the sheer volume of data, which can lead to increased reporting errors, elevated workloads, and disorganized processes. By automating repetitive tasks and standard measurements, AI technology assists radiologists in producing high-quality, evidence-based reports. This enhancement not only aids referring doctors and physicians in making well-informed decisions but also fosters a more intuitive workflow, ultimately benefiting patient care. Furthermore, these systems excel at identifying, characterizing, and classifying critical elements with pinpoint accuracy while maintaining the highest image quality and ensuring rapid loading times. Additionally, the inclusion of intelligent suggestions during report template searches, along with the ability to use pre-filled or customizable report templates, greatly improves standardized clinical communication and efficiency in the reporting process. By adopting such advanced tools, radiologists can focus more on patient interactions and less on administrative burdens.

The EMR Manager serves as the global solution for managing images and documents within Enterprise Electronic Medical Records, catering to the needs of various institutes and departments. It provides a centralized repository for all types of medical and non-medical data, stored as DICOM objects accessible to authorized personnel. Coupled with VEPris, it ensures that even the most intricate workflows are executed efficiently and securely. Healthcare providers can easily access the VEPRO DICOM archive, allowing both referring and post-treatment physicians to view essential images and reports. Patients' multimedia information—including images, films, audio, and text—can be retrieved and displayed in mere seconds, with users having the capability to perform advanced image processing. The EMR Manager comes in three distinct versions, each offering different functionalities. Furthermore, whether in a hospital setting, private practice, or at home, the EMR Manager, along with WEBstudio, enables seamless processing of 3D reconstructions like MIP, MPR, and VR. This versatility enhances collaboration and improves patient care significantly.

Elevate the effectiveness of value-based care through the OMS Trace Analytics® cloud platform, which specializes in the analysis and reporting of essential cardiovascular metrics. As reimbursement increasingly hinges on value, it's important to note that in the 2018 performance year, 60% of Medicare reimbursements were associated with quality metrics under the Quality Payment Program. This emphasizes the growing necessity for a precise data-driven and evidence-based quality reporting solution aimed at measuring, targeting, and enhancing your quality initiatives. The OMS Trace Analytics® cloud platform is expertly crafted to provide profound clinical insights into cardiovascular conditions, featuring dedicated dashboards that focus on key cardiovascular issues such as Hypertension, Dyslipidemia, Atrial Fibrillation, Heart Failure, Coronary Artery Disease, and Peripheral Artery Disease. With the integration of such advanced analytics, healthcare providers can better navigate the complexities of value-based care while actively improving patient outcomes.

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.

3D Slicer is an open-source software solution that is freely available for visualizing, processing, segmenting, registering, and analyzing various medical and 3D images and meshes. It also supports the planning and navigation of procedures guided by images. As a desktop application, 3D Slicer tackles complex challenges in image computing, particularly within clinical and biomedical contexts. Furthermore, it serves as a versatile development platform, allowing for the swift creation and implementation of tailored solutions suitable for both research and commercial endeavors. The platform is backed by a strong community of experienced users and developers who work together to push the boundaries of medical computing. Distributed under a BSD-style license, 3D Slicer imposes no limitations on its application in academic or commercial settings. Nevertheless, it is worth noting that it does not possess FDA approval, placing the onus on users to ensure adherence to relevant regulations. This collaborative environment not only enhances the software but also encourages innovation in the field of medical imaging and analysis.

The Galileo system, created by Fourier Intelligence, is an innovative platform for research and training focused on biomechanics, rehabilitation, and sports science. It combines an array of state-of-the-art technologies, including a six-axis motion platform, force plate, LED curved screen, adaptive dual-belt treadmill, dynamic weight support, motion capture system, rehabilitation robots for both upper and lower limbs, exercise equipment, and human-computer interaction software. This comprehensive setup facilitates a versatile environment for clinical assessments and rehabilitation training, leveraging the benefits of virtual reality and robotics for both clinical and research applications. The system is effective for evaluating and treating a wide range of functional impairments in both adults and children, addressing issues such as neurological and musculoskeletal injuries, amputations, limb disabilities, cardiorespiratory dysfunction, and degenerative diseases. Additionally, its integration of advanced technology enhances the effectiveness of rehabilitation methods, making it a valuable tool in modern therapeutic practices.

INFINITY ANALYZE 7 is a user-friendly software solution tailored for camera management, capturing images, and processing them in life science, clinical, and industrial research settings. It accommodates both brightfield and fluorescence imaging modes, guaranteeing results that are reproducible, precise, and of high quality. The software boasts a variety of functions, including image processing, fluorescence acquisition, calibration settings, customizable presets, annotations, and extensive camera controls. Users are able to engage in activities such as focus stacking, image stitching, and executing numerous post-processing techniques on the acquired images. The fluorescence functionality supports both multi-channel and single-channel image acquisition, simplifying the creation of composite images from sequences. Enhanced workflow efficiency is achieved through user-defined button labels and hotkeys, which provide rapid access to presets during microscope objective switches. Additionally, users can incorporate annotations such as lines, arrows, and shapes to emphasize specific areas of interest within their images, further enriching the visual data presentation. This versatility makes INFINITY ANALYZE 7 an invaluable tool for researchers aiming for detailed and organized imaging capabilities.

We are a global leader in X-ray imaging systems, serving sectors such as medical diagnostics, non-destructive testing, and precision contract coating for various industrial, medical, and electronic needs. Our dedication to supporting our customers' success drives us to prioritize excellence in all our endeavors. By offering innovative technology, products, and services through a motivated workforce, we consistently push the boundaries of operational efficiency. With the Carestream suite of DR systems, transitioning to digital has never been more streamlined. Our extensive range of DR Detectors, Mobile X-Ray units, X-Ray Rooms, Fluoroscopy, and DR Retrofit Solutions offers compatible and scalable components tailored to address current requirements while preparing you for future advancements. Carestream’s Computed Radiography systems are versatile enough to serve everyone from small private practices to medium-sized hospitals and imaging facilities. Designed for budget-conscious clients, our compact and dependable CR systems integrate effortlessly into existing workflows and enhance operational efficiency. Whether you are upgrading technology or starting anew, our solutions are built to evolve with your needs.

Unifier stands out as an advanced and interoperable enterprise imaging platform that guarantees seamless integration of health data, making it readily available and enhancing both patient care and IT efficiency. Dicom Systems offers a comprehensive range of adaptable enterprise imaging solutions designed to grow alongside your organization. This platform supports teleradiology processes, smart data routing, SSL-based integration tools for DICOM and HL7, and features an AI on-ramp, culminating in robust vendor-neutral archiving for large enterprises. It allows for routing based on any standard or private DICOM tag, as well as by specific dates and times, while also caching data for future delivery. The system ensures interoperability across diverse information systems and any devices that support DICOM and HL7. Additionally, it conducts checks for incomplete study deliveries to guarantee that all necessary data is transferred. With intuitive configuration tools and an easy-to-follow setup wizard, the platform ensures a seamless user experience. Furthermore, it includes comprehensive management capabilities for enterprise-wide configuration, along with detailed logging and auditing features to support HIPAA compliance, making it an all-encompassing solution for modern healthcare data management.

Artrya collaborates with clinics that treat patients experiencing chest pain to introduce innovative AI-based cardiovascular care models. This partnership allows for the seamless incorporation of high-prognostic value plaque characteristics into assessments of coronary artery disease. In emergency and primary care environments, rapid evaluations of chest pain patients are made possible. We envision a future where heart attack rates in communities are significantly reduced. By utilizing AI-driven insights from coronary computed tomography angiography (CCTA), healthcare providers can effectively stratify chest pain patients within minutes based on the type and amount of arterial plaque detected. This technology enables quick identification of individuals with little to no coronary artery disease, assuring that there are no hidden plaque features that might lead to serious cardiac events later on. It’s crucial to identify early indicators of a possible heart attack. Additionally, this approach allows for the effective recognition of at-risk patients suffering from acute or atypical chest pain, ensuring they receive the necessary further evaluation and treatment. This proactive strategy not only enhances patient outcomes but also fosters a healthier community overall.

Our extensive range of products encompasses VNA, PACS systems, Radiology Information Systems (RIS), Diagnostic Viewers, and AI-driven Medical Diagnostic Support Solutions (MDSS) tailored for applications such as MMG, CT chest, ECG, and endoprosthesis imaging via X-ray. With over 300,000 active users each month and 20,000 units of diagnostic equipment seamlessly integrated with our PACS|VNA, we are proud to provide cutting-edge technological solutions designed to enhance patient care. We are eager to share our expertise in healthcare digitalization, aimed at enriching the lives of patients through improved diagnostic processes. Our commitment extends to facilitating the adoption of our solutions to streamline workflows for end users, including radiologists, oncologists, and cardiologists. Drawing on 14 years of experience collaborating with 5,000 clinics, we have developed core competencies that support a comprehensive and modular platform for the entire imaging process, independent of vendor constraints. Additionally, our AI-based medical decision support systems are designed to efficiently prioritize cases with pathologies on a single screen, utilizing a red-yellow-green alert system to enhance clinical decision-making. This innovative approach ensures that healthcare providers can focus on what truly matters: delivering exceptional patient care.

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.

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.

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.

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.

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.

Guided surgical procedures for your selected implant systems can greatly enhance outcomes. Simplant provides reliable 3D solutions for implant treatments, ensuring that prosthetic results align with initial plans. The offerings from Simplant are not only economically viable but also designed for ease of use, and they seamlessly integrate with the brands and tools that dental professionals are already familiar with. This computer-guided implant technology supports over 10,000 implants across more than 100 different brands and is compatible with all DICOM-compliant CT scanners, as well as major optical and intraoral scanning devices. With services ranging from dental scanning and treatment planning to drilling and the placement of implants, Simplant also facilitates the provision of Immediate Smile temporary restorations prior to surgical intervention, thus equipping clinicians with a thorough 3D system that fosters predictable and effective implant treatment results. By utilizing these advanced technologies, dental practitioners can significantly improve patient outcomes and streamline their workflow.

Axial3D is focused on enhancing individualized patient care by revolutionizing the healthcare landscape with its innovative 3D medical imaging and custom solutions tailored for each patient, thereby making personalized surgical interventions both routine and scalable. Our proprietary, AI-driven cloud platform equips medical device manufacturers, imaging specialists, and healthcare facilities with the ability to create data-rich, precise 3D models that facilitate better surgical planning, promote superior patient outcomes, and streamline operations. We provide a variety of services including 3D visualization, 3D mesh files, print-ready files, and physical 3D models, all designed to fit seamlessly into current medical workflows. By transforming intricate DICOM images into clear, actionable 3D information, we significantly enhance the efficiency, speed, and scalability associated with the development of patient-specific devices. Additionally, our cloud solution presents a comprehensive perspective of a patient’s anatomy for surgeons ahead of procedures, thereby improving the accuracy and precision of surgical planning that surpasses conventional 2D imaging techniques. This transformative approach not only benefits individual patients but also supports the broader goal of advancing surgical practices across the board.

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.

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.

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.

Adaptable and customizable, this system caters to a wide range of healthcare setups, from individual physician offices to extensive hospital networks and global clinical research organizations. Rest assured that your information remains secure, eliminating the complications associated with hardware and IT oversight. It surpasses both HIPAA and PIPEDA regulations for safeguarding privacy and securing data. With a user-friendly design, the Studycast platform offers a seamless workflow that spans from the examination process to archiving. When you incorporate the optional integration features, the system completes the cycle from ordering to delivering results. Effortlessly upload studies, as images, measurements, and patient information are automatically transferred from the imaging modality into the Studycast platform. The zero-footprint viewer operates efficiently, allowing you to access diagnostic-grade images and video loops from any location with internet connectivity, including on mobile devices. This capability ensures that healthcare professionals can maintain productivity and provide timely patient care, no matter where they are.

Harness the power of Artificial Intelligence to streamline your workflow in the orthodontic practice, ensuring efficiency and speed that are essential. Utilize AI for obtaining measurements that assist in crafting treatment plans, projecting skull growth, predicting treatment outcomes, and running simulations. This technology allows for the rapid placement of cephalometric landmarks, significantly reducing the time spent on these tasks. Organize all related documents into a timeline format, making them easily accessible whenever needed. Be prepared to present and discuss the advancements in orthodontic treatment with your patients at any moment. Our cephalometric software is offered in two distinct editions, each featuring unique tools; however, they share the same advanced cephalometric engine, guaranteeing quick and accurate results. The user-friendly AudaxCeph SuperEasy, enhanced with AI, takes on the task of automatically placing cephalometric points on both soft and hard tissue landmarks in just seconds, transforming the efficiency of your practice. With this innovative approach, you can focus more on patient care and less on administrative tasks.