List of the Top Medical Imaging Software in South America in 2025 - Page 3

A sophisticated online scheduling and room management system has been developed to enhance patient booking efficiency, providing a smooth and nearly perfect experience. It incorporates automated scheduling for complex segmented procedures and enables fully digital patient registration along with effective document management. This system allows for real-time online insurance verification and supports the simultaneous management of multiple facilities. Additionally, it includes a built-in Clinical Decision Support (CDS) tool that significantly improves workflow efficiency. The Q/ris technologist workflow module captures DICOM Structured Reports (SR) automatically and provides a range of tools to help technologists deliver data-rich studies, which ultimately conserves valuable time for radiologists. It also generates electronic worksheets for technologist notes and annotations specific to each exam, enabling real-time edits, modifications, or rescheduling. Furthermore, the system features automatic charge capture and interactive supply tracking, while ensuring compatibility with MIPPS DICOM modality worklists for seamless data integration. This holistic approach guarantees that all operations are optimized for maximum performance, paving the way for a more efficient healthcare delivery system. The integration of these advanced functionalities ultimately leads to improved patient satisfaction and increased operational effectiveness.

Deeplink Medical has focused its services around the MIRIO platform, which is tailored to meet the diverse needs and scenarios of those involved in medical imaging within the oncology field, applicable in both clinical environments and everyday practice. Our offerings include three distinct yet interrelated solutions: MIRIO, which monitors evaluations of solid tumors and tracks therapeutic responses in oncology patients; a streamlined patient pathway that connects hospital facilities with private medical practices; and an Imaging CRO that specializes in managing imaging data for oncological clinical trials. The creation of our cutting-edge solutions is supported by a scientific board, providing a solid foundation for our offerings. Furthermore, our collaborative workflow platform organizes imaging data and radiological assessments for patients with solid tumors, ensuring real-time data structuring in line with RECIST 1.1 and iRECIST guidelines from the point of data generation at investigation sites. This capability allows for immediate assessments of treatment responses based on recognized international standards, significantly improving the quality and efficiency of oncological patient care. By integrating these services, we strive to deliver a holistic approach that empowers healthcare professionals to achieve the best possible treatment outcomes while keeping pace with the evolving landscape of oncology. This commitment underscores our dedication to advancing patient care in this critical field.

The Acuo VNA image management system integrates all imaging data across an organization into a single repository, facilitating smooth interactions with essential IT systems such as EMR. By utilizing standard data formats, the Acuo VNA empowers healthcare organizations with genuine ownership of both DICOM and non-DICOM imaging data. With Acuo healthcare software, your imaging platform is designed to be highly scalable and adaptable to evolving needs. The innovative multi-tiered VNA Database Architecture implemented by Acuo maintains a comprehensive record of image ownership, enabling seamless movement of images among hospitals during mergers, acquisitions, and the adoption of new business models. This unique VNA solution allows for centralized image management while still accommodating the specific workflows and data ownership requirements of individual departments. Additionally, Acuo offers varied deployment options, including hybrid, cloud-based, and on-site solutions, catering to diverse organizational preferences. Overall, the Acuo VNA stands out as a versatile choice for modern healthcare imaging needs.

Healthcare professionals are able to access a thorough history of medical images, which encompasses both DICOM and non-DICOM formats, through a radiology PACS or VNA. This capability extends to various specialties, including dermatology, surgery, and radiation oncology. NilRead is an advanced diagnostic viewer that is certified with FDA 510(k), CE marking, and CE clearance. It supports diagnostic assessment for mammography, digital breast tomosynthesis, and offers 3D rendering as well as curvilinear reformatting capabilities. The extensive visualization toolsets and features of NilRead facilitate comprehensive workflows tailored for specialty readers and radiologists alike. Additionally, it incorporates rules-based protocols and specified user permissions to enhance functionality. Users can take advantage of multi-monitor setups for improved viewing experiences. Furthermore, the platform includes cross-enterprise image communication and sharing tools that foster physician collaboration, enable remote diagnosis, and facilitate obtaining second opinions. This ensures that users can securely share study links with colleagues and peers, promoting real-time interactive collaboration for enhanced patient care. Ultimately, the integration of these features significantly streamlines the diagnostic process.

PACSgear is a comprehensive solution designed to facilitate the sharing of essential medical images among your team, facility, or throughout your entire health system. It seamlessly integrates with your EMR, VNA, and PACS, enhancing connectivity. With PACSgear, you can swiftly share critical information across various departments and specialties including radiology, cardiology, emergency medicine, dermatology, gastroenterology, and orthopedics. This promotes effective collaboration and ensures a holistic view of all patient images, empowering clinicians to make informed diagnoses and decisions regarding patient care. As an enterprise-class image capture solution, PACSgear is highly scalable, accommodating the needs of any healthcare organization, whether it's a small facility or a large, complex institution. You can initiate your journey with a single PACSgear module tailored for one department and progressively incorporate additional applications as your needs evolve, ensuring that your healthcare delivery remains efficient and responsive. This flexibility makes PACSgear an optimal choice for organizations looking to enhance their image sharing capabilities while adapting to future demands.

FIRMM presents cutting-edge biofeedback and real-time monitoring technology aimed at addressing the pivotal challenge of patient movement during brain MRI examinations. The FIRMM system skillfully imports MRI images while concurrently analyzing and displaying motion data in real-time, enabling both the technician and patient to be informed of any head shifts throughout the procedure, which significantly improves workflows, minimizes motion artifacts, and boosts the overall efficiency of the scanning process. With an intuitive touch screen interface, the FIRMM tablet allows scanner operators to quickly familiarize themselves with the system, requiring little to no extensive training. In addition, FIRMM automatically records each session, removing the burden from operators to manually document their progress. Unlike alternative solutions, FIRMM does not require the installation of cameras or complicated sensing devices in existing MRI machines. Moreover, the biofeedback feature of FIRMM is compatible with various video display configurations and integrates seamlessly with in-bore audio/visual systems, further enriching the patient's experience during the MRI. Ultimately, FIRMM enhances operational procedures while placing a strong emphasis on patient comfort and safety throughout the imaging process. This innovative approach ensures that both the technical and emotional needs of patients are met during their MRI experience.

You are encountering difficulties due to insufficient staff and rising costs, such as those from interest rates, wages, and operational systems, while witnessing a troubling trend among medical practices. However, there is hope for a transformative solution. Our platform, OmegaAI, is designed to help you tackle these staffing concerns effectively. Once you set up your account, OmegaAI is ready to use right away. Its intuitive and streamlined interface eliminates unnecessary complications, freeing up precious time for you and your staff. Furthermore, our platform enables effortless collaboration among different organizations and facilities. We also enhance patient involvement through our integrated portal, Blume, which allows patients to oversee their complete medical imaging journey directly from their smartphones. They can upload referrals, manage insurance information, verify eligibility and prior authorizations, schedule appointments, complete necessary paperwork, make payments, and access their imaging results and reports. Additionally, patients can share their imaging findings with healthcare providers, family, and friends, fostering better communication and teamwork in their care. By adopting this holistic solution, you not only address staffing shortages but also significantly bolster patient engagement and satisfaction, paving the way for a brighter future in medical practice management.

DoseLab offers a robust linac QA database that visualizes the performance of machines over time, making it simple to spot trends in performance. The platform supports effective planning of QA tests, assigns tasks to specific users, and tracks the results efficiently. Users can collect data from a diverse array of tests, which may include morning warm-up statistics and TG-51 calibration information, with options for input ranging from numerical entries to textual and multiple-choice formats. Furthermore, the system allows for the effortless monitoring of machine QA images, eliminating the need for manual clicks during processing. This not only streamlines the review of QA results but also enhances the capabilities of automation and trend analysis, ultimately boosting overall operational efficiency. By integrating these features, DoseLab significantly contributes to improving quality assurance processes in a clinical setting.

The integrated mammography viewer offers an ergonomic platform for examining a wide array of breast imaging studies alongside various specialty tests, all accessible from a single interface. By optimizing workflows, it enables faster reading in busy environments, which leads to a higher volume of patients being served. The use of Artificial Intelligence further boosts the efficiency of physicians, lowers the rate of false negatives in cancer detection, and contributes positively to the quality assurance of imaging results. Moreover, a comprehensive telemammography solution acts as an essential bridge to enhancing access to breast expertise, ultimately resulting in better diagnostic precision and improved patient outcomes. The NovaMG PRO operates as a standalone workstation that is compatible with any PACS or mammography system. In addition, the breast care workflow module is available within NovaPACS EI, allowing current users to activate it in a matter of minutes, thereby upgrading their existing setups. This seamless integration not only streamlines processes but also empowers healthcare providers to offer superior care to their patients, significantly impacting their overall experience and satisfaction. As the healthcare landscape evolves, such innovative solutions are crucial in addressing the growing demands of breast imaging and care.

The EchoGo Heart Failure platform is transforming the identification of heart failure by utilizing artificial intelligence to improve the accuracy of detecting HFpEF through echocardiograms. In collaboration with the Mayo Clinic, this groundbreaking technology streamlines the detection process, achieving impressive precision from a single apical 4-chamber view, thereby overcoming longstanding challenges in diagnosing this condition. As the first AI-centric platform specifically focused on HFpEF detection in echocardiography, Ultromics establishes itself as a pioneer in the integration of AI for cardiac imaging solutions. Our cutting-edge technology not only facilitates earlier and more effective identification of heart failure but also aspires to enhance patients' overall quality of life. By offering a user-friendly and secure cloud-based Software-as-a-Service (SaaS) platform, Ultromics effortlessly integrates with current echocardiography systems, equipping labs with essential tools for accurate heart failure detection and efficient risk assessment. This innovation holds the potential to substantially reduce hospitalization rates associated with heart failure, providing significant advantages for both healthcare systems and patients. As we strive to push the boundaries of technology, our unwavering dedication is to advance cardiac care and improve patient outcomes. Furthermore, we aim to continually refine our services to meet the evolving needs of healthcare professionals and enhance patient experiences.

Merlin's CardioMotionTM echo analysis and reporting software, distributed by CDN in Australia, transforms the approach to quickly diagnosing cardiac issues. It is specifically tailored for use in various medical environments such as emergency departments, CCUs, ICUs, oncology suites, medical center practitioners, ultrasound labs, cardiology sections, and even in rural or isolated areas where point-of-care devices are essential. Additionally, it offers significant benefits for cardiac monitoring in clinical trials. What distinguishes Merlin CardioMotionTM is its unique capability to accurately process slow frame rate echo clips without requiring an ECG trace for detection, thus making it usable with lower-end ultrasound machines. Utilizing advanced image processing technology, the software is grounded in proprietary algorithms that enable the automatic detection of the ventricular wall and its borders. This cutting-edge methodology facilitates a rapid and accurate quantitative assessment of the heart's dynamic performance, leading to improved patient care and outcomes. Consequently, healthcare providers are empowered to make better-informed decisions regarding cardiac health management, ultimately promoting a higher standard of patient well-being.

Elevate your cardiology dataset experience during the post-processing phase by leveraging the capabilities of the EchoPAC Suite, which provides a comprehensive set of tools for meticulous review, analysis, and measurements from a dedicated offline workstation, thereby enhancing your ultrasound system and streamlining overall operations. In addition, ViewPoint 6 simplifies the report generation process, allowing for the quick creation of thorough and easily understandable reports. These ultrasound reports can include a diverse range of components, such as images, measurements, diagrams, results, and professional recommendations. The sophisticated reporting capabilities within ViewPoint 6 reduce the necessity for manual data input, significantly lowering the chances of errors that can arise in such processes. Moreover, from the start of the examination through to final data storage, ViewPoint 6 integrates flawlessly into your workflow, acting as a versatile solution designed to improve your daily activities. By adopting these innovative tools, you can greatly enhance both the efficiency and precision of managing your cardiology data, ultimately contributing to better patient outcomes and streamlined clinical practices. This not only saves time but also fosters a more organized approach to handling sensitive patient information.

The D2P® software, which has received FDA clearance, works seamlessly with 3D Systems printers to enable healthcare professionals such as surgeons, radiologists, lab technicians, and device designers to create high-quality 3D models and physical prints for diagnostic purposes efficiently. By allowing users to import DICOM images directly into its standalone modular software, D2P simplifies the process of 3D model segmentation and preparation, all from a single workstation. As a medical device, this software not only aids in surgical planning but also facilitates the production of 3D-printed anatomical models for diagnostic applications. Its advanced image segmentation toolkit, coupled with immersive virtual reality (VR) visualization, minimizes the time and resources necessary for clinicians and point-of-care (POC) personnel to generate tailored anatomical models for their patients. In addition, the digital models produced through D2P are compatible with a variety of platforms like 3D printers, VR systems, surgical planning tools, and CAD software, which greatly enhances the adaptability and efficiency of medical practices. This cutting-edge methodology not only streamlines surgical preparations but also promotes teamwork among healthcare providers by equipping them with accurate and easily accessible anatomical representations, ultimately leading to improved patient outcomes. By bridging technology and medicine, D2P serves as a vital resource in advancing the capabilities of modern healthcare.

Presenting a premier cloud-based platform dedicated to ultrasound reporting and image management, created to enhance and automate your daily operations. Reduce the burden of documentation for your staff and produce reports in just seconds. Enhance patient care through a comprehensive enterprise ultrasound automation platform that supports automated reporting, billing, and image management, all of which can be accessed anytime and from anywhere. Empower healthcare practitioners and their teams to adeptly manage and analyze complex patient data and workflows. Seamlessly connect diverse healthcare departments and integrate existing systems with unstructured data, guaranteeing dependable and secure access to crucial information, all gathered in one centralized location. This groundbreaking solution not only boosts productivity but also promotes teamwork among medical professionals, ultimately leading to improved patient outcomes and streamlined operations.

Cardiovascular diseases are responsible for over 20 million deaths worldwide each year, and many of these fatalities could be prevented through early detection. Nevertheless, healthcare systems around the globe are frequently hindered by human constraints that limit comprehensive analyses. This is where AIATELLA plays a crucial role. Our cutting-edge AI-powered image analysis technology transforms cardiovascular diagnostics by optimizing manual vascular measurements in a precise and quantifiable way. By utilizing historical data, we significantly minimize the time, costs, and expertise necessary, thus enhancing the ability to perform crucial imaging. The AIATELLA solution accelerates the speed, accuracy, and precision of diagnostics, offering essential measurements and evaluations of disease progression in just seconds instead of the typical hours. As a result, by improving the efficiency and dependability of analyses, we enable healthcare professionals to allocate more time to patient care, paving the way for a new era of accessible preventative and personalized medicine. Furthermore, this innovation marks a pivotal transition towards a more proactive healthcare model, ensuring that early interventions become standard practice in the fight against cardiovascular diseases. In doing so, we hope to foster a healthier population and a more responsive healthcare environment.

Materialise Mimics is a comprehensive software solution designed to convert medical imaging data into accurate 3D models, which can be utilized for various applications including the development of custom devices and in-depth anatomical research. The software features a wide range of tools that facilitate the planning, design, and 3D printing of models and surgical guides, catering to varying degrees of complexity and ensuring readiness for clinical use. At the heart of this platform lies Mimics Core, an advanced software dedicated to 3D medical image segmentation that seamlessly transitions from image acquisition to the production of 3D models. This capability supports virtual procedure planning and significantly enhances the platform's overall effectiveness. Furthermore, the Mimics Innovation Suite broadens the platform's functionalities by providing enhanced resources tailored for engineers and researchers. By making the interaction with 3D medical imaging data more straightforward, it serves as a vital resource for enhancing patient care through innovative technological solutions. In conclusion, this software not only connects cutting-edge imaging techniques with practical medical implementations but also fosters advancements in the healthcare industry by enabling better decision-making and improved surgical outcomes.

MiNNOVAA is a company focused on advancing medical information technology, particularly in medical imaging software and the sharing of medical images. Emphasizing "medical imaging innovation," we distinguish ourselves through agility and cutting-edge technology in the development of our solutions. Our primary focus areas include creating medical image viewers, optimizing radiology workflows, and integrating artificial intelligence into diagnostic reporting. Our dynamic team consists of approximately 20 talented programmers and product managers, along with experts in marketing, sales, technical support, call center operations, and administration, all committed to initiating significant changes in medical imaging and improving healthcare experiences for individuals. We provide a holistic clinical imaging IT solution specifically designed for mid-sized hospitals and imaging clinics, offering a comprehensive suite of features such as core PACS software on-premise, a DICOM web viewer, multi-platform imaging workstation software, seamless integration with EHR/EMR/HIS systems, and a robust workflow engine/RIS. Our dedication to innovation and all-encompassing solutions ultimately seeks to transform the approach and application of medical imaging within healthcare environments. By continuously evolving our offerings, we aim to not only meet current needs but also anticipate future advancements in healthcare technology.

Fujifilm's Synapse 3D is an innovative visualization platform developed in collaboration with various medical experts, such as radiologists, cardiologists, and surgeons, featuring over 50 applications aimed at enhancing both diagnostic precision and efficiency. This system incorporates advanced server-side technology that supports both cloud-based and on-premise hosting, facilitating intricate image analyses that assist in interpretation, reporting, and treatment planning while fostering effective clinical collaboration across the organization. It caters to numerous specialty areas, including cardiology, pulmonology, oncology, urology, neurology, and gastroenterology, highlighting its adaptable nature. The scalable architecture of Synapse 3D allows for limitless expansion, and its dependable workflows enhance overall productivity, addressing extensive visualization needs through tailored applications. Additionally, the platform includes specialized cardiology functionalities that improve cardiac care, while its AI-driven detection features markedly boost the accuracy and efficiency of medical interpretations. Furthermore, Synapse 3D seamlessly integrates with Fujifilm's Synapse Enterprise PACS, making it an essential tool for healthcare providers aiming to enhance patient outcomes. With its extensive suite of capabilities, it promises to transform the landscape of medical imaging within clinical environments, ultimately leading to improved care quality and patient satisfaction.

Apollo Medical Imaging Technology is an innovative software firm dedicated to improving medical imaging through cutting-edge image processing solutions designed for both clinical settings and research applications. Their flagship product, MIStar, is distinguished by its affordability and user-friendly interface, incorporating a vast array of advanced features and adaptable cross-modality solutions that meet the requirements of both clinicians and original equipment manufacturers. MIStar effectively supports multiple imaging modalities such as CT, MR, NM, and PET, and includes specialized components like CT Perfusion for analyzing strokes and tumors, DSC-MRI for stroke evaluations, and DCE-MRI for tumor diagnostics, along with DWI & ADC and DTI Fiber Tractography for comprehensive assessments. Furthermore, it features NM Renogram Analysis and Image Fusion functionalities, enhancing its utility as a holistic medical imaging tool. The software also guarantees efficient data handling and image input through DICOM networking, paired with a user-friendly clinical database that simplifies the anonymization and archiving of sensitive patient information. This comprehensive suite of capabilities establishes MIStar as an indispensable resource in contemporary medical imaging practices, making it a go-to solution for healthcare professionals striving for excellence in patient care and research.

Aurabox is a cutting-edge platform designed for medical imaging interoperability, focusing on improving collaboration related to patient images to enhance both operational efficiency and the quality of care provided. It empowers healthcare institutions to effortlessly consolidate, access, and share medical resources, fostering teamwork among medical professionals. Key features include a direct connection to PACS, which streamlines the sharing and retrieval of medical images, as well as the ability to view and compare images from different providers side by side within a single interface. Moreover, it enables the sharing of imaging with other physicians across various organizations, thereby facilitating prompt second opinions and referrals. Aurabox also offers tailored solutions that meet a wide range of needs, including the ability to source and retrieve images from external entities, visualize and compare medical images, manage imaging for research or education, track treatment progress, distribute images to referrers or other stakeholders, and optimize the integration of imaging data for clinical purposes. This all-encompassing approach not only simplifies workflows but also profoundly improves the overall experience of patient care, ensuring that healthcare providers have the tools necessary to deliver exceptional service. By bridging gaps in communication and access, Aurabox ultimately contributes to a more connected and efficient healthcare ecosystem.

Caas MR 4D Flow is designed to streamline the extraction of essential data from 3D phase-contrast MR images with remarkable efficiency. By leveraging these sophisticated images, it offers two cutting-edge 4D Flow modules that enable thorough flow analysis, which is crucial for evaluating and interpreting cardiovascular MR images, as well as for planning the timing and type of interventions. One module is dedicated to analyzing blood vessels, from major arteries like the aorta to smaller renal vessels, while the other focuses on heart valves and their regurgitation fractions. Key outputs include the visualization of aortic blood flow through streamlines, pathlines, and color-coded vectors; an in-depth mapping of wall shear stress along with localized shear stress values; assessments of pressure differentials across specific segments; and a comprehensive visualization and quantification of regurgitant fractions across all four heart valves, in addition to performing 2D flow phase-contrast analyses. This multifaceted approach not only deepens the understanding of cardiovascular dynamics but also significantly supports clinicians in making well-informed decisions regarding patient management, ultimately enhancing the quality of care delivered. Therefore, the integration of these advanced modules marks a significant advancement in cardiovascular imaging technology.

Brainlab's Elements Contrast Clearance Analysis utilizes MRI technology to effectively differentiate between areas of contrast clearance and accumulation in brain tumor imaging datasets. This sophisticated high-resolution technique significantly improves the insight required for ongoing assessments and decision-making in various medical specialties, such as radiosurgery, radiation oncology, neurosurgery, neuro-oncology, and neuroradiology. The process involves obtaining two standard 3D T1-weighted MRIs; the first is captured approximately five minutes after the injection of a standard contrast agent, followed by a second scan taken between 60 to 105 minutes later. By performing a subtraction of the first series from the latter, volumetric maps are generated that distinctly highlight regions of contrast clearance (depicted in blue) and those of contrast accumulation (marked in red). This information empowers healthcare professionals to more accurately gauge the impacts of radiation therapy against the possibility of tumor regrowth, thus facilitating more informed decisions regarding both initial and ongoing treatment strategies. Consequently, this analytical approach not only supports clinical evaluations but also plays a crucial role in enhancing the overall management of patient care in challenging medical scenarios, ultimately leading to improved patient outcomes.

Brainlab's Elements Cranial Stereotactic Radiosurgery (SRS) is an advanced software solution designed to make the complex planning of cranial surgeries more intuitive, targeting conditions such as arteriovenous malformations, pituitary adenomas, and vestibular schwannomas. The system employs automation in every step of the process, including image fusion, distortion correction, object outlining, and segmentation, which together provide outstanding accuracy and dependability at a submillimeter resolution. A key highlight is the proprietary 4Pi arc setup optimization that, when combined with a volumetric modulated arc therapy algorithm specifically developed for radiosurgery, enhances plan quality by ensuring precise dose delivery while protecting critical neighboring tissues. Additionally, the software offers unique 3D visualizations and trustworthy dosimetric outputs, which notably elevate the precision and efficiency of treatment planning. The Elements SmartBrush feature further accelerates the 3D target outlining process, allowing users to delineate volumes effectively using just two slices, thereby boosting overall workflow productivity significantly. This groundbreaking approach not only simplifies the planning process but also markedly improves the accuracy of treatment delivery in challenging clinical scenarios. Ultimately, the integration of these innovative tools positions Brainlab at the forefront of cranial surgery technology, promising better outcomes for patients undergoing these intricate procedures.

Brainlab's Elements Multiple Brain Metastases SRS is a state-of-the-art software designed to enhance both planning and execution of treatments for patients with multiple brain metastases. This advanced workflow empowers healthcare professionals to simultaneously address multiple metastases without exposing the entire brain to radiation, which considerably reduces the time required for treatment delivery. The process begins with pre-planning steps that leverage automation to perform tasks such as image fusion, distortion correction, outlining of objects, and segmentation, all of which improve the speed and accuracy of planning. Utilizing inverse-optimized dynamic conformal arc techniques centered on a single isocenter, the software achieves highly conformal dose distributions with precise gradients, ensuring that the targets receive accurate coverage while minimizing the impact on surrounding healthy tissue. This approach allows for the swift creation of consistent, high-quality radiosurgery plans in a matter of minutes, ultimately benefiting both clinicians and patients by shortening treatment times and improving overall outcomes. Additionally, the software's efficiency and effectiveness may contribute to greater patient satisfaction and a more streamlined workflow in clinical settings, thereby enhancing the overall healthcare experience. As a result, the integration of this technology not only optimizes treatment protocols but also reinforces the importance of innovative solutions in modern medicine.

Brainlab's Elements Spine Stereotactic Radiosurgery (SRS) is an advanced software platform designed to optimize the treatment of spinal metastases. The workflow is characterized by its automation in every stage, which includes detailed anatomical mapping, adjustments for spinal curvature, and precise target identification, ensuring exceptional accuracy and consistency at submillimeter precision. A unique algorithm effectively addresses differences in spinal curvature, enhancing the reliability of image fusion. The system utilizes a patented synthetic tissue model for automatic segmentation, allowing for the accurate identification and labeling of various spinal levels essential for dose calculations. Additionally, tools for defining Gross Tumor Volume (GTV) contours are provided, along with automated recommendations for Clinical Target Volume (CTV) and a cropped spinal canal object that complies with International Spine Consortium Guidelines. The incorporation of AI-driven contouring features facilitates the rapid and accurate delineation of more than 200 anatomical structures, including lymph nodes. This technological development not only simplifies the treatment workflow but also significantly improves patient outcomes in the management of spinal cancer, reflecting a major leap forward in oncological care. As a result, healthcare professionals can deliver more tailored and effective treatment strategies for patients grappling with this challenging condition.