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    Intelligent Angiography System uAngio® AVIVA

    Intuitively Bionic

    Introducing United Imaging's pioneering uAngio AVIVA, world-leading intelligent ceiling-mounted angiography system designed to be more than just a tool—it's your smart assistant in the operation room. With intelligent voice-control, vision, robotics, and imaging, uAngio AVIVA truly 'hears, sees, moves with exceptional flexibility, and thinks' revolutionizing how interventional procedures are performed. This groundbreaking innovation paves the way for a new paradigm in future procedures.

    Intelligent Voice-Control

    uAngio AVIVA features the world's first intelligent voice-control system, enabling medical staff to operate the device with voice command and stay focused on the procedure.

    Voice detection is powered by a MEMS microphone array, with background noise suppression managed by an advanced neural network model. Movement control, image acquisition, image selection, and tools utilization are all effortlessly handled with voice command, enabling smooth, hands-free interaction in routine clinical scenarios.

    Focus on What Matters

    Voice detection is powered by a MEMS microphone array, with background noise suppression managed by an advanced neural network model. Movement control, image acquisition, image selection, and tools utilization are all effortlessly handled with voice command, enabling smooth, hands-free interaction in routine clinical scenarios.

    Intelligent Vision

    uAngio AVIVA employs three sensors positioned above the operation room to capture real-time 2D images from multiple angles. These images are used to reconstruct a 3D model of the patient, equipment, and the entire operation room, creating a digital twin space known as uSpace. With this 3D intelligent vision, uAngio AVIVA autonomously identifies target areas, plans motion trajectories and adjusts exposure parameters. By actively sensing the operation room, this system heralds a new era of seamless human-machine collaboration.

    AI-Empowered Efficiency

    Proactively complete target localization and path planning with uSpace intelligent vision, realizing customized and precise position.

    Proactively complete isocenter positioning and virtual rotation test run in uSpace, simplifying 3D imaging acquisition.

    Proactively lock the isocenter of target region, ensuring the heart is always in the center of the image view.

    Optimize the detector-to-patient distance in real-time, enhancing image quality while minimizing radiation dose.

    Proactively identify the patient's 3D model and optimize the acquisition parameters (such as kV, mA, ms, etc.), achieving excellent image quality automatically and accurately.

    uSpace Auto Positioning

    Proactively complete target localization and path planning with uSpace intelligent vision, realizing customized and precise position.

    uSpace VeraCT

    Proactively complete isocenter positioning and virtual rotation test run in uSpace, simplifying 3D imaging acquisition.

    uSpace Isocenter Tracking

    Proactively lock the isocenter of target region, ensuring the heart is always in the center of the image view.

    uSpace Auto SID

    Optimize the detector-to-patient distance in real-time, enhancing image quality while minimizing radiation dose.

    uSpace Auto Parameters

    Proactively identify the patient's 3D model and optimize the acquisition parameters (such as kV, mA, ms, etc.), achieving excellent image quality automatically and accurately.

    Intelligent Movement

    The 8-axis ceiling-mounted robotic system offers exceptional flexibility, allowing it to navigate freely through the complex environment of the operation room. This ensures full coverage of the lab space and enables easy tableside accessibility.

    Clinical Flexibility Redefined

    Conventional floor-mounted interventional systems have a limited range of motion and cover only a specific area. Ceiling-mounted interventional systems provide more movement but are confined to a longitudinal direction. The uAngio AVIVA system, with its innovative 8th axis, unlocks lateral movement, enabling coverage of the entire lab space. This enhanced flexibility distinguishes the uAngio AVIVA as a truly advanced robotic system.

    uAngio AVIVA supports transverse movement, enabling easy access to the patient without moving the table. It allows the C-arm to reach the patient from any position (head, left, or right side), reducing patient movement during complex procedures such as EVAR and TAVI.

    uAngio AVIVA's positioning flexibility enables clinical staff to select the optimal working position. With a 270° Z-rotation, the C-arm can reach all necessary imaging positions without disrupting the team's setup or requiring movement of the patient table.

    uAngio AVIVA allows the clinical staff to optimize space usage for specific procedures. The 8-axis ceiling-mounted design significantly reduces floor space requirements in your lab, helps to prevent disturbances to equipment and instruments, ensuring the anesthesia zone remains unobstructed.

    uAngio AVIVA's innovative C-arm back-folding design allows laminar flow to circulate more freely, enhancing the overall sterility of the environment.

    What's the advantage of Robotics?

    Conventional floor-mounted interventional systems have a limited range of motion and cover only a specific area. Ceiling-mounted interventional systems provide more movement but are confined to a longitudinal direction. The uAngio AVIVA system, with its innovative 8th axis, unlocks lateral movement, enabling coverage of the entire lab space. This enhanced flexibility distinguishes the uAngio AVIVA as a truly advanced robotic system.

    Reduce patient movement

    uAngio AVIVA supports transverse movement, enabling easy access to the patient without moving the table. It allows the C-arm to reach the patient from any position (head, left, or right side), reducing patient movement during complex procedures such as EVAR and TAVI.

    Flexible working position without compromise

    uAngio AVIVA's positioning flexibility enables clinical staff to select the optimal working position. With a 270° Z-rotation, the C-arm can reach all necessary imaging positions without disrupting the team's setup or requiring movement of the patient table.

    Efficient use of lab space

    uAngio AVIVA allows the clinical staff to optimize space usage for specific procedures. The 8-axis ceiling-mounted design significantly reduces floor space requirements in your lab, helps to prevent disturbances to equipment and instruments, ensuring the anesthesia zone remains unobstructed.

    Free laminar flow

    uAngio AVIVA's innovative C-arm back-folding design allows laminar flow to circulate more freely, enhancing the overall sterility of the environment.

    Intelligent Imaging

    Addressing the challenge of balancing low radiation dose with high image quality and minimizing contrast media dose while maintaining clarity, uVera IQ intelligent imaging technology delivers precise, high-quality images. It significantly reduces radiation and contrast media usage, providing care to both medical teams and patients.

    Provide Accurate Insight with Low Dose

    Decompose image into multi-frequency bands. Perform denoising according to noise property at different bands to keep structure information while improving SNR.

    *SNR:Signal Noise Ratio, compares a level of signal power to a level of noise power. Higher SNR means better image quality, which noise displays less in images.

    AI-enabled Coronary Enhancement ensures the same level image quality is achieved even with a 50% reduction in contrast media dosage.

    *A clinical trail results from Chongqing Three Gorges Hospital.

    Reduce subtraction artifacts by sub-pixel image registration both globally and locally, in real-time.

    *MSE:Mean Square Error, stands for the difference between the mask image and filling image during matching. Lower MSE means a better matching and there will be less motion artifacts display on the image.

    Reduce metal artifacts by AI algorithm. Before optimization, there was severe metal artifact from the coil; After correction, the outline of the stent and coil could be clearly displayed.

    VeraCT HD offers high-resolution 3D imaging that discloses crucial information about blood vessels and stents structure, boosting treatment confidence.

    Low radiation dose

    Decompose image into multi-frequency bands. Perform denoising according to noise property at different bands to keep structure information while improving SNR.

    *SNR:Signal Noise Ratio, compares a level of signal power to a level of noise power. Higher SNR means better image quality, which noise displays less in images.

    Low Contrast Media Dose

    AI-enabled Coronary Enhancement ensures the same level image quality is achieved even with a 50% reduction in contrast media dosage.

    *A clinical trail results from Chongqing Three Gorges Hospital.

    Reduced motion artifacts with real-time pixel shift

    Reduce subtraction artifacts by sub-pixel image registration both globally and locally, in real-time.

    *MSE:Mean Square Error, stands for the difference between the mask image and filling image during matching. Lower MSE means a better matching and there will be less motion artifacts display on the image.

    Exceptional image details with demetal artifacts

    Reduce metal artifacts by AI algorithm. Before optimization, there was severe metal artifact from the coil; After correction, the outline of the stent and coil could be clearly displayed.

    Reveal high-resolution structures

    VeraCT HD offers high-resolution 3D imaging that discloses crucial information about blood vessels and stents structure, boosting treatment confidence.

    Broad Clinical Spectrum*

    Empowering clinical applications in cardiology, neuro interventions and interventional radiology.

    *Advanced applications are not available in all countries.

    Cardiology

    AI Enabled Coronary Enhancement

    AI-Enabled Coronary Enhancement delivers consistent, high-quality imaging while enabling up to a 50%* reduction in contrast media dosage, significantly reducing risks for CI-AKI(contrast-induced acute kidney injury), without compromising diagnostic accuracy.

    *A clinical trail results from Chongqing Three Gorges Hospital.

    Dynamic Coronary Roadmap

    Dynamic Coronary Roadmap (DCR), an advanced UIH technology, offers motion-compensated, real-time visualization of coronary arteries. By seamlessly overlaying a highlighted coronary angiogram onto live 2D fluoroscopic images, DCR creates an adaptive, color-coded roadmap that adjusts automatically to coronary motion. This continuous, real-time guidance enhances precision and efficiency during wire and catheter navigation, streamlining complex procedures.

    uStent Live

    Real-time enhanced visualization facilitates accurate positioning and deployment of balloons, stents, and bioresorbable vascular scaffolds, helping to optimize workflows and minimize procedure time.

    2D Vessel Analysis

    Quantitative analysis of coronary artery stenosis delivers precise measurements, including lesion length and stenosis severity, empowering medical staff with critical data to guide and optimize clinical decision-making.

    Left Ventricular Analysis

    Measure ventricular volume, assess wall motion, and calculate ejection fraction with precision.

    Neuro Interventions

    Multi-Modality Fusion

    Fuse data from different volumes or modalities to visualize the spatial relationships between various structures and vessels with clarity and precision.

    3D Aneurysm Analysis

    Perform accurate quantitative analysis of aneurysms on 3D images, delivering detailed information such as aneurysm size and key parameters to empower clinicians with data-driven insights for optimal treatment planning.

    2D Blood Flow Analysis

    Visualize perfusion changes to determine if treatment can conclude, providing detailed perfusion parameter variations to assist medical teams in evaluating treatment effectiveness.

    uVera IQ DSA

    uVERA IQ DSA provides outstanding image quality, as shown in the post-coil embolization images, which clearly demonstrate no contrast agent leakage within the aneurysm.

    Multi-Volume Fusion

    The flow-diverting device was implanted for an intracranial aneurysm, and following multi-volume fusion, excellent wall apposition was observed.

    Interventional Radiology

    Roadmap

    Lower limb arterial occlusion was treated with percutaneous transluminal angioplasty under Roadmap guidance.

    uNavi

    Overlay DSA image on live fluorosopic image for precise guiding.

    uTarget View

    Precise needle guiding navigation. Providing seamless workflow, including semi-auto tumor segmentation, laser guiding and real-time display of scheduled-pathway.

    2D Blood Flow Analysis

    Visualize perfusion changes to determine if treatment can conclude, providing detailed perfusion parameter variations to assist medical teams in evaluating treatment effectiveness.

    Designed Around You and Your Procedure

    User-friendly Detector

    The detector button's intuitive design enhances user ease of use.

    Intuitive C-arms Design

    The C-arms buttons are designed intuitively, such as the upward arrow indicating that the C-arms moves forward in front of the user.

    Accurate Laser Light

    HD laser light helps patients positioning easily and efficiently.

    Clear Collision Warning

    Implement software and hardware collision protection mechanisms, and display collision warnings on the screen.

    Intuitive Controller

    The joystick's distinct shapes are designed to intuitively represent different movements, enabling quick identification of buttons, even when covered by sterilized drapes.

    Simple User Interface

    The user interface design, such as 7 system positions and vivid imagery, is simple and easy to understand. This helps reduce the learning curve for beginners.

    Technical Details

    C-arm

    Robotic C-arm

    8 Axis

    Motion Coverage

    Up to 6.35m*2.36m

    Z Rotation

    ±135°

    RAO/LAO

    180°/150°

    Transverse Movement

    Max. 2360mm

    Longitudinal Movement

    Max. 6350mm

    Detector

    Detector Size

    30*40cm

    Pixel Size

    ≤154 μm

    Spatial Resolution

    ≥3.25 lp/mm

    Depth

    16bit

    DQE

    77% RQA5 0lp/mm@2uGy (Typical)

    X-ray Tube

    Focus

    0.4/0.6/1.0 mm

    Power

    28/48/100kW

    Max.anode Heat Storage

    3.8MHu

    Max.assembly Heat Storage

    6.69MHu

    Max. anode Heat Dissipation

    5500W

    Catheter Table

    Table Length

    3228.5m

    Table Loading

    Max. 340kg(749.6 Ibs) CPR ≥ 60kg(132.3 Ibs)(at any position)
    FDA 510(k) pending and not CE marked, not commercially available in the U.S. or the EU.
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