The Next Level in

Advanced Visualization

Working in tandem with high-speed C-arm acquisition, high-resolution detectors and a high-powered workstation, advanced and exclusive Infinix-i software applications achieve the highest image quality at the lowest possible dose.

Advanced Software

Treatment Planning and Advanced Visualization

Cardiac CTA Analysis

  • CT Cardiac Analysis enables physicians to determine the presence and extent of coronary obstructive disease by displaying the extracted anatomy in a variety of views.
  • The interface and automated tools help to efficiently analyze the coronary arteries.

CTA TAVR Planning

  • CT Transcatheter Aortic Valve Replacement (TAVR) Planning assists with the assessment of the aortic valve and in pre-operative planning and post-operative evaluation of transcatheter aortic valve replacement procedures.

CTA Carotid

  • CT Carotid enables the ability to visualize, measure, segment vessel structures, probe individual vessels, measure stenosis, characterize plaque and perform automated vessel measurements.
  • Visualize vessel structures in 3D or curved inset views and evaluate calcified/non-calcified plaque with an automated color-coding feature.

CTA Vascular Aorta

  • CT Aorta enables users to visualize, segment, measure and evaluate the aorta vasculature.

Cardiac CTA Analysis CTA TAVR Planning CTA Carotid CTA Vascular Aorta

CTA Circle of Willis

  • CT Circle of Willis views the vascular anatomy in the Circle of Willis to measure stenosis, evaluate tortuosity and perform measurements.

Mitral Valve Analysis

  • Determine the anatomy and dimensions of your patient’s mitral valve with this dedicated workflow.

LAA Analysis

  • The Left Atrial Appendage Workflow provides a fast view to assess the anatomical shape and orientation of the LAA in 3D. Simply place two landmarks to localize the ostium.

Endovascular Stent Planning

  • CT Endovascular Stent Planning (EVSP) enables visualization and measurements of aortic vessels for evaluation, treatment and follow-up for aortic vascular disorders.
  • It automates 3D segmentation of the aorta and initializes stent measurements, based on a template provided by stent manufacturers for a highly efficient workflow.

CTA Circle of Willis Mitral Valve Analysis LAA Analysis Endovascular Stent Planning

CT EP Planning

  • CT EP Planning enables analysis and assessment of the left atrium and pulmonary veins.
  • The application provides optimized 2D and 3D views with tools for quantitative measurements and 3D model export capabilities.

CTA Liver Analysis

  • CCT Liver Analysis provides tools for segmenting and quantifying the liver and liver-related tumors.
  • It provides automatic registration for display of multiple series, optimized screen layouts and quantification tools for routine clinical measurements.

CTA Renal

  • CT Renal visualizes, segments and measures renal anatomy using CT angiography studies, with tools to evaluate the vessels and create volume measurements of the kidneys.

CTA Runoff

  • CT Runoff removes bone, segments vessel structures, probes individual vessels, measures stenosis, evaluates tortuosity, characterizes plaque and measures vessels with CT Runoff Analysis.

CT EP Planning CTA Liver Analysis CTA Renal CTA Runoff

CT Brain Perfusion 4D

  • CT Brain Perfusion 4D for fX aids with assessing the whole brain and evaluating perfusion deficits by displaying 4D-DSA (digital subtraction angiography) views of blood flow in the vessels and 3D perfusion maps.
  • It supports the physician in visualizing the apparent blood perfusion in brain tissue affected by acute stroke. Automated tools help to efficiently visualize anatomy and pathology.

MRA Vascular

  • MR Vascular evaluates vascular anatomy from MR angiography studies, visualizes and segments vessel structures, probes individual vessels, measures stenosis, evaluates tortuosity, characterizes plaque and performs automated vessel measurements.

MR Brain Tumor

  • MR Vascular evaluates vascular anatomy from MR angiography studies, visualizes and segments vessel structures, probes individual vessels, measures stenosis, evaluates tortuosity, characterizes plaque, semi-automatic volumetric isolation and measurement of brain tumors from MR studies.
  • Semi-automated segmentation of brain tissue.
  • Isolation of enhancing/non-enhancing segments of the tumor.

CT Brain Perfusion 4D MRA Vascular MR Brain Tumor

Advanced Software

Interventional Guidance

CT/MR Modality Fusion

  • Enables the 3D Volume data to be superimposed on the live fluoro display
  • Provides additional views of the vascular anatomy to aid clinicians during interventional procedures
  • When the C-arm rotates, the transparent volume image rotates as well

LA Auto Segmentation

  • Software that enables CT data to be superimposed onto live fluoro display using the 3D Roadmap function
  • CT volume, under 800 images, is exported from Vitrea to the angio-workstation
  • Contrast and brightness of the volume rendered image can be adjusted to view specific vascular anatomy
  • The 3D Roadmap function initiates fluoro overlay with the volume data
  • The fused image helps to improve the understanding of and facilitate manipulation of catheter position
  • When the C-arm rotates, the transparent volume image rotates as well

Modality Fusion TAVR Fusion LA Auto Segmentation

Dynamic Trace

  • Can be used in combination with DSA or to supplement DSA or for stand-alone imaging
  • Dynamic Trace reduces the effects of the bones and enhances background compression to emphasize the blood vessels

3D DA Imaging

  • Infinix-i systems provide extensive C-arm rotation with high acquisition rates for high quality 3D reconstructions
  • Powerful 3D multi-modality workstation provides enhanced views of vascular anatomy to aid clinicians in their diagnosis and treatment planning
  • DICOM networking provides access to patient information and enhances department workflow

Volume Navigation: 3D Roadmap

  • 3D fluoroscopy roadmapping function enables a reconstructed 3D image of vessels and the device-enhanced image to be superimposed on the fluoroscopic image, enabling guidewire manipulation or catheterization to be performed while observing the course of the vessels
  • The 3D image of the vessels automatically changes according to movement of the C-arm and the tabletop
  • This provides additional views of vascular anatomy to aid clinicians during interventional procedures

Dynamic Trace 3D DA Imaging 3D Roadmap

Live Zoom

Potential dose savings compared to traditional field of view (FOV) magnifications.

  • Digitally magnifying the image display from default Magnification Mode
  • Live digital zoom increases image display size in real time during both fluoroscopy and digital acquisition (DA) offering potential dose savings compared to traditional field of view (FOV) magnifications
  • A range of digital zoom modes are offered to change image size and support advanced visualization

DSA Stepping

  • Used in lower extremity
  • Takes a mask of abdomen to feet
  • Second run allows for the table to be moved (stepped) 
  • The clinician follows the injection of contrast from the aorta to the arteries of the feet

Low Contrast Imaging (LCI)

  • On table identification of large hematomas or soft tissues during procedures
  • Support drainage placement procedures
  • Reduce patient transfer from angio table to CT suite
  • Visualize stent placement

Needle Guidance

  • Supports real time navigation of needle insertion during percutaneous procedures; such as biopsy or RF ablation
  • Identifies the optimum point of needle entry and distance to the targeted anatomy
  • Acquired LCI or 3D-DA images are superimposed over the live fluoroscopic image to provide visualization of anatomical structures during the procedure

Live Zoom DSA Stepping LCI Needle Guidance

Neuro Angio

  • Interventional for Stroke/Aneurysm
  • An estimated 6 million people in the US have an un-ruptured brain aneurysm (1 in 50) which are fatal if they rupture*

Parametric Imaging**

  • Displays an entire image sequence as a single composite image
  • Color coded in order to characterize the contrast media dynamics and to allow easier visual evaluation
  • Parametric parameters include: Time To Peak (TTP). Time To Peak Alpha (TTPα), Peak Height (PH), Area Under Curve (AUC), Time To Arrival (TTA), Time To Arrival Alpha (TTAα), Mean Transit Time (MTT)

2D Subtracted Roadmap—Fluoro

Can be created from an injection or utilize a previous fluoro record, fluoro save or an acquisition.

3D Angiography

  • 3D-DA (3D Digital Angiography): Uses 3D reconstruction with rotational DA imaging to depict vascular anatomy
  • 3D-DSA (3D Digital Subtraction Angiography): Reconstructs rotational DSA images in 3D to depict bones, tissue and vascular anatomy

Neuro Angio Parametric Imaging 2D Subtracted Roadmap 3D-Angiography

*The Brain Aneurysm Foundation, Brain Aneurysm Statistics and Facts. Oct. 2015. (www.bafound.org/Statistics_and_Facts)
**Parametric Imaging Software is not intended for stand-alone use or diagnosis.

3D Digital Subtraction Angiography (DSA)

  • Takes two spins around the patient
  • One spin without contrast
  • The other spin with contrast
  • Allows full subtraction of bones throughout entire rotation
  • Used frequently in Neuro imaging

2D Coronary Rotation

  • 2D Rotational Coronary DA image capture

3D-DSA 2D Coronary Rotation

Detector Choices for Every Need

An appropriate panel size is critical to ensuring the best image quality at the lowest dose.

Infinix-i cardiovascular systems are available with different flat panel detector sizes depending on your coverage needs. The overall selection and flexible performance will enhance any imaging department's workflow and patient care.

A uniquely designed mid-sized panel detector provides twice as much anatomical coverage in a single view versus traditional smaller flat panel detectors.
  • 8" x 8" designed primarily for cardiac imaging
  • New 12" x 12" panel designed for cardiovascular procedures
  • 12" x 16" panel, designed primarily for vascular, but can perform cardiac imaging

Intuitive Operation

Tableside Controls

All Infinix-i systems utilize intuitive tableside controls, with an ergonomic Hyperhandle, to provide all exam functions at the touch of a button. Once you've learned the system, you can intuitively manipulate the system by touch.

Automate Procedures

Sequential Navigation

Physicians can quickly navigate through any procedure with Canon Medical Systems' innovative Sequential Navigation. One touch of a button enables navigation through routine settings for each procedure type, while operators can change any parameter throughout the procedure without disrupting Sequential Navigation.
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