VisionAir 3D Stents are made-to-order utilizing 3D-printed molds that are injected with medical-grade silicone and delivered to your medical center in time for the procedure. Through years of patient-specific device and process engineering, VisionAir Solutions accomplishes this fast turnaround through vertical integration of its software suite and manufacturing activities.
Advanced Design Controls enable precise stent positioning and sizing relative to an airway cross-section. When the Advanced Design Panel is active, the stent diameter shown in the cross-section can be adjusted to configure the placement and size of the stent at that position. Advanced Design Controls utilize a bronchoscopic view with a cross-sectional rendering of the airway walls. This provides a unique perspective of the airway's morphology and luminal diameters at that point. The longest and shortest diameters of the airway can be visualized while making stent adjustments.
Built directly into VisionAir 3D, the CT Scan Viewer is a fully functional DICOM viewer that can be activated at any point during 3D stent design. A real-time 2D image of the stent being designed in the 3D viewer can be overlaid on the coronal, transverse, and sagittal CT planes, enabling review of the stent design with the surrounding anatomy. Accurate linear measurements can be taken directly in the interface to bridge traditional stent sizing methods with our 3D stent design interface for precise stent templating in relation to the patient's anatomy.
The Airway Measurement Tool enables precise assessment of cross-sectional morphology by combining real-time diameter and shape visualization with automatically-computed values.The cross-section is rendered perpendicular to the airway centerline and measurements are automatically taken through the center of the cross-section. Get a simulated bronchoscopy flythrough with diametric and shape visualization by simply clicking and dragging the handle in the 3D airway model.
The 3D Viewer will indicate when an airway branch is blocked/jailed by a Stent Design. When a 3D Stent is manufactured with a Jailed Airway Indicator, a small molded target will indicate where the jailed airway intersects the stent for accurate on-site fenestration and subsequent ventilation of the jailed airway. Jailed Airway Indicators are small raised targets that allow you to accurately fenestrate the 3D Stent, eliminating the need for intraoperative estimation of where a hole should be cut. The outer diameter of the indicator was designed to easily mate with commercially-available cutting tools.
The VisionAir 3D Stent Architect is the cloud-based analysis and design platform used by physicians to create 3D Stents and analyze airway specifications with tools designed in conjunction with the best interventional pulmonologists in the US. By matching the way leading pulmonologists think about stent sizing, shape, and configuration, this innovative system enables physicians to efficiently design silicone stents for a patient’s unique airway anatomy.
Advanced Design Controls enable precise stent positioning and sizing relative to an airway cross-section. When the Advanced Design Panel is active, the stent diameter shown in the cross-section can be adjusted to configure the placement and size of the stent at that position. Advanced Design Controls utilize a bronchoscopic view with a cross-sectional rendering of the airway walls. This provides a unique perspective of the airway's morphology and luminal diameters at that point. The longest and shortest diameters of the airway can be visualized while making stent adjustments.
Built directly into VisionAir 3D, the CT Scan Viewer is a fully functional DICOM viewer that can be activated at any point during 3D stent design. A real-time 2D image of the stent being designed in the 3D viewer can be overlaid on the coronal, transverse, and sagittal CT planes, enabling review of the stent design with the surrounding anatomy. Accurate linear measurements can be taken directly in the interface to bridge traditional stent sizing methods with our 3D stent design interface for precise stent templating in relation to the patient's anatomy.
The Airway Measurement Tool enables precise assessment of cross-sectional morphology by combining real-time diameter and shape visualization with automatically-computed values.The cross-section is rendered perpendicular to the airway centerline and measurements are automatically taken through the center of the cross-section. Get a simulated bronchoscopy flythrough with diametric and shape visualization by simply clicking and dragging the handle in the 3D airway model.
The 3D Viewer will indicate when an airway branch is blocked/jailed by a Stent Design. When a 3D Stent is manufactured with a Jailed Airway Indicator, a small molded target will indicate where the jailed airway intersects the stent for accurate on-site fenestration and subsequent ventilation of the jailed airway. Jailed Airway Indicators are small raised targets that allow you to accurately fenestrate the 3D Stent, eliminating the need for intraoperative estimation of where a hole should be cut. The outer diameter of the indicator was designed to easily mate with commercially-available cutting tools.
The VisionAir 3D Stent Architect platform provides a comprehensive streamlined platform for processing CT scans, analyzing airway specifications, designing, and ordering 3D Stents for shipment in 3-5 business days.
VisionAir processes CT scans in a proprietary cloud-based application and provides pulmonologists with an anatomically accurate 3D model of a patient’s airway for Stent Design.
Once a CT scan has been processed, it will automatically be returned to your account and sorted for Stent Design in the Patient’s Profile.
VisionAir puts stent design in the hands of treating pulmonologists requiring only a web browser on a standard computer.
Order, ship, and track Stent Designs directly from the app. We will manufacture and ship your Stent Design orders in 3-5 business days.
Advanced Design Controls enable precise stent positioning and sizing relative to an airway cross-section. When the Advanced Design Panel is active, the stent diameter shown in the cross-section can be adjusted to configure the placement and size of the stent at that position. Advanced Design Controls utilize a bronchoscopic view with a cross-sectional rendering of the airway walls. This provides a unique perspective of the airway's morphology and luminal diameters at that point. The longest and shortest diameters of the airway can be visualized while making stent adjustments.
Built directly into VisionAir 3D, the CT Scan Viewer is a fully functional DICOM viewer that can be activated at any point during 3D stent design. A real-time 2D image of the stent being designed in the 3D viewer can be overlaid on the coronal, transverse, and sagittal CT planes, enabling review of the stent design with the surrounding anatomy. Accurate linear measurements can be taken directly in the interface to bridge traditional stent sizing methods with our 3D stent design interface for precise stent templating in relation to the patient's anatomy.
The Airway Measurement Tool enables precise assessment of cross-sectional morphology by combining real-time diameter and shape visualization with automatically-computed values.The cross-section is rendered perpendicular to the airway centerline and measurements are automatically taken through the center of the cross-section. Get a simulated bronchoscopy flythrough with diametric and shape visualization by simply clicking and dragging the handle in the 3D airway model.
The 3D Viewer will indicate when an airway branch is blocked/jailed by a Stent Design. When a 3D Stent is manufactured with a Jailed Airway Indicator, a small molded target will indicate where the jailed airway intersects the stent for accurate on-site fenestration and subsequent ventilation of the jailed airway. Jailed Airway Indicators are small raised targets that allow you to accurately fenestrate the 3D Stent, eliminating the need for intraoperative estimation of where a hole should be cut. The outer diameter of the indicator was designed to easily mate with commercially-available cutting tools.
