Increase confidence and ease during transcatheter aortic valve replacement (TAVR) and other challenging SHD procedures. The immersive user experience is highly automated to simplify planning, device selection and projection angle selection. During procedures, it provides live image guidance to support device positioning.
Napsauttamalla linkkiä poistut viralliselta Philips Electronics Ltd:n ("Philips") verkkosivustolta. Kaikki tällä sivustolla mahdollisesti olevat linkit kolmansien osapuolten verkkosivustoille tarjotaan vain avuksesi, eivätkä ne millään tavalla edusta minkäänlaista yhteyttä tai tukea näillä linkitetyillä verkkosivustoilla annettuihin tietoihin. Philips ei anna minkäänlaisia väitteitä tai takuita kolmansien osapuolien verkkosivustoista tai niiden sisältämistä tiedoista.
For immediate technical support, please use the phone number below.
Philips Finland
Call: 1-800-722-9377 or +358961580436
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Features
Automatic segmentation saves time
Automatic segmentation saves time
Once you load a pre-operative DICOM compliant CT dataset and a 3D volume is rendered, HeartNavigator automatically segments tissue, anatomical structures, landmarks, calcium, and planes of the heart for TAVR/TAVI. To facilitate mitral valve replacement, left atrial appendage closure (LAAC) and other procedures, HeartNavigator automatically segments the entire heart.
Automatic segmentation saves time
Once you load a pre-operative DICOM compliant CT dataset and a 3D volume is rendered, HeartNavigator automatically segments tissue, anatomical structures, landmarks, calcium, and planes of the heart for TAVR/TAVI. To facilitate mitral valve replacement, left atrial appendage closure (LAAC) and other procedures, HeartNavigator automatically segments the entire heart.
Automatic segmentation saves time
Once you load a pre-operative DICOM compliant CT dataset and a 3D volume is rendered, HeartNavigator automatically segments tissue, anatomical structures, landmarks, calcium, and planes of the heart for TAVR/TAVI. To facilitate mitral valve replacement, left atrial appendage closure (LAAC) and other procedures, HeartNavigator automatically segments the entire heart.
Once you load a pre-operative DICOM compliant CT dataset and a 3D volume is rendered, HeartNavigator automatically segments tissue, anatomical structures, landmarks, calcium, and planes of the heart for TAVR/TAVI. To facilitate mitral valve replacement, left atrial appendage closure (LAAC) and other procedures, HeartNavigator automatically segments the entire heart.
Automatic landmarks to stay on track
Automatic landmarks to stay on track
For additional guidance, HeartNavigator automatically places landmarks on a large variety of anatomical structures, including the ostia of the coronaries, 3 nadirs, etc. They can be manually adapted as needed.
Automatic landmarks to stay on track
For additional guidance, HeartNavigator automatically places landmarks on a large variety of anatomical structures, including the ostia of the coronaries, 3 nadirs, etc. They can be manually adapted as needed.
Automatic landmarks to stay on track
For additional guidance, HeartNavigator automatically places landmarks on a large variety of anatomical structures, including the ostia of the coronaries, 3 nadirs, etc. They can be manually adapted as needed.
For additional guidance, HeartNavigator automatically places landmarks on a large variety of anatomical structures, including the ostia of the coronaries, 3 nadirs, etc. They can be manually adapted as needed.
Automatic measurements help avoid errors
Automatic measurements help avoid errors
A single click creates area, perimeter, diameter and distance measurements of anatomical structures for TAVR or TAVI procedures. The measurements are performed within the detected anatomical planes and are shown on the displayed centerline. For all other SHD procedures, manual measurements are provided.
Automatic measurements help avoid errors
A single click creates area, perimeter, diameter and distance measurements of anatomical structures for TAVR or TAVI procedures. The measurements are performed within the detected anatomical planes and are shown on the displayed centerline. For all other SHD procedures, manual measurements are provided.
Automatic measurements help avoid errors
A single click creates area, perimeter, diameter and distance measurements of anatomical structures for TAVR or TAVI procedures. The measurements are performed within the detected anatomical planes and are shown on the displayed centerline. For all other SHD procedures, manual measurements are provided.
A single click creates area, perimeter, diameter and distance measurements of anatomical structures for TAVR or TAVI procedures. The measurements are performed within the detected anatomical planes and are shown on the displayed centerline. For all other SHD procedures, manual measurements are provided.
Calcification visualization to avoid potential complications
Calcification visualization to avoid potential complications
The software enhances insight into the distribution of calcifications in the ascending aorta, aortic valve annulus, and left ventricle. By determining the severity and location of calcification, you can avoid potential complications during procedures.
Calcification visualization to avoid potential complications
The software enhances insight into the distribution of calcifications in the ascending aorta, aortic valve annulus, and left ventricle. By determining the severity and location of calcification, you can avoid potential complications during procedures.
Calcification visualization to avoid potential complications
The software enhances insight into the distribution of calcifications in the ascending aorta, aortic valve annulus, and left ventricle. By determining the severity and location of calcification, you can avoid potential complications during procedures.
Calcification visualization to avoid potential complications
Calcification visualization to avoid potential complications
The software enhances insight into the distribution of calcifications in the ascending aorta, aortic valve annulus, and left ventricle. By determining the severity and location of calcification, you can avoid potential complications during procedures.
Automatic view planning aids positioning
Automatic view planning aids positioning
HeartNavigator automatically determines the most optimal projection angles to use during the procedure. This can avoid the need to acquire multiple aortagrams. Projections can be recalled tableside for further savings.
Automatic view planning aids positioning
HeartNavigator automatically determines the most optimal projection angles to use during the procedure. This can avoid the need to acquire multiple aortagrams. Projections can be recalled tableside for further savings.
Automatic view planning aids positioning
HeartNavigator automatically determines the most optimal projection angles to use during the procedure. This can avoid the need to acquire multiple aortagrams. Projections can be recalled tableside for further savings.
HeartNavigator automatically determines the most optimal projection angles to use during the procedure. This can avoid the need to acquire multiple aortagrams. Projections can be recalled tableside for further savings.
Enhanced device selection to check correct fit
Enhanced device selection to check correct fit
It is critical in TAVR/TAVI to select a properly sized aortic valve repair device. HeartNavigator lets you visualize the 3D virtual device templates of many of the latest TAVR/TAVI devices, modeled in cooperation with leading device manufacturers.
Enhanced device selection to check correct fit
It is critical in TAVR/TAVI to select a properly sized aortic valve repair device. HeartNavigator lets you visualize the 3D virtual device templates of many of the latest TAVR/TAVI devices, modeled in cooperation with leading device manufacturers.
Enhanced device selection to check correct fit
It is critical in TAVR/TAVI to select a properly sized aortic valve repair device. HeartNavigator lets you visualize the 3D virtual device templates of many of the latest TAVR/TAVI devices, modeled in cooperation with leading device manufacturers.
It is critical in TAVR/TAVI to select a properly sized aortic valve repair device. HeartNavigator lets you visualize the 3D virtual device templates of many of the latest TAVR/TAVI devices, modeled in cooperation with leading device manufacturers.
Integrated live image guidance supports precise navigation
Integrated live image guidance supports precise navigation
You can get real-time feedback to guide navigation through the vasculature. The 3D CT volume rendering of the ascending aorta can be matched with live fluoro to show the exact position of catheters and devices in relation to the reference image. The 3D CT rendering moves in sync with system movements during the procedure.
Integrated live image guidance supports precise navigation
You can get real-time feedback to guide navigation through the vasculature. The 3D CT volume rendering of the ascending aorta can be matched with live fluoro to show the exact position of catheters and devices in relation to the reference image. The 3D CT rendering moves in sync with system movements during the procedure.
Integrated live image guidance supports precise navigation
You can get real-time feedback to guide navigation through the vasculature. The 3D CT volume rendering of the ascending aorta can be matched with live fluoro to show the exact position of catheters and devices in relation to the reference image. The 3D CT rendering moves in sync with system movements during the procedure.
Integrated live image guidance supports precise navigation
Integrated live image guidance supports precise navigation
You can get real-time feedback to guide navigation through the vasculature. The 3D CT volume rendering of the ascending aorta can be matched with live fluoro to show the exact position of catheters and devices in relation to the reference image. The 3D CT rendering moves in sync with system movements during the procedure.
Automatic segmentation saves time
Automatic landmarks to stay on track
Automatic measurements help avoid errors
Calcification visualization to avoid potential complications
Once you load a pre-operative DICOM compliant CT dataset and a 3D volume is rendered, HeartNavigator automatically segments tissue, anatomical structures, landmarks, calcium, and planes of the heart for TAVR/TAVI. To facilitate mitral valve replacement, left atrial appendage closure (LAAC) and other procedures, HeartNavigator automatically segments the entire heart.
Automatic segmentation saves time
Once you load a pre-operative DICOM compliant CT dataset and a 3D volume is rendered, HeartNavigator automatically segments tissue, anatomical structures, landmarks, calcium, and planes of the heart for TAVR/TAVI. To facilitate mitral valve replacement, left atrial appendage closure (LAAC) and other procedures, HeartNavigator automatically segments the entire heart.
Automatic segmentation saves time
Once you load a pre-operative DICOM compliant CT dataset and a 3D volume is rendered, HeartNavigator automatically segments tissue, anatomical structures, landmarks, calcium, and planes of the heart for TAVR/TAVI. To facilitate mitral valve replacement, left atrial appendage closure (LAAC) and other procedures, HeartNavigator automatically segments the entire heart.
Once you load a pre-operative DICOM compliant CT dataset and a 3D volume is rendered, HeartNavigator automatically segments tissue, anatomical structures, landmarks, calcium, and planes of the heart for TAVR/TAVI. To facilitate mitral valve replacement, left atrial appendage closure (LAAC) and other procedures, HeartNavigator automatically segments the entire heart.
Automatic landmarks to stay on track
Automatic landmarks to stay on track
For additional guidance, HeartNavigator automatically places landmarks on a large variety of anatomical structures, including the ostia of the coronaries, 3 nadirs, etc. They can be manually adapted as needed.
Automatic landmarks to stay on track
For additional guidance, HeartNavigator automatically places landmarks on a large variety of anatomical structures, including the ostia of the coronaries, 3 nadirs, etc. They can be manually adapted as needed.
Automatic landmarks to stay on track
For additional guidance, HeartNavigator automatically places landmarks on a large variety of anatomical structures, including the ostia of the coronaries, 3 nadirs, etc. They can be manually adapted as needed.
For additional guidance, HeartNavigator automatically places landmarks on a large variety of anatomical structures, including the ostia of the coronaries, 3 nadirs, etc. They can be manually adapted as needed.
Automatic measurements help avoid errors
Automatic measurements help avoid errors
A single click creates area, perimeter, diameter and distance measurements of anatomical structures for TAVR or TAVI procedures. The measurements are performed within the detected anatomical planes and are shown on the displayed centerline. For all other SHD procedures, manual measurements are provided.
Automatic measurements help avoid errors
A single click creates area, perimeter, diameter and distance measurements of anatomical structures for TAVR or TAVI procedures. The measurements are performed within the detected anatomical planes and are shown on the displayed centerline. For all other SHD procedures, manual measurements are provided.
Automatic measurements help avoid errors
A single click creates area, perimeter, diameter and distance measurements of anatomical structures for TAVR or TAVI procedures. The measurements are performed within the detected anatomical planes and are shown on the displayed centerline. For all other SHD procedures, manual measurements are provided.
A single click creates area, perimeter, diameter and distance measurements of anatomical structures for TAVR or TAVI procedures. The measurements are performed within the detected anatomical planes and are shown on the displayed centerline. For all other SHD procedures, manual measurements are provided.
Calcification visualization to avoid potential complications
Calcification visualization to avoid potential complications
The software enhances insight into the distribution of calcifications in the ascending aorta, aortic valve annulus, and left ventricle. By determining the severity and location of calcification, you can avoid potential complications during procedures.
Calcification visualization to avoid potential complications
The software enhances insight into the distribution of calcifications in the ascending aorta, aortic valve annulus, and left ventricle. By determining the severity and location of calcification, you can avoid potential complications during procedures.
Calcification visualization to avoid potential complications
The software enhances insight into the distribution of calcifications in the ascending aorta, aortic valve annulus, and left ventricle. By determining the severity and location of calcification, you can avoid potential complications during procedures.
Calcification visualization to avoid potential complications
Calcification visualization to avoid potential complications
The software enhances insight into the distribution of calcifications in the ascending aorta, aortic valve annulus, and left ventricle. By determining the severity and location of calcification, you can avoid potential complications during procedures.
Automatic view planning aids positioning
Automatic view planning aids positioning
HeartNavigator automatically determines the most optimal projection angles to use during the procedure. This can avoid the need to acquire multiple aortagrams. Projections can be recalled tableside for further savings.
Automatic view planning aids positioning
HeartNavigator automatically determines the most optimal projection angles to use during the procedure. This can avoid the need to acquire multiple aortagrams. Projections can be recalled tableside for further savings.
Automatic view planning aids positioning
HeartNavigator automatically determines the most optimal projection angles to use during the procedure. This can avoid the need to acquire multiple aortagrams. Projections can be recalled tableside for further savings.
HeartNavigator automatically determines the most optimal projection angles to use during the procedure. This can avoid the need to acquire multiple aortagrams. Projections can be recalled tableside for further savings.
Enhanced device selection to check correct fit
Enhanced device selection to check correct fit
It is critical in TAVR/TAVI to select a properly sized aortic valve repair device. HeartNavigator lets you visualize the 3D virtual device templates of many of the latest TAVR/TAVI devices, modeled in cooperation with leading device manufacturers.
Enhanced device selection to check correct fit
It is critical in TAVR/TAVI to select a properly sized aortic valve repair device. HeartNavigator lets you visualize the 3D virtual device templates of many of the latest TAVR/TAVI devices, modeled in cooperation with leading device manufacturers.
Enhanced device selection to check correct fit
It is critical in TAVR/TAVI to select a properly sized aortic valve repair device. HeartNavigator lets you visualize the 3D virtual device templates of many of the latest TAVR/TAVI devices, modeled in cooperation with leading device manufacturers.
It is critical in TAVR/TAVI to select a properly sized aortic valve repair device. HeartNavigator lets you visualize the 3D virtual device templates of many of the latest TAVR/TAVI devices, modeled in cooperation with leading device manufacturers.
Integrated live image guidance supports precise navigation
Integrated live image guidance supports precise navigation
You can get real-time feedback to guide navigation through the vasculature. The 3D CT volume rendering of the ascending aorta can be matched with live fluoro to show the exact position of catheters and devices in relation to the reference image. The 3D CT rendering moves in sync with system movements during the procedure.
Integrated live image guidance supports precise navigation
You can get real-time feedback to guide navigation through the vasculature. The 3D CT volume rendering of the ascending aorta can be matched with live fluoro to show the exact position of catheters and devices in relation to the reference image. The 3D CT rendering moves in sync with system movements during the procedure.
Integrated live image guidance supports precise navigation
You can get real-time feedback to guide navigation through the vasculature. The 3D CT volume rendering of the ascending aorta can be matched with live fluoro to show the exact position of catheters and devices in relation to the reference image. The 3D CT rendering moves in sync with system movements during the procedure.
Integrated live image guidance supports precise navigation
Integrated live image guidance supports precise navigation
You can get real-time feedback to guide navigation through the vasculature. The 3D CT volume rendering of the ascending aorta can be matched with live fluoro to show the exact position of catheters and devices in relation to the reference image. The 3D CT rendering moves in sync with system movements during the procedure.
Napsauttamalla linkkiä poistut viralliselta Philips Electronics Ltd:n ("Philips") verkkosivustolta. Kaikki tällä sivustolla mahdollisesti olevat linkit kolmansien osapuolten verkkosivustoille tarjotaan vain avuksesi, eivätkä ne millään tavalla edusta minkäänlaista yhteyttä tai tukea näillä linkitetyillä verkkosivustoilla annettuihin tietoihin. Philips ei anna minkäänlaisia väitteitä tai takuita kolmansien osapuolien verkkosivustoista tai niiden sisältämistä tiedoista.
