System, nuclear magnetic resonance spectroscopic,System, nuclear magnetic resona
System, nuclear magnetic resonance spectroscopic,System, nuclear magnetic resonance imaging
The Cedars-Sinai Cardiac Suite is a stand-alone software solution for Cardiac SP
The Cedars-Sinai Cardiac Suite is a stand-alone software solution for Cardiac SPECT and PET imaging processing and review. The Cedars-Sinai Cardiac Suite operates on camera independent reconstructed SPECT and/or PET image files.Cedars-Sinai Cardiac Suite will be marketed as a comprehensive application suite that includes QGS (Quantitative Gated SPECT), QPS (Quantitative Perfusion SPECT) and CSImport applications. This allows automatic processing and review of quantitative and qualitative information generated by nuclear medicine studies. Purchasable Options consist of Quantitative Blood Pool SPECT (QBS), QARG (for reporting purposes), Fusion (SPECT/CT/CTA and/or PET/CT/CTA), Motion Correction (MOCO) and QPET. QPET also includes viability quantification and two additional databases (rubidium and ammonia) for processing PET studies.
The Cedars-Sinai Cardiac Suite is a stand-alone software solution for Cardiac SP
The Cedars-Sinai Cardiac Suite is a stand-alone software solution for Cardiac SPECT and PET imaging processing and review. The Cedars-Sinai Cardiac Suite operates on camera independent reconstructed SPECT and/or PET image files.Cedars-Sinai Cardiac Suite will be marketed as a comprehensive application suite that includes QGS (Quantitative Gated SPECT), QPS (Quantitative Perfusion SPECT) and CSImport applications. This allows automatic processing and review of quantitative and qualitative information generated by nuclear medicine studies. Purchasable Options consist of Quantitative Blood Pool SPECT (QBS), QARG (for reporting purposes), Fusion (SPECT/CT/CTA and/or PET/CT/CTA), Motion Correction (MOCO) and QPET. QPET also includes viability quantification and two additional databases (rubidium and ammonia) for processing PET studies.
The Cedars-Sinai Cardiac Suite is a stand-alone software solution for Cardiac SP
The Cedars-Sinai Cardiac Suite is a stand-alone software solution for Cardiac SPECT and PET imaging processing and review. The Cedars-Sinai Cardiac Suite operates on camera independent reconstructed SPECT and/or PET image files.Cedars-Sinai Cardiac Suite will be marketed as a comprehensive application suite that includes QGS (Quantitative Gated SPECT), QPS (Quantitative Perfusion SPECT) and CSImport applications. This allows automatic processing and review of quantitative and qualitative information generated by nuclear medicine studies. Purchasable Options consist of Quantitative Blood Pool SPECT (QBS), QARG (for reporting purposes), Fusion (SPECT/CT/CTA and/or PET/CT/CTA), Motion Correction (MOCO) and QPET. QPET also includes viability quantification and two additional databases (rubidium and ammonia) for processing PET studies.
Weight Bearing CT Imaging for Foot, Ankle, and Knee. Non-Load Bearing imaging of
Weight Bearing CT Imaging for Foot, Ankle, and Knee. Non-Load Bearing imaging of upper extremities.
Weight Bearing CT Imaging for Foot, Ankle, and Knee. Non-Load Bearing imaging of
Weight Bearing CT Imaging for Foot, Ankle, and Knee. Non-Load Bearing imaging of upper extremities.
Cone Beam Computed Tomography diagnostic extremity imaging system. Compatible wi
Cone Beam Computed Tomography diagnostic extremity imaging system. Compatible with 230 Volts power outlet. 3D field of view of 17.2 cm (height) x 16cm (diameter) accommodates imaging of hand, wrist, forearm, elbow, knee, lower leg or foot. Bore platforms are interchangeable to accommodate patient size and body part. Self-shielded to reduce scatter radiation during scan. Scan time is less than 30 seconds. Scans are output as DICOM compatible 3D reconstructions, 0.2 mm multi-planar slices. In Reach system includes acquisition station and visualization station enabled with CubeVue visualization software.
Cone Beam Computed Tomography diagnostic extremity imaging system. Compatible wi
Cone Beam Computed Tomography diagnostic extremity imaging system. Compatible with 115 Volts power outlet. 3D field of view of 17.2 cm (height) x 16cm (diameter) accommodates imaging of hand, wrist, forearm, elbow, knee, lower leg or foot. Bore platforms are interchangeable to accommodate patient size and body part. Self-shielded to reduce scatter radiation during scan. Scan time is less than 30 seconds. Scans are output as DICOM compatible 3D reconstructions, 0.2 mm multi-planar slices. In Reach system includes acquisition station and visualization station enabled with CubeVue visualization software.
Cone Beam Computed Tomography diagnostic imaging system dedicated to the foot an
Cone Beam Computed Tomography diagnostic imaging system dedicated to the foot and ankle. Compatible with 230 Volts power outlet. 3D field of view of 20 cm (height) x 35 cm (diameter) accommodates weight bearing, bilateral imaging of both entire feet/ankles. Built-in cushioned seat allows for non-weight bearing imaging. Handlebars assist patients with entry into and exit from device. Scan time is 48 seconds or less. Scans are output as DICOM compatible 3D reconstructions, 0.3 mm multi-planar slices. PedCAT system includes acquisition station and visualization station enabled with CubeVue visualization software.
Cone Beam Computed Tomography diagnostic imaging system dedicated to the foot an
Cone Beam Computed Tomography diagnostic imaging system dedicated to the foot and ankle. Compatible with 115 Volts power outlet. 3D field of view of 20 cm (height) x 35 cm (diameter) accommodates weight bearing, bilateral imaging of both entire feet / ankles. Built-in cushioned seat allows for non-weight bearing imaging. Handlebars assist patients with entry into and exit from device. Scan time is 48 seconds or less. Scans are output as DICOM compatible 3D reconstructions, 0.3 mm multi-planar slices. PedCAT system includes acquisition station and visualization station enabled with CubeVue visualization software.
ImagenSPECT™ 3.0 is a Windows application which allows physicians and healthcare
ImagenSPECT™ 3.0 is a Windows application which allows physicians and healthcare professionals to inspect, reconstruct and reorient myocardial perfusion SPECT images. The system processes gated and ungated SPECT cardiac images to create 3D tomographic data. The user can correct for patient motion, change filter settings, change reconstruction settings, range of reconstruction, and reorientation angles. The application also models the influence of distance dependent blur. The use of this system is limited to qualified, licensed healthcare providers (radiologists, nuclear cardiologists or nuclear medicine physicians) trained in the use of nuclear medicine imaging devices. This software also processes, display and performs quantitative calculations of LVEF on multigated acquisition blood pool scans (MUGA). ImagenSPECT™ 3.0 is used to quantitate the uptake of 99mTc pyrophosphate in early and late planar and SPECT studies.The ImagenSPECT™ 3.0 system is designed to take nuclear medicine data from commercially available SPECT systems and process the data into a format that can be visualized by a separate computer program or workstation. In addition, quarter-counts, half dose and/or half-time scans can be reconstructed with ImagenSPECT™ 3.0 using resolution recovery, iterative reconstruction and is equivalent to the predicate ImagenSPECT™ (k152503) using half-counts and full counts (full-time scan, half dose/ half-time, full dose).
ImagenUniversal is a Windows application that allows physicians and healthcare p
ImagenUniversal is a Windows application that allows physicians and healthcare professionals to correct myocardial perfusion PET images for transmission and emission misregistration, prompt gamma events, photon scatter and image noise.
ImagenPRO is a software application installed on desktop computers with allows p
ImagenPRO is a software application installed on desktop computers with allows physicians and healthcare professionals to inspect, reconstruct, and reorient myocardial perfusion PET images. The system processes perfusion and gated PET raw emission and transmission data to create 3D tomographic data. The user can select correction parameters, filter setting, range of reconstruction, and reorientation angels.
The ImagenSPECT™ system is a software application that provides a processing env
The ImagenSPECT™ system is a software application that provides a processing environment for the analysis and display of cardiac SPECT images. The results of this processing may be used in determining the presence of cardiac diseases. Data for ImagenSPECT is derived from a nuclear medicine gamma camera. The resulting datasets may be either planar or 3D tomograms of patient anatomy.
DELTAmanager is a software package that provides display, review, and communicat
DELTAmanager is a software package that provides display, review, and communications for Nuclear Medicine, Molecular Imaging, and PET/CT images. DELTAmanager may be used for remote reading on a stand alone workstation or as a plug-in on a PACS workstation.
SeeFactorCT3 is a cone beam computed tomography x-ray imaging system that acquir
SeeFactorCT3 is a cone beam computed tomography x-ray imaging system that acquires sequences of the head including the ear, nose and throat (ENT), dento-maxillofacial complex, teeth, mandible and jaw, temporo-mandibular joint (TMJ), other areas of human skull and neck with sections of upper cervical spine, and upper and lower extremities for use in diagnostic support. The device displays two and three dimensional images for each examined anatomical region.The device is operated and used by physicians, dentists, x-ray technologists and other legally qualified professionals.
SubtlePET is an image processing software intended for use by radiologists and n
SubtlePET is an image processing software intended for use by radiologists and nuclear medicine physicians for transfer, storage, and noise reduction of fluorodeoxyglucose (FDG), amyloid, 18F-DOPA, 18F-DCFPyL, Ga-68 Dotatate, and Ga-68 PSMA radiotracer PET images (including PET/CT and PET/MRI).
AFFINITY is a software application used to process, display, analyze and manage
AFFINITY is a software application used to process, display, analyze and manage nuclear medicine and other medical imaging data transferred from other workstations, PACS or acquisition stations. The information acquired from viewing the images is used, in conjunction with other patient related data, for diagnosis and monitoring of disease.
Hermes Medical Imaging Suite provides software applications used to process, dis
Hermes Medical Imaging Suite provides software applications used to process, display, analyze and manage nuclear medicine and other medical imaging data transferred from other workstation or acquisition stations.
AFFINITY is a software application used to process, display, analyse and manage
AFFINITY is a software application used to process, display, analyse and manage nuclear medicine and other medical imaging data transferred from other workstations, PACS or acquisition stations. The information acquired from viewing the images is used, in conjunction with other patient related data, for diagnosis and monitoring of disease.
AFFINITY is a software application used to process, display, analyse and manage
AFFINITY is a software application used to process, display, analyse and manage nuclear medicine and other medical imaging data transferred from other workstations, PACS or acquisition stations. The information acquired from viewing the images is used, in conjunction with other patient related data, for diagnosis and monitoring of disease.
Provides software applications used to process, display, analyze and manage nucl
Provides software applications used to process, display, analyze and manage nuclear medicine and other medical imaging data transferred from other workstation or acquisition stations. The Lung Lobe Quantification module in Hybrid3D introduces an efficient and automated workflow solution to compute 3D lobar anatomy from CT (with or without contrast). Functional images (SPECT V/Q, SUV SPECT, CT iodine maps, hyperpolarized xenon MRI, etc.) can also be include in the analysis to relate lobar anatomy to function.
HMS Medical Imaging Suite that provides software applications used to process, d
HMS Medical Imaging Suite that provides software applications used to process, display, analyze and manage nuclear medicine and other medical imaging data transferred from other workstation or acquisition stations.
Provides software applications used to process, display, analyze and manage nucl
Provides software applications used to process, display, analyze and manage nuclear medicine and other medical imaging data transferred from other workstation or acquisition stations.The Lung Lobe Quantification module in Hybrid3D introduces an efficient and automated workflow solution to compute 3D lobar anatomy from CT (with or without contrast). Functional images (SPECT V/Q, SUV SPECT, CT iodine maps, hyperpolarized xenon MRI, etc.) can also be include in the analysis to relate lobar anatomy to function.
HMS Medical Imaging Suite that provides software applications used to process, d
HMS Medical Imaging Suite that provides software applications used to process, display, analyze and manage nuclear medicine and other medical imaging data transferred from other workstation or acquisition stations.
VeraLook® CTC CAD Software is intended to automatically detect potential polyps
VeraLook® CTC CAD Software is intended to automatically detect potential polyps in CT Colonography exams. The identified polyps can then be highlighted to the interpreting physician after initial review of the CTC exam with the intent of identifying additional potential polyps that may not have been identified on initial review.
VeraLook® CTC CAD Software is intended to automatically detect potential polyps
VeraLook® CTC CAD Software is intended to automatically detect potential polyps in CT Colonography exams. The identified polyps can then be highlighted to the interpreting physician after initial review of the CTC exam with the intent of identifying additional potential polyps that may not have been identified on initial review.
VeraLook® CTC CAD Software is intended to automatically detect potential polyps
VeraLook® CTC CAD Software is intended to automatically detect potential polyps in CT Colonography exams. The identified polyps can then be highlighted to the interpreting physician after initial review of the CTC exam with the intent of identifying additional potential polyps that may not have been identified on initial review.
VeraLook® CTC CAD Software is intended to automatically detect potential polyps
VeraLook® CTC CAD Software is intended to automatically detect potential polyps in CT Colonography exams. The identified polyps can then be highlighted to the interpreting physician after initial review of the CTC exam with the intent of identifying additional potential polyps that may not have been identified on initial review.
The SynChron™ Wireless Vector Gating System for CT is a product used to acquire
The SynChron™ Wireless Vector Gating System for CT is a product used to acquire electrocardiogram (ECG) data from a patient and to generate and supply ECG waveform and triggering pulses to the CT scanner to aid in cardiac scanning. The SynChron™ Wireless Vector Gating System for CT includes a Physiologic Acquisition Module (PAM) that connects to the patient using ECG lead wires (Figure 2-2), acquires ECG data, processes the ECG data, and wirelessly transmits the data to the Receive Interface Module (RIM). The RIM will wirelessly receive data from the PAM, create analog ECG waveform and trigger pulse mark, and interfaces with the scanner. The ECG waveform and trigger marks can be seen on the scanner console.
The SynChron™ Wireless Vector Gating System for CT is a product used to acquire
The SynChron™ Wireless Vector Gating System for CT is a product used to acquire electrocardiogram (ECG) data from a patient and to generate and supply ECG waveform and triggering pulses to the CT scanner to aid in cardiac scanning. The SynChron™ Wireless Vector Gating System for CT includes a Physiologic Acquisition Module (PAM) that connects to the patient using ECG lead wires (Figure 2-2), acquires ECG data, processes the ECG data, and wirelessly transmits the data to the Receive Interface Module (RIM). The RIM will wirelessly receive data from the PAM, create analog ECG waveform and trigger pulse mark, and interfaces with the scanner. The ECG waveform and trigger marks can be seen on the scanner console.
The SynChron™ Wireless Vector Gating System for CT is a product used to acquire
The SynChron™ Wireless Vector Gating System for CT is a product used to acquire electrocardiogram (ECG) data from a patient and to generate and supply ECG waveform and triggering pulses to the CT scanner to aid in cardiac scanning. The SynChron™ Wireless Vector Gating System for CT includes a Physiologic Acquisition Module (PAM) that connects to the patient using ECG lead wires (Figure 2-2), acquires ECG data, processes the ECG data, and wirelessly transmits the data to the Receive Interface Module (RIM). The RIM will wirelessly receive data from the PAM, create analog ECG waveform and trigger pulse mark, and interfaces with the scanner. The ECG waveform and trigger marks can be seen on the scanner console.
The Vitrea Advanced Visualization software is a medical diagnostic system that a
The Vitrea Advanced Visualization software is a medical diagnostic system that allows the processing, review, analysis, communication, and media interchange of multi-dimensional digital images acquired from a variety of imaging devices.The Vitrea Advanced Visualization system provides multi-dimensional visualization of digital images to aid clinicians in their analysis of anatomy and pathology. The Vitrea Advanced Visualization user interface follows typical clinical workflow patterns to process, review, and analyze digital images, including:• Retrieve image data over the network via DICOM• Display of images in dedicated protocols which are automatically adapted based on exam type• Select images for closer examination from a gallery of 2D or 3D views• Interactively manipulate an image in real-time to visualize anatomy and pathology• Annotate, measure, and record selected views• Output selected views to standard film or paper printers, or post a report to an intranet web server or export views to another DICOM device• Retrieve reports that are archived on a Web server
The Vitrea Advanced Visualization software is a medical diagnostic system that a
The Vitrea Advanced Visualization software is a medical diagnostic system that allows the processing, review, analysis, communication, and media interchange of multi-dimensional digital images acquired from a variety of imaging devices.The Vitrea Advanced Visualization system provides multi-dimensional visualization of digital images to aid clinicians in their analysis of anatomy and pathology. The Vitrea Advanced Visualization user interface follows typical clinical workflow patterns to process, review, and analyze digital images, including:• Retrieve image data over the network via DICOM• Display of images in dedicated protocols which are automatically adapted based on exam type• Select images for closer examination from a gallery of 2D or 3D views• Interactively manipulate an image in real-time to visualize anatomy and pathology• Annotate, measure, and record selected views• Output selected views to standard film or paper printers, or post a report to an intranet web server or export views to another DICOM device• Retrieve reports that are archived on a Web server
The Vitrea Advanced Visualization software is a medical diagnostic system that a
The Vitrea Advanced Visualization software is a medical diagnostic system that allows the processing, review, analysis, communication, and media interchange of multi-dimensional digital images acquired from a variety of imaging devices.The Vitrea Advanced Visualization system provides multi-dimensional visualization of digital images to aid clinicians in their analysis of anatomy and pathology. The Vitrea Advanced Visualization user interface follows typical clinical workflow patterns to process, review, and analyze digital images, including:• Retrieve image data over the network via DICOM• Display of images in dedicated protocols which are automatically adapted based on exam type• Select images for closer examination from a gallery of 2D or 3D views• Interactively manipulate an image in real-time to visualize anatomy and pathology• Annotate, measure, and record selected views• Output selected views to standard film or paper printers, or post a report to an intranet web server or export views to another DICOM device• Retrieve reports that are archived on a Web server
The Vitrea Advanced Visualization software is a medical diagnostic system that a
The Vitrea Advanced Visualization software is a medical diagnostic system that allows the processing, review, analysis, communication, and media interchange of multi-dimensional digital images acquired from a variety of imaging devices.The Vitrea Advanced Visualization system provides multi-dimensional visualization of digital images to aid clinicians in their analysis of anatomy and pathology. The Vitrea Advanced Visualization user interface follows typical clinical workflow patterns to process, review, and analyze digital images, including:• Retrieve image data over the network via DICOM• Display of images in dedicated protocols which are automatically adapted based on exam type• Select images for closer examination from a gallery of 2D or 3D views• Interactively manipulate an image in real-time to visualize anatomy and pathology• Annotate, measure, and record selected views• Output selected views to standard film or paper printers, or post a report to an intranet web server or export views to another DICOM device• Retrieve reports that are archived on a Web server
The Vitrea Advanced Visualization software is a medical diagnostic system that a
The Vitrea Advanced Visualization software is a medical diagnostic system that allows the processing, review, analysis, communication, and media interchange of multi-dimensional digital images acquired from a variety of imaging devices.The Vitrea Advanced Visualization system provides multi-dimensional visualization of digital images to aid clinicians in their analysis of anatomy and pathology. The Vitrea Advanced Visualization user interface follows typical clinical workflow patterns to process, review, and analyze digital images, including:• Retrieve image data over the network via DICOM• Display of images in dedicated protocols which are automatically adapted based on exam type• Select images for closer examination from a gallery of 2D or 3D views• Interactively manipulate an image in real-time to visualize anatomy and pathology• Annotate, measure, and record selected views• Output selected views to standard film or paper printers, or post a report to an intranet web server or export views to another DICOM device• Retrieve reports that are archived on a Web server
The Vitrea Advanced Visualization software is a medical diagnostic system that a
The Vitrea Advanced Visualization software is a medical diagnostic system that allows the processing, review, analysis, communication, and media interchange of multi-dimensional digital images acquired from a variety of imaging devices.The Vitrea Advanced Visualization system provides multi-dimensional visualization of digital images to aid clinicians in their analysis of anatomy and pathology. The Vitrea Advanced Visualization user interface follows typical clinical workflow patterns to process, review, and analyze digital images, including:• Retrieve image data over the network via DICOM• Display of images in dedicated protocols which are automatically adapted based on exam type• Select images for closer examination from a gallery of 2D or 3D views• Interactively manipulate an image in real-time to visualize anatomy and pathology• Annotate, measure, and record selected views• Output selected views to standard film or paper printers, or post a report to an intranet web server or export views to another DICOM device• Retrieve reports that are archived on a Web server
The Vitrea Advanced Visualization software is a medical diagnostic system that a
The Vitrea Advanced Visualization software is a medical diagnostic system that allows the processing, review, analysis, communication, and media interchange of multi-dimensional digital images acquired from a variety of imaging devices.The Vitrea Advanced Visualization system provides multi-dimensional visualization of digital images to aid clinicians in their analysis of anatomy and pathology. The Vitrea Advanced Visualization user interface follows typical clinical workflow patterns to process, review, and analyze digital images, including:• Retrieve image data over the network via DICOM• Display of images in dedicated protocols which are automatically adapted based on exam type• Select images for closer examination from a gallery of 2D or 3D views• Interactively manipulate an image in real-time to visualize anatomy and pathology• Annotate, measure, and record selected views• Output selected views to standard film or paper printers, or post a report to an intranet web server or export views to another DICOM device• Retrieve reports that are archived on a Web server