The GOLD™ Lx is a client-server distribution image storage and communication sys
The GOLD™ Lx is a client-server distribution image storage and communication system whose intended use is to provide solutions for hospital and related institutions/sites, which will store, retrieve, and distribute medical images and data from vendor modalities and hospital information systems.
LMD
System, Digital Image Communications, Radiological
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.
The GOLD™ SMART Workstation is an image management system whose intended use is
The GOLD™ SMART Workstation is an image management system whose intended use is to retrieve, archive, and distribute medical images and data from and to all vendor modalities and hospital information systems.
The GOLD™ SMART Workstation is an image management system whose intended use is
The GOLD™ SMART Workstation is an image management system whose intended use is to retrieve, archive, and distribute medical images and data from and to all vendor modalities and hospital information systems.
Voxel Dosimetry™ is a tool for voxel level absorbed dose calculation resulting f
Voxel Dosimetry™ is a tool for voxel level absorbed dose calculation resulting from radiotracer injection. Voxel Dosimetry™ workflow consists of the following steps:• SPECT/CT or PET/CT DICOM data loading from the data manager GOLD or PACS• Registration of different time-points to a common reference study• Generation and integration of voxel-level time-activity curves• Voxel-level absorbed dose calculation using a Monte Carlo-method • Saving of the absorbed dose-map back to GOLD or PACS in DICOM format.Intended Use:The intended use of Voxel Dosimetry™ is to provide estimates (deterministic) of absorbed radiation dose at voxel level as a result of administering one of the supported radionuclides and to provide a dose map. This is dependent on input data regarding bio distribution being supplied to the application. Voxel Dosimetry™ only allows voxel-based dose calculations for patients who have been administered with radioisotopes. Warning! The Voxel Dosimetry™ is only intended for calculating dose for FDA approved radiopharmaceuticals for any clinical purpose, and calculation of unapproved drugs can only be used for research purpose.
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.
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.
The intended use of OLINDA/EXM is to provide estimates (deterministic) of absorb
The intended use of OLINDA/EXM is to provide estimates (deterministic) of absorbed radiation dose at the whole organ level as a result of administering any radionuclide and to calculate effective whole-body dose. This is dependent on input data regarding bio distribution being supplied to the application.
The GOLD™ Lx is a client-server distribution image storage and communication sys
The GOLD™ Lx is a client-server distribution image storage and communication system whose intended use is to provide solutions for hospital and related institutions/sites, which will store, retrieve, and distribute medical images and data from vendor modalities and hospital information systems.
LMD
System, Digital Image Communications, Radiological
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.
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.
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.
PET DMI Gen2 Image System Asm, No Detectors Installed, Common Weld Gantry, Manuf
PET DMI Gen2 Image System Asm, No Detectors Installed, Common Weld Gantry, Manufacturing Make
NeuroQ™ has been developed to aid in the assessment of human brain scans through
NeuroQ™ has been developed to aid in the assessment of human brain scans through quantification of mean pixel values lying within standardized regions of interest, and to provide quantified comparisons with brain scans derived from FDG-PET studies of defined groups having no identified neuropsychiatric disease or symptoms, i.e., asymptomatic controls (AC). The Program provides automated analysis of brain PET scans, with output that includes quantification of relative activity in 240 different brain regions, as well as measures of the magnitude and statistical significance with which activity in each region differs from mean activity values of brain regions in the AC database. The program can be used to compare activity in brain regions of individual scans between two studies from the same patient, between symmetric regions of interest within the brain PET study, and to perform an image fusion of the patients PET and CT data. The program can also be used to for assisting in the assessment of prognosis in patients undergoing dementia evaluation with respect to the likelihood of progression of symptomatic disease, to provide analysis of amyloid uptake levels in the brain, and to evaluate and to provide a quantitative analysis of uptake levels in basal ganglia structures of the brain. The program processes the studies automatically, however, user verification of output is required and manual processing capability is provided.
NeuroQ™ has been developed to aid in the assessment of human brain scans through
NeuroQ™ has been developed to aid in the assessment of human brain scans through quantification of mean pixel values lying within standardized regions of interest, and to provide quantified comparisons with brain scans derived from FDG-PET studies of defined groups having no identified neuropsychiatric disease or symptoms, i.e., asymptomatic controls (AC). The Program provides automated analysis of brain PET scans, with output that includes quantification of relative activity in 240 different brain regions, as well as measures of the magnitude and statistical significance with which activity in each region differs from mean activity values of brain regions in the AC database. The program can be used to compare activity in brain regions of individual scans between two studies from the same patient, between symmetric regions of interest within the brain PET study, and to perform an image fusion of the patients PET and CT data. The program can also be used to for assisting in the assessment of prognosis in patients undergoing dementia evaluation with respect to the likelihood of progression of symptomatic disease, to provide analysis of amyloid uptake levels in the brain, and to evaluate and to provide a quantitative analysis of uptake levels in basal ganglia structures of the brain. The program processes the studies automatically, however, user verification of output is required and manual processing capability is provided.
NeuroQ™ has been developed to aid in the assessment of human brain scans through
NeuroQ™ has been developed to aid in the assessment of human brain scans through quantification of mean pixel values lying within standardized regions of interest, and to provide quantified comparisons with brain scans derived from FDG-PET studies of defined groups having no identified neuropsychiatric disease or symptoms, i.e., asymptomatic controls (AC). The Program provides automated analysis of brain PET scans, with output that includes quantification of relative activity in 240 different brain regions, as well as measures of the magnitude and statistical significance with which activity in each region differs from mean activity values of brain regions in the AC database. The program can be used to compare activity in brain regions of individual scans between two studies from the same patient, between symmetric regions of interest within the brain PET study, and to perform an image fusion of the patients PET and CT data. The program can also be used to for assisting in the assessment of prognosis in patients undergoing dementia evaluation with respect to the likelihood of progression of symptomatic disease, to provide analysis of amyloid uptake levels in the brain, and to evaluate and to provide a quantitative analysis of uptake levels in basal ganglia structures of the brain. The program processes the studies automatically, however, user verification of output is required and manual processing capability is provided.
NeuroQ™ has been developed to aid in the assessment of human brain scans through
NeuroQ™ has been developed to aid in the assessment of human brain scans through quantification of mean pixel values lying within standardized regions of interest, and to provide quantified comparisons with brain scans derived from FDG-PET studies of defined groups having no identified neuropsychiatric disease or symptoms, i.e., asymptomatic controls (AC). The Program provides automated analysis of brain PET scans, with output that includes quantification of relative activity in 240 different brain regions, as well as measures of the magnitude and statistical significance with which activity in each region differs from mean activity values of brain regions in the AC database. The program can be used to compare activity in brain regions of individual scans between two studies from the same patient, between symmetric regions of interest within the brain PET study, and to perform an image fusion of the patients PET and CT data. The program can also be used to for assisting in the assessment of prognosis in patients undergoing dementia evaluation with respect to the likelihood of progression of symptomatic disease, to provide analysis of amyloid uptake levels in the brain, and to evaluate and to provide a quantitative analysis of uptake levels in basal ganglia structures of the brain. The program processes the studies automatically, however, user verification of output is required and manual processing capability is provided.
NeuroQ™ has been developed to aid in the assessment of human brain scans through
NeuroQ™ has been developed to aid in the assessment of human brain scans through quantification of mean pixel values lying within standardized regions of interest, and to provide quantified comparisons with brain scans derived from FDG-PET studies of defined groups having no identified neuropsychiatric disease or symptoms, i.e., asymptomatic controls (AC). The Program provides automated analysis of brain PET scans, with output that includes quantification of relative activity in 240 different brain regions, as well as measures of the magnitude and statistical significance with which activity in each region differs from mean activity values of brain regions in the AC database. The program can be used to compare activity in brain regions of individual scans between two studies from the same patient, between symmetric regions of interest within the brain PET study, and to perform an image fusion of the patients PET and CT data. The program can also be used to for assisting in the assessment of prognosis in patients undergoing dementia evaluation with respect to the likelihood of progression of symptomatic disease, to provide analysis of amyloid uptake levels in the brain, and to evaluate and to provide a quantitative analysis of uptake levels in basal ganglia structures of the brain. The program processes the studies automatically, however, user verification of output is required and manual processing capability is provided.
The Emory Cardiac Toolbox™ 4.0 is used to display gated wall motion and for quan
The Emory Cardiac Toolbox™ 4.0 is used to display gated wall motion and for quantifying parameters of left-ventricular perfusion and function from gated SPECT & PET myocardial perfusion studies and for the evaluation of dynamic PET studies. These parameters are: perfusion, ejection fraction, end-diastolic volume, end-systolic volume, myocardial mass, transient ischemic dilatation (TID), analysis of coronary blood flow and coronary flow reserve, and assessment of cardiac mechanic dyssynchrony. In addition, the program offers the capability of providing the following diagnostic information: computer assisted visual scoring, prognostic information, and expert system image interpretation. The program can also be used for the 3D alignment of coronary artery models from CT coronary angiography onto the left ventricular 3D epicardial surface and for generation of the short axis, vertical, and horizontal long axis tomograms from the SPECT raw data using either filtered backprojection (FBP) or iterative reconstruction (MLEM/OSEM). The Emory Cardiac Toolbox can be used with any of the following Myocardial SPECT Protocols: Same Day and Two Day Sestamibi, Dual-Isotope (Tc-99m/Tl-201), Tetrofosmin, and Thallium, Rubidium-82, Rubidium-82 with CT-based attenuation correction, N-13-ammonia, FDG protocols, and user defined normal databases. This program was developed to run in the .NET operating system environment which can be executed on any PC, any nuclear medicine computer system, or through a web browser. In addition, the program can be used for the decision support in interpretation and automatic structured reporting of the study. The program processes the studies automatically, however, user verification of output is required and manual processing capability is provided.
The Emory Cardiac Toolbox™ 4.0 is used to display gated wall motion and for quan
The Emory Cardiac Toolbox™ 4.0 is used to display gated wall motion and for quantifying parameters of left-ventricular perfusion and function from gated SPECT & PET myocardial perfusion studies and for the evaluation of dynamic PET studies. These parameters are: perfusion, ejection fraction, end-diastolic volume, end-systolic volume, myocardial mass, transient ischemic dilatation (TID), analysis of coronary blood flow and coronary flow reserve, and assessment of cardiac mechanic dyssynchrony. In addition, the program offers the capability of providing the following diagnostic information: computer assisted visual scoring, prognostic information, and expert system image interpretation. The program can also be used for the 3D alignment of coronary artery models from CT coronary angiography onto the left ventricular 3D epicardial surface and for generation of the short axis, vertical, and horizontal long axis tomograms from the SPECT raw data using either filtered backprojection (FBP) or iterative reconstruction (MLEM/OSEM). The Emory Cardiac Toolbox can be used with any of the following Myocardial SPECT Protocols: Same Day and Two Day Sestamibi, Dual-Isotope (Tc-99m/Tl-201), Tetrofosmin, and Thallium, Rubidium-82, Rubidium-82 with CT-based attenuation correction, N-13-ammonia, FDG protocols, and user defined normal databases. This program was developed to run in the .NET operating system environment which can be executed on any PC, any nuclear medicine computer system, or through a web browser. In addition, the program can be used for the decision support in interpretation and automatic structured reporting of the study. The program processes the studies automatically, however, user verification of output is required and manual processing capability is provided.
The Emory Cardiac Toolbox™ 4.0 is used to display gated wall motion and for quan
The Emory Cardiac Toolbox™ 4.0 is used to display gated wall motion and for quantifying parameters of left-ventricular perfusion and function from gated SPECT & PET myocardial perfusion studies and for the evaluation of dynamic PET studies. These parameters are: perfusion, ejection fraction, end-diastolic volume, end-systolic volume, myocardial mass, transient ischemic dilatation (TID), analysis of coronary blood flow and coronary flow reserve, and assessment of cardiac mechanic dyssynchrony. In addition, the program offers the capability of providing the following diagnostic information: computer assisted visual scoring, prognostic information, and expert system image interpretation. The program can also be used for the 3D alignment of coronary artery models from CT coronary angiography onto the left ventricular 3D epicardial surface and for generation of the short axis, vertical, and horizontal long axis tomograms from the SPECT raw data using either filtered backprojection (FBP) or iterative reconstruction (MLEM/OSEM). The Emory Cardiac Toolbox can be used with any of the following Myocardial SPECT Protocols: Same Day and Two Day Sestamibi, Dual-Isotope (Tc-99m/Tl-201), Tetrofosmin, and Thallium, Rubidium-82, Rubidium-82 with CT-based attenuation correction, N-13-ammonia, FDG protocols, and user defined normal databases. This program was developed to run in the .NET operating system environment which can be executed on any PC, any nuclear medicine computer system, or through a web browser. In addition, the program can be used for the decision support in interpretation and automatic structured reporting of the study. The program processes the studies automatically, however, user verification of output is required and manual processing capability is provided.
The Emory Cardiac Toolbox™ 4.0 is used to display gated wall motion and for quan
The Emory Cardiac Toolbox™ 4.0 is used to display gated wall motion and for quantifying parameters of left-ventricular perfusion and function from gated SPECT & PET myocardial perfusion studies and for the evaluation of dynamic PET studies. These parameters are: perfusion, ejection fraction, end-diastolic volume, end-systolic volume, myocardial mass, transient ischemic dilatation (TID), analysis of coronary blood flow and coronary flow reserve, and assessment of cardiac mechanic dyssynchrony. In addition, the program offers the capability of providing the following diagnostic information: computer assisted visual scoring, prognostic information, and expert system image interpretation. The program can also be used for the 3D alignment of coronary artery models from CT coronary angiography onto the left ventricular 3D epicardial surface and for generation of the short axis, vertical, and horizontal long axis tomograms from the SPECT raw data using either filtered backprojection (FBP) or iterative reconstruction (MLEM/OSEM). The Emory Cardiac Toolbox can be used with any of the following Myocardial SPECT Protocols: Same Day and Two Day Sestamibi, Dual-Isotope (Tc-99m/Tl-201), Tetrofosmin, and Thallium, Rubidium-82, Rubidium-82 with CT-based attenuation correction, N-13-ammonia, FDG protocols, and user defined normal databases. This program was developed to run in the .NET operating system environment which can be executed on any PC, any nuclear medicine computer system, or through a web browser. In addition, the program can be used for the decision support in interpretation and automatic structured reporting of the study. The program processes the studies automatically, however, user verification of output is required and manual processing capability is provided.
The Emory Cardiac Toolbox™ 4.0 is used to display gated wall motion and for quan
The Emory Cardiac Toolbox™ 4.0 is used to display gated wall motion and for quantifying parameters of left-ventricular perfusion and function from gated SPECT & PET myocardial perfusion studies and for the evaluation of dynamic PET studies. These parameters are: perfusion, ejection fraction, end-diastolic volume, end-systolic volume, myocardial mass, transient ischemic dilatation (TID), analysis of coronary blood flow and coronary flow reserve, and assessment of cardiac mechanic dyssynchrony. In addition, the program offers the capability of providing the following diagnostic information: computer assisted visual scoring, prognostic information, and expert system image interpretation. The program can also be used for the 3D alignment of coronary artery models from CT coronary angiography onto the left ventricular 3D epicardial surface and for generation of the short axis, vertical, and horizontal long axis tomograms from the SPECT raw data using either filtered backprojection (FBP) or iterative reconstruction (MLEM/OSEM). The Emory Cardiac Toolbox can be used with any of the following Myocardial SPECT Protocols: Same Day and Two Day Sestamibi, Dual-Isotope (Tc-99m/Tl-201), Tetrofosmin, and Thallium, Rubidium-82, Rubidium-82 with CT-based attenuation correction, N-13-ammonia, FDG protocols, and user defined normal databases. This program was developed to run in the .NET operating system environment which can be executed on any PC, any nuclear medicine computer system, or through a web browser. In addition, the program can be used for the decision support in interpretation and automatic structured reporting of the study. The program processes the studies automatically, however, user verification of output is required and manual processing capability is provided.
The Radialis PET Camera (or Radialis PET Imager) is a high spatial resolution, s
The Radialis PET Camera (or Radialis PET Imager) is a high spatial resolution, small field-of-view PET imaging camera specifically developed for close-range, organ-targeted (i.e., limited field) imaging. The Radialis PET Camera is a partial-ring planar PET camera, equipped with lutetium-containing gamma-ray detectors, which collect gamma rays emitted by injected positron-emitting radiopharmaceuticals, and generates images corresponding to the relative concentrations of these radiopharmaceuticals in the body. The Radialis PET Camera is designed to collect gamma rays emitted by the injected radiopharmaceutical in a patient’s body part with high efficiency.
MAMMI is a Positron Emission Tomography (PET) system for medical imaging applica
MAMMI is a Positron Emission Tomography (PET) system for medical imaging applications and for measuring the distribution of positron-emitting radiodrugs administered to patients to detect breast cancer. The system MAMMI presents two modalities:- Breast PET Mammography System with a single ring detector and a prone examination bed.- Breast PET Mammography System with a double ring detector and a prone examination bed (this record).
MAMMI is a Positron Emission Tomography (PET) system for medical imaging applica
MAMMI is a Positron Emission Tomography (PET) system for medical imaging applications and for measuring the distribution of positron-emitting radiodrugs administered to patients to detect breast cancer. The system MAMMI presents two modalities:- Breast PET Mammography System with a single ring (SR) detector and a prone examination bed (this record).- Breast PET Mammography System with a double ring (DR) detector and a prone examination bed.