The potential for stiffness value errors when a specific range of image reconstruction parameters is used in combination with Resoundant's algorithm, leading to the reconstruction voxel size settings in the default MRE scan protocol displaying too small.
Philips North America
The potential for stiffness value errors when a specific range of image reconstruction parameters is used in combination with Resoundant's algorithm, leading to the reconstruction voxel size settings in the default MRE scan protocol displaying too small.
The potential for stiffness value errors when a specific range of image reconstruction parameters is used in combination with Resoundant's algorithm, leading to the reconstruction voxel size settings in the default MRE scan protocol displaying too small.
The potential for stiffness value errors when a specific range of image reconstruction parameters is used in combination with Resoundant's algorithm, leading to the reconstruction voxel size settings in the default MRE scan protocol displaying too small.
The potential for stiffness value errors when a specific range of image reconstruction parameters is used in combination with Resoundant's algorithm, leading to the reconstruction voxel size settings in the default MRE scan protocol displaying too small.
The potential for stiffness value errors when a specific range of image reconstruction parameters is used in combination with Resoundant's algorithm, leading to the reconstruction voxel size settings in the default MRE scan protocol displaying too small.
The potential for stiffness value errors when a specific range of image reconstruction parameters is used in combination with Resoundant's algorithm, leading to the reconstruction voxel size settings in the default MRE scan protocol displaying too small.
The potential for stiffness value errors when a specific range of image reconstruction parameters is used in combination with Resoundant's algorithm, leading to the reconstruction voxel size settings in the default MRE scan protocol displaying too small.
The potential for stiffness value errors when a specific range of image reconstruction parameters is used in combination with Resoundant's algorithm, leading to the reconstruction voxel size settings in the default MRE scan protocol displaying too small.
The potential for stiffness value errors when a specific range of image reconstruction parameters is used in combination with Resoundant's algorithm, leading to the reconstruction voxel size settings in the default MRE scan protocol displaying too small.
The potential for stiffness value errors when a specific range of image reconstruction parameters is used in combination with Resoundant's algorithm, leading to the reconstruction voxel size settings in the default MRE scan protocol displaying too small.
The potential for stiffness value errors when a specific range of image reconstruction parameters is used in combination with Resoundant's algorithm, leading to the reconstruction voxel size settings in the default MRE scan protocol displaying too small.
As part of the CT systems sub assembly, thirty-two (32) fasteners are used to attach the rotor to the bearing within the gantry. One or more of these fasteners may not be torqued to specification. If multiple fasteners are not torqued to specification, the rotor or rotor parts may become unsecured or displaced. While there has been no reported or observed event of expelled parts during gantry rotation, unsecured rotor parts may potentially be expelled.
As part of the CT systems sub assembly, thirty-two (32) fasteners are used to attach the rotor to the bearing within the gantry. One or more of these fasteners may not be torqued to specification. If multiple fasteners are not torqued to specification, the rotor or rotor parts may become unsecured or displaced. While there has been no reported or observed event of expelled parts during gantry rotation, unsecured rotor parts may potentially be expelled.
As part of the CT systems sub assembly, thirty-two (32) fasteners are used to attach the rotor to the bearing within the gantry. One or more of these fasteners may not be torqued to specification. If multiple fasteners are not torqued to specification, the rotor or rotor parts may become unsecured or displaced. While there has been no reported or observed event of expelled parts during gantry rotation, unsecured rotor parts may potentially be expelled.
The potential for stiffness value errors when viewing exported MR Elastography (MRE) stiffness maps to viewer Picture Archiving and Communication System (PACS).
The potential for stiffness value errors when viewing exported MR Elastography (MRE) stiffness maps to viewer Picture Archiving and Communication System (PACS).
The potential for stiffness value errors when viewing exported MR Elastography (MRE) stiffness maps to viewer Picture Archiving and Communication System (PACS).
The potential for stiffness value errors when viewing exported MR Elastography (MRE) stiffness maps to viewer Picture Archiving and Communication System (PACS).
The potential for stiffness value errors when viewing exported MR Elastography (MRE) stiffness maps to viewer Picture Archiving and Communication System (PACS).
The potential for stiffness value errors when viewing exported MR Elastography (MRE) stiffness maps to viewer Picture Archiving and Communication System (PACS).
The potential for stiffness value errors when viewing exported MR Elastography (MRE) stiffness maps to viewer Picture Archiving and Communication System (PACS).
The potential for stiffness value errors when viewing exported MR Elastography (MRE) stiffness maps to viewer Picture Archiving and Communication System (PACS).
The potential for stiffness value errors when viewing exported MR Elastography (MRE) stiffness maps to viewer Picture Archiving and Communication System (PACS).
The potential for stiffness value errors when viewing exported MR Elastography (MRE) stiffness maps to viewer Picture Archiving and Communication System (PACS).
The potential for stiffness value errors when viewing exported MR Elastography (MRE) stiffness maps to viewer Picture Archiving and Communication System (PACS).
The potential for stiffness value errors when viewing exported MR Elastography (MRE) stiffness maps to viewer Picture Archiving and Communication System (PACS).
Between July 2024 and June 2025, Philips Azurion R3.0 systems with a FlexArm stand were shipped without the Source-to-Skin Distance (SSD) Spacer. The SSD spacer is necessary to meet the FDA minimum source-skin distance requirement of 38 cm for standard fluoroscopy applications.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
If the screws of tube heat exchanger on the rotating scanner are not tightened well after replacing. This component may become detached and make contact with other components located within the Incisive CT systems during rotation. Other components could be damaged due to the contact with the tube heat exchanger.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
If the screws of tube heat exchanger on the rotating scanner are not tightened well after replacing. This component may become detached and make contact with other components located within the Incisive CT systems during rotation. Other components could be damaged due to the contact with the tube heat exchanger.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Potential issue where the IntelliVue monitors did not alarm.
Failure of Environmental Stress Testing from a pinched power module wire within the housing of the Cardiac Workstation device which resulted in a short.
Failure of Environmental Stress Testing from a pinched power module wire within the housing of the Cardiac Workstation device which resulted in a short.
The patient support table (couch) may descend unexpectedly to the lowermost position due to a component (ball screw) misalignment after a replacement.
The patient support table (couch) may descend unexpectedly to the lowermost position due to a component (ball screw) misalignment after a replacement.
The patient support table (couch) may descend unexpectedly to the lowermost position due to a component (ball screw) misalignment after a replacement.
The patient support table (couch) may descend unexpectedly to the lowermost position due to a component (ball screw) misalignment after a replacement.
The patient support table (couch) may descend unexpectedly to the lowermost position due to a component (ball screw) misalignment after a replacement.
The patient support table (couch) may descend unexpectedly to the lowermost position due to a component (ball screw) misalignment after a replacement.
The patient support table (couch) may descend unexpectedly to the lowermost position due to a component (ball screw) misalignment after a replacement.
The patient support table (couch) may descend unexpectedly to the lowermost position due to a component (ball screw) misalignment after a replacement.
The patient support table (couch) may descend unexpectedly to the lowermost position due to a component (ball screw) misalignment after a replacement.
The patient support table (couch) may descend unexpectedly to the lowermost position due to a component (ball screw) misalignment after a replacement.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
Ingenia Ambition S Model Numbers (REF): (1) 781359, (2) 782108, (3) 782133 (China ONLY), (4) 782139;
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
The potential for component failures in the Gradient Coil of the affected MR systems may act as a heat source with a potential to produce smoke and/or fire.
Devices with affected software may experience two unintended motion issues that may lead to contact between the Gantry or table with the operator or patient, along with additional software issues that affect CT performance.
identified an issue where a component failure in the specific Gradient Coil type of affected systems can potentially act as a heat source, with a potential to produce smoke and/or fire. If smoke or a fire occurs, the risk to patients or operators may include inhalation of smoke, burns, and/or asphyxia which may lead to injury or even death. This issue could also lead to property damage.
identified an issue where a component failure in the specific Gradient Coil type of affected systems can potentially act as a heat source, with a potential to produce smoke and/or fire. If smoke or a fire occurs, the risk to patients or operators may include inhalation of smoke, burns, and/or asphyxia which may lead to injury or even death. This issue could also lead to property damage.
identified an issue where a component failure in the specific Gradient Coil type of affected systems can potentially act as a heat source, with a potential to produce smoke and/or fire. If smoke or a fire occurs, the risk to patients or operators may include inhalation of smoke, burns, and/or asphyxia which may lead to injury or even death. This issue could also lead to property damage.
identified an issue where a component failure in the specific Gradient Coil type of affected systems can potentially act as a heat source, with a potential to produce smoke and/or fire. If smoke or a fire occurs, the risk to patients or operators may include inhalation of smoke, burns, and/or asphyxia which may lead to injury or even death. This issue could also lead to property damage.
identified an issue where a component failure in the specific Gradient Coil type of affected systems can potentially act as a heat source, with a potential to produce smoke and/or fire. If smoke or a fire occurs, the risk to patients or operators may include inhalation of smoke, burns, and/or asphyxia which may lead to injury or even death. This issue could also lead to property damage.
identified an issue where a component failure in the specific Gradient Coil type of affected systems can potentially act as a heat source, with a potential to produce smoke and/or fire. If smoke or a fire occurs, the risk to patients or operators may include inhalation of smoke, burns, and/or asphyxia which may lead to injury or even death. This issue could also lead to property damage.
identified an issue where a component failure in the specific Gradient Coil type of affected systems can potentially act as a heat source, with a potential to produce smoke and/or fire. If smoke or a fire occurs, the risk to patients or operators may include inhalation of smoke, burns, and/or asphyxia which may lead to injury or even death. This issue could also lead to property damage.
identified an issue where a component failure in the specific Gradient Coil type of affected systems can potentially act as a heat source, with a potential to produce smoke and/or fire. If smoke or a fire occurs, the risk to patients or operators may include inhalation of smoke, burns, and/or asphyxia which may lead to injury or even death. This issue could also lead to property damage.
identified an issue where a component failure in the specific Gradient Coil type of affected systems can potentially act as a heat source, with a potential to produce smoke and/or fire. If smoke or a fire occurs, the risk to patients or operators may include inhalation of smoke, burns, and/or asphyxia which may lead to injury or even death. This issue could also lead to property damage.
Potential for alignment errors in the cross reference line functionality when reviewing images generated with the MobiView application.
Potential for alignment errors in the cross reference line functionality when reviewing images generated with the MobiView application.
Potential for alignment errors in the cross reference line functionality when reviewing images generated with the MobiView application.
Potential for alignment errors in the cross reference line functionality when reviewing images generated with the MobiView application.
Potential for alignment errors in the cross reference line functionality when reviewing images generated with the MobiView application.
Potential for alignment errors in the cross reference line functionality when reviewing images generated with the MobiView application.
Potential for alignment errors in the cross reference line functionality when reviewing images generated with the MobiView application.