The motorized longitudinal movement of the FlexArm stand may be inconsistent (not smooth) and eventually may become unavailable. This issue is due to grease leakage from the bearings and/or anti-corrosion oil applied on the bearings, because of which the lubrication on the ceiling rail may be excessive, reducing the friction between the rails and the friction wheel. Expansion to add additional model.
Over time some systems may experience loss of imaging functionality and/or poor image quality due to potential corrosion of the Image Intensifier Television (IITV) control board.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
The BIOS battery may deplete faster than initially anticipated during the design phase. When the battery is depleted, the start-up process of the system will be halted, and the system will not start. No user messages are shown before the battery is low on power or depleted.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Systems may not perform as intended due to the deterioration of certain internal components (the CMOS battery, hard disk drive, and/or power supply unit). If this deterioration occurs, motorized movements of the system will become unavailable. Manual movements of the stand (longitudinal, transversal and rotational for ceiling mounted systems and rotational for floor mounted systems) and table longitudinal movements remain available. Imaging (X-ray) functionality remains available.
Software issue that results in the display of outdated information.
Philips Azurion and Allura systems configured with a 1 Phase Uninterruptible Power Supply (UPS) have the potential of shutting down and/or not starting up, if power to the system is lost.
Philips Azurion and Allura systems configured with a 1 Phase Uninterruptible Power Supply (UPS) have the potential of shutting down and/or not starting up, if power to the system is lost.
Potential that a component (air baffle) may be missing in some Nehalem FlexVision-2 PCs that are part of the Allura Xper series.
Potential for temporary loss of imaging (X-ray) functionality due to software issue.
Potential for bolts connecting the gearbox to the mounting flange of the C-arm to become loose.
A software issue was identified in the internal communication process between the system software and the X-ray generator firmware. Loss of imaging (X-ray) functionality caused by the software issue in either of the two situations identified could result in a delay of therapy. The potential delay may result in serious adverse health outcomes, including the possibility of death, especially when the system is used with patients undergoing complex and/or urgent interventions for potentially life-threatening conditions (e.g., acute ischemic stroke, ST-segment elevation myocardial ischemia, life-threatening bleedings).
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
The Quadrature Body Coil (QBC) seal adhesive may fail, creating sharp edges that may come in contact with patients. If the QBC seal becomes loose during the scanning process, the risk to the patient may include skin abrasions, bruises, lacerations, hair loss/entanglement, and tissue injury.
An issue was identified with the software when using the Echo Module of ISCV, the issue may result in missing or incomplete information in the report.
Philips has become aware of the potential for unintended radiation exposure with Zenition 70 systems with Vascular Extension option and a Wireless Foot Switch.
Multiple problems identified with the software version leading to various scanning and image issues, and unintended device movement.
Study data is not able to be archived, copied, or exported with the cardiovascular software version.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Possibility of the patient falling from the table related to the mattress used on the patient table.
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issue with the AD7 and AD7X patient tables (both tilt and non-tilt versions) part of the Philips Allura and Azurion systems. During manual repositioning of the patient tabletop, a finger can get entrapped between the longitudinal guiding rails and the tabletop. This may result in an injury of the finger, applicable for operators and service personnel
Potential safety issues in Allura Xper R7.6- R8.1 systems where the Lifetime Extension (LTE) kit is not installed in a timely manner. Root cause is under investigation, but the recall reason is listed as for systems over 10 years of life with LTE kits are experiencing propeller motor clamping bolt and x-ray tube locking bolt breaks. If this happens, it may cause erratic C-arm movements and potential collision with patients or bystanders, or detection of a false collisions and subsequent blocked movement of the c-arm. Movement may also cause image noise and black area on the x-ray image, and possible need to expose the patient to additional unnecessary radiation during re-examination.
Potential for the Mains Control Unit board fuse may blow out during system start-up or during a procedure.
Potential for the Mains Control Unit board fuse may blow out during system start-up or during a procedure.
Potential Detachment of the Cable Hose Carrier (due to broken plastic and/or bolts) which May Result in Parts Falling and/or Part of the Cable Hose Dropping, and result in injury.
Potential Detachment of the Cable Hose Carrier (due to broken plastic and/or bolts) which May Result in Parts Falling and/or Part of the Cable Hose Dropping, and result in injury.
Potential Detachment of the Cable Hose Carrier (due to broken plastic and/or bolts) which May Result in Parts Falling and/or Part of the Cable Hose Dropping, and result in injury.