Vyaire Medical

Adapters may disconnect during setup or while in use, potentially interrupting ventilation. Any disconnection can result in severe consequences for neonates, including hypoxia, hypercapnia, and organ failure.

Adapters may disconnect during setup or while in use, potentially interrupting ventilation. Any disconnection can result in severe consequences for neonates, including hypoxia, hypercapnia, and organ failure.

Potential of the nozzle separating during patient use.

Risk of hypoventilation caused by duckbill and ring broken/disassembled, due to faulty mold/tooling producing out of specification components. Device failure may cause improper ventilation or no ventilation that may result in hypoventilation or hypoxia, and potentially lead to death. The mold/tooling used to produce the affected component was replaced in 2017.

Risk of hypoventilation caused by duckbill and ring broken/disassembled, due to faulty mold/tooling producing out of specification components. Device failure may cause improper ventilation or no ventilation that may result in hypoventilation or hypoxia, and potentially lead to death. The mold/tooling used to produce the affected component was replaced in 2017.

Risk of hypoventilation caused by duckbill and ring broken/disassembled, due to faulty mold/tooling producing out of specification components. Device failure may cause improper ventilation or no ventilation that may result in hypoventilation or hypoxia, and potentially lead to death. The mold/tooling used to produce the affected component was replaced in 2017.

Risk of hypoventilation caused by duckbill and ring broken/disassembled, due to faulty mold/tooling producing out of specification components. Device failure may cause improper ventilation or no ventilation that may result in hypoventilation or hypoxia, and potentially lead to death. The mold/tooling used to produce the affected component was replaced in 2017.

Risk of hypoventilation caused by duckbill and ring broken/disassembled, due to faulty mold/tooling producing out of specification components. Device failure may cause improper ventilation or no ventilation that may result in hypoventilation or hypoxia, and potentially lead to death. The mold/tooling used to produce the affected component was replaced in 2017.

Risk of hypoventilation caused by duckbill and ring broken/disassembled, due to faulty mold/tooling producing out of specification components. Device failure may cause improper ventilation or no ventilation that may result in hypoventilation or hypoxia, and potentially lead to death. The mold/tooling used to produce the affected component was replaced in 2017.

Risk of hypoventilation caused by duckbill and ring broken/disassembled, due to faulty mold/tooling producing out of specification components. Device failure may cause improper ventilation or no ventilation that may result in hypoventilation or hypoxia, and potentially lead to death. The mold/tooling used to produce the affected component was replaced in 2017.

Risk of hypoventilation caused by duckbill and ring broken/disassembled, due to faulty mold/tooling producing out of specification components. Device failure may cause improper ventilation or no ventilation that may result in hypoventilation or hypoxia, and potentially lead to death. The mold/tooling used to produce the affected component was replaced in 2017.

Risk of hypoventilation caused by duckbill and ring broken/disassembled, due to faulty mold/tooling producing out of specification components. Device failure may cause improper ventilation or no ventilation that may result in hypoventilation or hypoxia, and potentially lead to death. The mold/tooling used to produce the affected component was replaced in 2017.

Two patient circuits, 29028-003 and 29028-004, for the 3100 High Frequency Oscillatory ventilator that are only approved for use outside the U.S. were distributed in the U.S.

Two patient circuits, 29028-003 and 29028-004, for the 3100 High Frequency Oscillatory ventilator that are only approved for use outside the U.S. were distributed in the U.S.

Vyaire Medical identified two patient safety risks during the use of the bellavista 1000 and bellavista 1000e: 1. Under certain conditions of use, the touchscreen may become unresponsive and the device application stops responding (APP Hang). When this occurs, if the user continues to interact with the touchscreen, a message will appear that states DeviceSoftware.Application is not responding or a decommission screen will appear on the user interface. The ventilator will issue both an audible and visual alarm. Ventilation continues without interruption with the settings applied prior to the APP Hang error. 2. The potential for a use error has been identified if the operator applies the proposed settings without confirming the settings are suitable for the patient.

Vyaire Medical identified two patient safety risks during the use of the bellavista 1000 and bellavista 1000e: 1. Under certain conditions of use, the touchscreen may become unresponsive and the device application stops responding (APP Hang). When this occurs, if the user continues to interact with the touchscreen, a message will appear that states DeviceSoftware.Application is not responding or a decommission screen will appear on the user interface. The ventilator will issue both an audible and visual alarm. Ventilation continues without interruption with the settings applied prior to the APP Hang error. 2. The potential for a use error has been identified if the operator applies the proposed settings without confirming the settings are suitable for the patient.

Potential cessation in ventilation can occur under specific conditions.

The G6 bellavista 1000 US ventilators may experience intermittent failures: Lack of acoustic high priority alarm, presence of a 'no alarm' condition, or presence of non-responsive touch screen.

Testing has demonstrated aluminum elution from the enFlow Disposable Cartridge during fluid warming.

Testing has demonstrated aluminum elution from the enFlow Disposable Cartridge during fluid warming.

Vyaire Medical has discovered potential patient safety risk with associated with the Tri-Flow Subglottic Suction System. The distal soft tip of the catheter has been identified as having the potential to break off during patient use and result in aspiration of a solid foreign body.

An error in manufacturing of the AirLife Resuscitation Devices that has the potential to obstruct airflow of the supplemental oxygen delivery during use.

An error in manufacturing of the AirLife Resuscitation Devices that has the potential to obstruct airflow of the supplemental oxygen delivery during use.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

The mask component on various lots of the resuscitation devices have been identified as having the potential to exhibit a sticking condition which may result in a difficult to/unable to disconnect condition of the mask from the elbow of the resuscitator.

Manufacturing error in humidification chamber may cause an overfill/overflow condition of the chamber. The may case a water back-up into the patient circuit resulting in an excessive amount of water entering the airway/lungs of the ventilated patient.

Manufacturing error in humidification chamber may cause an overfill/overflow condition of the chamber. The may case a water back-up into the patient circuit resulting in an excessive amount of water entering the airway/lungs of the ventilated patient.

Manufacturing error in humidification chamber may cause an overfill/overflow condition of the chamber. The may case a water back-up into the patient circuit resulting in an excessive amount of water entering the airway/lungs of the ventilated patient.

Manufacturing error in humidification chamber may cause an overfill/overflow condition of the chamber. The may case a water back-up into the patient circuit resulting in an excessive amount of water entering the airway/lungs of the ventilated patient.

Lot #0001047501 of the 9025RHTR ABG sampling kits have been manufactured containing the incorrect sub-assembly which includes a larger needle (23 Gage, 1" needle), larger syringe (3mL), and larger amount of heparin (113IU), than what is intended for the kit.