Degrading capacitors on the control board of ventilators and spare parts may leak electrolyte onto the control board causing a short circuit on the board and/or the capacitor to lose function and lead to interruption of ventilation.
Degrading capacitors on the control board of ventilators and spare parts may leak electrolyte onto the control board causing a short circuit on the board and/or the capacitor to lose function and lead to interruption of ventilation.
Degrading capacitors on the control board of ventilators and spare parts may leak electrolyte onto the control board causing a short circuit on the board and/or the capacitor to lose function and lead to interruption of ventilation.
Degrading capacitors on the control board of ventilators and spare parts may leak electrolyte onto the control board causing a short circuit on the board and/or the capacitor to lose function and lead to interruption of ventilation.
Degrading capacitors on the control board of ventilators and spare parts may leak electrolyte onto the control board causing a short circuit on the board and/or the capacitor to lose function and lead to interruption of ventilation.
Degrading capacitors on the control board of ventilators and spare parts may leak electrolyte onto the control board causing a short circuit on the board and/or the capacitor to lose function and lead to interruption of ventilation.
Due to a software anomaly after approximately 91 days of cumulative use, the ventilator may stop and enter the ambient mode without prior notice.
Due to a software anomaly after approximately 91 days of cumulative use, the ventilator may stop and enter the ambient mode without prior notice.
Due to a software anomaly after approximately 91 days of cumulative use, the ventilator may stop and enter the ambient mode without prior notice.
Due to a software anomaly after approximately 91 days of cumulative use, the ventilator may stop and enter the ambient mode without prior notice.
Issue related to the performance of the motor in recalled product. During use, motor may cease to function.
Oxygen tubing and the oxygen connector of the Hamilton-MR1 could potentially become loose during the preparation for ventilation.
After performing the suctioning maneuver, including disconnecting the patient, suctioning , and reconnecting the patient, the preset pattern of ventilation many not continue as expected.
Ventilation and alarms of a HAMILTON-G5 ventilator can be suppressed unintentionally after the activation of a suctioning maneuver by the operator; this situation can occur regardless of the selected patient group (neonatal, pediatric and adult).
Customer reports that the ventilator display can freeze. Ventilation continues but the information is no longer displayed on the screen and the user can no longer operate the device.
An issue has been discovered with the Hamilton Medical Infant Flow Sensor, single use. When a ventilation mode with adaptive volume control (APVcmv/CMV+) is used, the ventilator may adjust the ventilation on the inaccurate flow measurement and decrease the amount of ventilation delivered.
An issue has been discovered with the Hamilton Medical Infant Flow Sensor, single use. When a ventilation mode with adaptive volume control (APVcmv/CMV+) is used, the ventilator may adjust the ventilation on the inaccurate flow measurement and decrease the amount of ventilation delivered.
An issue has been discovered with the Hamilton Medical Infant Flow Sensor, single use. When a ventilation mode with adaptive volume control (APVcmv/CMV+) is used, the ventilator may adjust the ventilation on the inaccurate flow measurement and decrease the amount of ventilation delivered.
Manufacturer defined limits for improperly functioning loudspeakers of the HAMILTON C2 alarm system were exceeded.
Analysis of a customer complaint has shown that during ventilation of small pediatric patients with high airway resistance and low lung compliance, the oxygen consumption of a Hamilton T1 ventilator with software versions 1.1.2 and lower must be calculated using a larger margin than originally expected.