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All product recalls associated with Unomedical.
Total Recalls
49
Past Year
0
Class I (Serious)
0
Most Recent
Jul 2024
Data from FDA, USDA, CPSC, and NHTSA public records. Recall counts vary by company size, industry, and reporting practices. Always check official sources for current information.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
In some Manual Pulmonary Resuscitator units the duckbill valve and retention ring inside the patient valve housing may become dislodged and fall into the MPR bag/body. If this occurs, the MPR may lose its ability to generate the positive pressure necessary necessary to ventilate the patient.
Adapters have been found to be blocked or occluded - potentially preventing exhalation or inhalation
Adapters have been found to be blocked or occluded - potentially preventing exhalation or inhalation
Adapters have been found to be blocked or occluded - potentially preventing exhalation or inhalation
Adapters have been found to be blocked or occluded - potentially preventing exhalation or inhalation
Adapters have been found to be blocked or occluded - potentially preventing exhalation or inhalation
Adapters have been found to be blocked or occluded - potentially preventing exhalation or inhalation
Adapters have been found to be blocked or occluded - potentially preventing exhalation or inhalation