Specific lots of 3M Attest Super Rapid Readout Biological Indicators (1492V), 3M Attest Super Rapid 5 Steam-Plus Challenge (41482V, 41482VF), and 3M Attest Super Rapid Readout Steam Challenge (1496V) may contain biological indicators with a cap that melts, deforms and/or cracks following a steam sterilization cycle of 132¿C and 135¿C.
Specific lots of 3M Attest Super Rapid Readout Biological Indicators (1492V), 3M Attest Super Rapid 5 Steam-Plus Challenge (41482V, 41482VF), and 3M Attest Super Rapid Readout Steam Challenge (1496V) may contain biological indicators with a cap that melts, deforms and/or cracks following a steam sterilization cycle of 132¿C and 135¿C.
Specific lots of 3M Attest Super Rapid Readout Biological Indicators (1492V), 3M Attest Super Rapid 5 Steam-Plus Challenge (41482V, 41482VF), and 3M Attest Super Rapid Readout Steam Challenge (1496V) may contain biological indicators with a cap that melts, deforms and/or cracks following a steam sterilization cycle of 132¿C and 135¿C.
During rework of components during the manufacturing process, an additional piece of material may have been left in the device, which may result in an impact on measurement performance.
Full screen error message may occur on patient monitors with affected hardware version, either during or after laryngoscopes are unplugged from monitors, informing users a 60-100 second shutdown/restart are required. Error prevents: viewing graphical patient vital signs, sounding of pulse audio tone, visualization of patient airway used during intubation; may lead to treatment delay or hypoxia.
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.
The firm has identified an increased risk of obtaining false positive Cryptosporidium results from customers using the BIOFIRE¿ FILMARRAY¿ Gastrointestinal (GI) Panel
LANDAUER received reports indicating that some nanoDots may potentially be outside of the specified range of +/-5.5% accuracy. Investigation of nanoDots indicated the presence of a potential non-conformance in the Optical Stimulated Luminescence (OSL) material that is beamed after exposure and emits fluorescence proportional to radiation exposure.