Abbott Laboratories, Inc: Medical Device Recalls in 2019

According to to data from the FDA, there were 17 medical device recalls made by Abbott Laboratories, Inc in 2019. See the details of the recalls below.

You can see similar recalls for other firms.

• APS Accelerator modular systems, 208-230 V-, 50/60 Hz, 1800 VA, IVD, RX, Class 2 Laser Product,
• ARCHITECT MAGNESIUM, (a) REF 7D70-21, (b) 7D70-31 The Magnesium assay is used for the quantitation of magnesium in human serum, plasma, or urine.
• Abbott ARCHITECT c16000 Processing Module, List No. 03L77 - Product Usage: The Abbott ARCHITECT System is intended for In Vitro diagnostic use only. The Abbott ARCHITECT Clinical Chemistry Systems are designed to perform automated chemistry tests, utilizing photometry and potentiometric technology. The ARCHITECT c4000, c8000, c16000 sample pipettor assemblies include a fluid sense/pressure monitoring system that helps identify errors in aspiration.
• Abbott ARCHITECT cSystems ICT Module, REF 09D28-03. Product Usage: The ARCHITECT cSystems ICT (Integrated Chip Technology) is used for the quantitation of sodium, potassium, and chloride in human serum, plasma, or urine.
• Immunoglobulin A is an in vitro diagnostic assay for the quantitative determination of immunoglobulin A in human serum or plasma. Antigen in the sample bonds to the specific antibody in the reagent, forming an immune complex. The immune complex causes an increase in light scattering, measured by reading turbidity at 700 nm, which correlates with the concentration of immunoglobulin A in the sample.
• Abbott ARCHITECT c4000 Processing Module, List No. 02P24 - Product Usage: The Abbott ARCHITECT System is intended for In Vitro diagnostic use only. The Abbott ARCHITECT Clinical Chemistry Systems are designed to perform automated chemistry tests, utilizing photometry and potentiometric technology. The ARCHITECT c4000, c8000, c16000 sample pipettor assemblies include a fluid sense/pressure monitoring system that helps identify errors in aspiration.
• C3 is an in vitro diagnostic assay for the quantitative determination of C3 in human serum or plasma. Antibodies to C3 combine with C3 in the sample to form insoluble immune complexes. The immune complexes cause an increase in light scattering (turbidity). The resulting increase in sample turbidity, measured at 604 nm, is directly proportional to the concentration of C3 in the sample.
• Abbott ARCHITECT Creatine Kinase, IVD, REF 7D63-21.
• Abbott ARCHITECT c8000 Processing Module, List No. 01G06 - Product Usage: The Abbott ARCHITECT System is intended for In Vitro diagnostic use only. The Abbott ARCHITECT Clinical Chemistry Systems are designed to perform automated chemistry tests, utilizing photometry and potentiometric technology. The ARCHITECT c4000, c8000, c16000 sample pipettor assemblies include a fluid sense/pressure monitoring system that helps identify errors in aspiration.
• Apolipoprotein B is an in vitro diagnostic assay for the quantitative determination of apolipoprotein B in human serum or plasma. Antibodies to apolipoprotein B combine with apolipoprotein B in the sample to form insoluble immune complexes. The immune complexes cause an increase in light scattering (turbidity). The resulting increase in sample turbidity, measured at 604 nm, is directly proportional to the concentration of apolipoprotein B in the sample.
• Abbott ARCHITECT Creatine Kinase, IVD, REF 7D6341.
• Immunoglobulin G is an in vitro diagnostic assay for the quantitative determination of immunoglobulin G in human serum or plasma. Antigen in the sample bonds to the specific antibody in the reagent, forming an immune complex. The immune complex causes an increase in light scattering, measured by reading turbidity at 700 nm, which correlates with the concentration of immunoglobulin G in the sample.
• Apolipoprotein A1 is an in vitro diagnostic assay for the quantitative determination of apolipoprotein A1 in human serum or plasma. Antibodies to apolipoprotein A1 combine with apolipoprotein A1 in the sample to form insoluble immune complexes. The immune complexes cause an increase in light scattering (turbidity). The resulting increase in sample turbidity, measured at 804 nm, is directly proportional to the concentration of apolipoprotein A1 in the sample.
• The,K -ASSAY HP assay is intended for the quantitative determination of human haptoglobin by immunoturbidimetric assay. The antiserum used in the kit was produced against purified human haptoglobin. The haptoglobin antibody interacts with the haptoglobin in the serum forming immune complexes . The immune complexes cause an increase in light scattering which correlates with the concentration of haptoglobin.
• C4 is an in vitro diagnostic assay for the quantitative determination of C4 in human serum or plasma. Antigen in the sample bonds to the specific antibody in the reagent, forming an immune complex. The immune complex causes an increase in light scattering, measured by reading turbidity at 604 nm, which correlates with the concentration of C4 in the sample.
• Immunoglobulin M is an in vitro diagnostic assay for the quantitative determination of immunoglobulin M in human serum or plasma. Antigen in the sample bonds to the specific antibody in the reagent, forming an immune complex. The immune complex causes an increase in light scattering, measured by reading turbidity at 700 nm, which correlates with the concentration of immunoglobulin M in the sample.
• Transferrin is an in vitro diagnostic assay for the quantitative determination of transferrin in human serum or plasma. Antigen in the sample bonds to the specific antibody in the reagent, forming an immune complex. The immune complex causes an increase in light scattering, measured by reading turbidity at 700 nm, which correlates with the concentration of transferrin in the sample.