Abiomed

Potential for Automated Impella Controller (AIC) purge pressure issues due to purge retainer failures.

Potential cybersecurity vulnerabilities related to the operating system in the Automated Impella Controller (AIC).

Specific Automated Impella Controllers (AICs) that have a Pump Driver Circuit Assembly do not meet current specifications. This may lead to decreased pump performance or pump stop and trigger an Impella Failure or Impella Stopped Controller Failure alarm.

A potential issue with the Automated Impella Controller (AIC) not detecting an Impella pump when it is connected

Optical Sensors have been damaged due to physical interaction between the inlet and another device resulting in a Placement Signal Not Reliable (PSNR) alarm and loss of Central Venous (CV) Placement Signal, Pulmonary Artery (PA) Placement Signal & Pulmonary Artery Pulse Index (PAPi) metrics. Abiomed is reinforcing that there is a risk of potential interaction between the tip of guidewires, indwelling central venous lines or devices and inlet of the Impella pumps listed above during the insertion, manipulation, and removal of those devices. The interaction may result in optical sensor damage, temporary pump stop, or permanent pump stop.

Optical Sensors have been damaged due to physical interaction between the inlet and another device resulting in a Placement Signal Not Reliable (PSNR) alarm and loss of Central Venous (CV) Placement Signal, Pulmonary Artery (PA) Placement Signal & Pulmonary Artery Pulse Index (PAPi) metrics. Abiomed is reinforcing that there is a risk of potential interaction between the tip of guidewires, indwelling central venous lines or devices and inlet of the Impella pumps listed above during the insertion, manipulation, and removal of those devices. The interaction may result in optical sensor damage, temporary pump stop, or permanent pump stop.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

A potential device interaction between the Shockwave Coronary IVL Catheter and left-sided Impella Pumps during coronary interventions. Currently there is no Abiomed labeling (IFU etc.) content related to this potential interaction, so Abiomed will update the IFU to include information on this potential device interaction.

Nine (9) Impella CP pumps failed inspection and were inadvertently released.

Retrospective reporting for the release of Technical Bulletin IMP-2643 AIC Version 8.5 Software Update Available. The update resolved an issue in version 8.4 where a pump was not recognized by the AIC.

New warnings are being added to the Instructions for Use for all affected products to reduce the possibility of fibers being drawn into the Impella, which may result in low flow of the device.

IFU has been updated to include warnings about the risk of the inlet perforating through the myocardial wall of the left ventricle due to operator handling.

Hole(s) to the outer pouch of the Introducer Kits (both trayed and non-trayed) may compromise the sterile barrier of the Introducer Kits. Non-sterile product exposes patients to the possibility of the introduction of micro-organisms into the vasculature and/or access site, leading to an infectious process, bacteremia or sepsis

Hole(s) to the outer pouch of the Introducer Kits (both trayed and non-trayed) may compromise the sterile barrier of the Introducer Kits. Non-sterile product exposes patients to the possibility of the introduction of micro-organisms into the vasculature and/or access site, leading to an infectious process, bacteremia or sepsis

Hole(s) to the outer pouch of the Introducer Kits (both trayed and non-trayed) may compromise the sterile barrier of the Introducer Kits. Non-sterile product exposes patients to the possibility of the introduction of micro-organisms into the vasculature and/or access site, leading to an infectious process, bacteremia or sepsis

Hole(s) to the outer pouch of the Introducer Kits (both trayed and non-trayed) may compromise the sterile barrier of the Introducer Kits. Non-sterile product exposes patients to the possibility of the introduction of micro-organisms into the vasculature and/or access site, leading to an infectious process, bacteremia or sepsis

Hole(s) to the outer pouch of the Introducer Kits (both trayed and non-trayed) may compromise the sterile barrier of the Introducer Kits. Non-sterile product exposes patients to the possibility of the introduction of micro-organisms into the vasculature and/or access site, leading to an infectious process, bacteremia or sepsis

Hole(s) to the outer pouch of the Introducer Kits (both trayed and non-trayed) may compromise the sterile barrier of the Introducer Kits. Non-sterile product exposes patients to the possibility of the introduction of micro-organisms into the vasculature and/or access site, leading to an infectious process, bacteremia or sepsis

Hole(s) to the outer pouch of the Introducer Kits (both trayed and non-trayed) may compromise the sterile barrier of the Introducer Kits. Non-sterile product exposes patients to the possibility of the introduction of micro-organisms into the vasculature and/or access site, leading to an infectious process, bacteremia or sepsis

Hole(s) to the outer pouch of the Introducer Kits (both trayed and non-trayed) may compromise the sterile barrier of the Introducer Kits. Non-sterile product exposes patients to the possibility of the introduction of micro-organisms into the vasculature and/or access site, leading to an infectious process, bacteremia or sepsis

Hole(s) to the outer pouch of the Introducer Kits (both trayed and non-trayed) may compromise the sterile barrier of the Introducer Kits. Non-sterile product exposes patients to the possibility of the introduction of micro-organisms into the vasculature and/or access site, leading to an infectious process, bacteremia or sepsis.

Hole(s) to the outer pouch of the Introducer Kits (both trayed and non-trayed) may compromise the sterile barrier of the Introducer Kits. Non-sterile product exposes patients to the possibility of the introduction of micro-organisms into the vasculature and/or access site, leading to an infectious process, bacteremia or sepsis

The following features have been disabled from the web-based portal because the FDA has not evaluated these features for safety and effectiveness: Notifications via email feature; AIC alarm color on case tile feature; Sort case tiles by AIC alarm color feature; Pump metric display on case tile feature

Pump not detected as connected to controller due to software issue.

Pump not detected as connected to controller due to software issue.

A higher than expected rate of thrombus formation or deposition has been observed. The risk is for thrombus formations or deposits on indwelling central venous lines or cannulas may break free and enter into the Impella RP Flex, resulting in reduced flow, loss of support, or hemolysis

There is a potential risk for unintentional interaction of the Impella motor housing with the distal stent of a transcatheter aortic valve replacement (TAVR) resulting in destruction of the impeller blades. This has resulted in low flow from the damaged Impella system. Systemic embolization of the fractured impeller material is a possibility.

There is a potential risk for unintentional interaction of the Impella motor housing with the distal stent of a transcatheter aortic valve replacement (TAVR) resulting in destruction of the impeller blades. This has resulted in low flow from the damaged Impella system. Systemic embolization of the fractured impeller material is a possibility.

There is a potential risk for unintentional interaction of the Impella motor housing with the distal stent of a transcatheter aortic valve replacement (TAVR) resulting in destruction of the impeller blades. This has resulted in low flow from the damaged Impella system. Systemic embolization of the fractured impeller material is a possibility.

There is a potential risk for unintentional interaction of the Impella motor housing with the distal stent of a transcatheter aortic valve replacement (TAVR) resulting in destruction of the impeller blades. This has resulted in low flow from the damaged Impella system. Systemic embolization of the fractured impeller material is a possibility.

There is a potential risk for unintentional interaction of the Impella motor housing with the distal stent of a transcatheter aortic valve replacement (TAVR) resulting in destruction of the impeller blades. This has resulted in low flow from the damaged Impella system. Systemic embolization of the fractured impeller material is a possibility.

There is a potential risk for unintentional interaction of the Impella motor housing with the distal stent of a transcatheter aortic valve replacement (TAVR) resulting in destruction of the impeller blades. This has resulted in low flow from the damaged Impella system. Systemic embolization of the fractured impeller material is a possibility.

There was one complaint that the sidearm of the device detached during explant of a pump. When the sidearms are subjected to heat, humidity and articulation, a silicone oil contaminant that was unintentionally introduced during manufacturing at the joint between the sidearm and the hub may cause the joint to detach.

The Impella 5.5 pump experienced a heightened complaint rate for purge leaks.

The firm has received complaints of the OXY-1 System Console experiencing a power interruption while in use, which disrupts therapy delivered to a patient on support. Disruption of therapy could lead to prolonged hypoxia.

This one pump shipped with incorrect pump programming, the initial production working version of the program. The pump would have immediately run at P9 for all selected P-levels, rather than a 10 second ramp up period. The pump may have migrated out of position and possibly caused injury. The positioning and suction alarms were also disabled.