Integra LifeSciences

Possibility for the obturator to break (separate).

Potential that the induction seal is not completely sealed to the device tube packaging.

Potential for certain SKUs and lot numbers were distributed with the incorrect product description on the internal and external labels.

Potential for certain SKUs and lot numbers were distributed with the incorrect product description on the internal and external labels.

Potential for certain SKUs and lot numbers were distributed with the incorrect product description on the internal and external labels.

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Out of specification endotoxin levels.

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

Identified higher-than-expected levels of endotoxin within the raw material used to produce Codman Surgical Patties and Strips that may have resulted in out-of-specification levels of endotoxin in finished goods

There is a potential for pinholes in the applicator pouch film which creates a sterility concern.

Specific lots of TruDi NAV Suction Instruments 0 Degrees were incorrectly calibrated which when used with the TruDi Navigation System, may result in a discrepancy between the actual tip location and the visualized location displayed on the system.

Potential sheath damage that could lead to tissue damage and/or track hemorrhage.

Potential for the CUSA Excel 23KHz Straight Handpiece housing to crack, may result in delay of treatment

Defect in the external sterile packaging (pouch) leading to a gap or/and weakness of the seal that may compromise the product sterility.

Defect in the external sterile packaging (pouch) leading to a gap or/and weakness of the seal may compromise the product sterility.

Defect in the external sterile packaging (pouch) leading to a gap or/and weakness of the seal may compromise the product sterility.

Potential holes and tears in the sterile packaging (header bag) of the Cranial Access Kit may compromise the sterility of the device.

A defect in the sterile packaging (header bag) of the Cranial Access Kit failing the required packaging integrity testing criteria. Therefore, product sterility maybe compromised.

A defect in the sterile packaging (header bag) of the Cranial Access Kit failing the required packaging integrity testing criteria. Therefore, product sterility maybe compromised.

A defect in the sterile packaging (header bag) of the Cranial Access Kit failing the required packaging integrity testing criteria. Therefore, product sterility maybe compromised.

A defect in the sterile packaging (header bag) of the Cranial Access Kit failing the required packaging integrity testing criteria. Therefore, product sterility maybe compromised.

A defect in the sterile packaging (header bag) of the Cranial Access Kit failing the required packaging integrity testing criteria. Therefore, product sterility maybe compromised.

A defect in the sterile packaging (header bag) of the Cranial Access Kit failing the required packaging integrity testing criteria. Therefore, product sterility maybe compromised.

A defect in the sterile packaging (header bag) of the Cranial Access Kit failing the required packaging integrity testing criteria. Therefore, product sterility maybe compromised.

A defect in the sterile packaging (header bag) of the Cranial Access Kit failing the required packaging integrity testing criteria. Therefore, product sterility maybe compromised.

A defect in the sterile packaging (header bag) of the Cranial Access Kit failing the required packaging integrity testing criteria. Therefore, product sterility maybe compromised.

A defect in the sterile packaging (header bag) of the Cranial Access Kit failing the required packaging integrity testing criteria. Therefore, product sterility maybe compromised.

A defect in the sterile packaging (header bag) of the Cranial Access Kit failing the required packaging integrity testing criteria. Therefore, product sterility maybe compromised.

Firm is expanding the existing recall RES 90457 for the Cerelink, initiated in June 2022, to include all CereLink ICP Extension Cables. The updated corrective action includes a design change to the extension cable to address the "out of range readings" issue.

Defect in the outer packaging of the Cranial Access Kits. can cause the packaging to split without any additional forces outside compromising the sterility of the device

Defect in the outer packaging of the Cranial Access Kits can cause the packaging to split without any additional forces outside compromising the sterility of the device

Defect in the outer packaging of the Cranial Access Kits. can cause the packaging to split without any additional forces outside compromising the sterility of the device

Defect in the outer packaging of the Cranial Access Kits. can cause the packaging to split without any additional forces outside compromising the sterility of the device

Defect in the outer packaging of the Cranial Access Kits can cause the packaging to split without any additional forces outside compromising the sterility of the device

Defect in the outer packaging of the Cranial Access Kits. can cause the packaging to split without any additional forces outside compromising the sterility of the device

Defect in the outer packaging of the Cranial Access Kits. can cause the packaging to split without any additional forces outside compromising the sterility of the device

Defect in the outer packaging of the Cranial Access Kits. can cause the packaging to split without any additional forces outside compromising the sterility of the device

Defect in the outer packaging of the Cranial Access Kits. can cause the packaging to split without any additional forces outside compromising the sterility of the device

Released with discoloration (rust) on the Drill Chuck and inner chuck of Codman Cranial Hand Drill may result in inflammation, local toxicity, systemic toxicity, sensitivity, revision surgery, procedural delay, inconvenience to user, and/or infection.

Integra LifeSciences identified that one lot was released with out-of-specification endotoxin results. The worst-case risk for the use of affected Surgical Patties is potentially a minor transient fever.

Integra has received complaints associated with ICP readings drifting to -50 mmHg (out-of-range) and may manifest an error message "sensor or extension cable failure!" The firm has found that this is caused by electrical interference from a component of the monitor's circuit board and from the environment.

Excess force used to tighten the Universal Flexible Arm can cause the internal cable to break at the tip, resulting in an unusable condition.

Incorrect extended expiration dates identified on the outer box label only, if product is used past the correct expiration date there is a potential for pain, infection, or adverse tissue reaction to occur

Incorrect extended expiration dates identified on the outer box label only, if product is used past the correct expiration date there is a potential for pain, infection, or adverse tissue reaction to occur

Packaging-pouches with wrinkles across the Tyvek side may compromise the integrity of the pouch's sterile barrier

Incorrect labeling, Catheter did not have the required holes and markings

Mislabeled product-Bactiseal Ventricular Catheter with Bactiseal Shunt System(823073) mislabeled as Bactiseal Endoscopic Ventricular Catheter (823087) and vs. versa

Mislabeled product-Bactiseal Ventricular Catheter with Bactiseal Shunt System(823073) mislabeled as Bactiseal Endoscopic Ventricular Catheter (823087) and vs. versa

Revised Instruction Manual to reflect the most accurate illustration for Mayfield Skull Clamp A2000 Position Diagram

lntegra LifeSciences has identified through a number of complaints that the handpiece cable melts following sterilization.

lntegra LifeSciences has identified through a number of complaints that the handpiece cable melts following sterilization.

lntegra LifeSciences has identified through a number of complaints that the handpiece cable melts following sterilization.

Nonconforming product which was dispositioned for rejection was mistakenly released for commercial use.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operator s manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.

The 36 kHz Sterilization Tray (C7136 Rev C / 72904491 Rev A) system does not meet the Dry Time Criteria for a 30-minute drying cycle. The current CUSA Clarity Operators manual states 30 minutes for the minimum Dry Time for the 36 kHz Sterilization Tray and 36 kHz Components but 40 minutes is required for complete drying.