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The T2 Alpha Humerus Nailing System is indicated for the treatment of humerus fractures. Fractures can include, but are not limited to, non-unions, malunions, malalignments, pathological fractures, and impending pathological fractures.

The IMN Screws System is intended to stabilize the intramedullary nail-bone construct for temporary stabilization.

The T2 Humeral Nail is intended to provide temporary stabilization of various types of fractures, malunions, and non-unions of the humerus. The nails are inserted using an open or closed technique and can be static, dynamic, or compression locked. The subject and predicate devices are indicated for use in the humerus. Types of fractures include, but are not limited to, fractures of the humeral shaft, non-unions, malalignments, pathological humeral fractures, and impending pathological fractures.

The T2 Alpha Humerus Nailing System is an intramedullary humerus fracture nailing system consisting of sterile implants (Nails, End Caps, Compression Screw, and Washer) and non-sterile indication-specific instrumentation. The Nails, End Caps, Compression Screw, and Washer are made of titanium alloy as per ASTM F136. The T2 Alpha Humerus Nailing System will be used with the existing Locking Screws and Advanced Locking Screws of the IMN Screws System.

The IMN Screws System includes bone screws (Locking Screws and Advanced Locking Screws) that are inserted through the intramedullary nail to stabilize the nail-bone construct. All screws are sterile and made of titanium alloy (Ti6Al4V ELI) per ASTM F136.

The T2 Humeral Nail System is an intramedullary nailing system that allows antegrade and retrograde humeral nailing. The nails, end caps, compression screw, and washer are provided sterile and made of titanium alloy as per ASTM F136.

The provided FDA 510(k) clearance letter (K251400) does not concern an AI/software device. Instead, it pertains to a physical medical device: the Stryker T2 Alpha Humerus Nailing System, IMN Screws System, and T2 Nailing System, which are intramedullary fixation rods and bone screws used for treating humerus fractures.

Therefore, the concepts of "acceptance criteria" and "study that proves the device meets the acceptance criteria" as they relate to AI/software performance metrics (e.g., accuracy, sensitivity, specificity, F1-score, expert consensus, MRMC studies) are not applicable to this submission.

The document discusses non-clinical performance testing for the physical device, focusing on mechanical properties, sterilization, packaging, and biocompatibility, to demonstrate substantial equivalence to previously cleared predicate devices.

Key points from the document regarding "performance":

• Non-Clinical Performance: This section details various engineering and material tests performed on the physical implants, such as dynamic and static bending, torsional stiffness, targeting accuracy, insertion torque, pull-out force, MRI assessment (magnetically induced displacement/torque, RF-induced heating, image artifacts), packaging tests, and biocompatibility evaluation. All these tests are standard for orthopedic implants.
• Clinical Performance: The document explicitly states: "Clinical data were not needed for the subject devices to demonstrate substantial equivalence to the predicate devices." This is a common situation for 510(k) submissions of physical devices where substantial equivalence can be demonstrated through non-clinical testing and comparison to predicates.

Since the request asks for information relevant to AI/software device performance, and this document is for a physical orthopedic device, I cannot extract the requested information (e.g., sample size for test/training sets, number of experts for ground truth, MRMC studies, standalone performance) because it is not present and not relevant to this specific biological device 510(k) submission.

In summary, there is no AI/software component in this device clearance that would require the types of performance statistics and study methodologies described in the prompt.

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