Pangea Design Variable Angle Locking Technology Pangea’s variable angle locking technology uses a CoCr locking screw, which is harder than the Ti6Al4V ELI plate, allowing for the screwhead’s threads to form a definitive locking position in the plate’s locking hole by engaging the softer, Ti6Al4V ELI material. This technology allows the user to aim and lock the screw into the plate within a true 30° cone of the predetermined hole trajectory. The variable angle drill guide provided with the system offers guidance with respect to the limit of the 30° cone. The locking mechanism remains functional for up to three attempts at locking screw insertion. Hybrid LC Holes (locking/compression) Hybrid LC Holes allow for either active compression with the use of a non-locking screw in the compression section of the hole or variable angle locking with the use of a locking screw in the universal section of the hole. If locking is not desired, the universal section of the hole also accepts non-locking screws. Each Hybrid LC Hole is designed to provide up to 2mm of compression. Note: Hybrid LC Holes are not available with every plate type. Refer to the “Plate details” page for additional information. 1.6mm K-Wire Hole Variable-Angle Screw Holes Circular holes that accommodate screws are universal; accepting non-locking screws and locking screws within a 30° cone Dedicated Syndesmotic Holes Offset for fixation and recessed to accommodate screws or flexible fixation implants for the syndesmosis. Placement The distal portion of this plate should be placed so the 2.7mm cluster is centered over the Posterolateral metaphyseal fibula, just proximal to the peroneal groove (Confirm there is no overhang over the edge of the distal fibula) When placed correctly, the distal aspect of the plate should not contact the peroneal tendons This plate sits on the edge of the fibula, at 45° posterior from the lateral side Posterolateral plate placement helps to neutralize forces for SER (supination external rotation) fracture patterns, while screw hole placement allows for fixation of these fragments Fit Designed with the use of SOMA: Stryker Orthopedics Modeling and Analytics1 SOMA includes a database with CT scans from hospitals across the world and state-of-the-art algorithms to mine the data for shape variability, bone density, and implant fit. The SOMA bone database contains a collection of 5570 and growing clinical CT scans and contains over 34,600 3D bone models Plate rotation allows for placement along the posterolateral shaft of the fibula while buttressing the distal fibula in spiral and oblique fracture patterns The distal cluster is tapered to reduce potential of soft tissue irritation and reduce plate prominence over the distal fibula The low profile 2.0mm distal end and 2.6mm shaft are designed to reduce the potential for soft tissue irritation Designed for buttressing of oblique or supination external rotation ankle fractures and to treat distal fibula fractures and the syndesmosis Pangea Distal Fibula plates were found to sit closer to the bone than competitive VA LCP plates, demonstrating superior fit Technical specifications Standard plate lengths: 4-15 hole (81-235mm) Thickness: 2.0mm distal, 2.6mm shaft Left and right anatomic plate options Drill bits for T8: Ø2.0mm x 135mm (542000(S)) Ø2.0mm x 175mm (542001(S)) Drill bits for T15: Ø2.5mm x 135mm (542020(S)) Ø2.5mm x 215mm (542021(S)) Screws Pangea Distal Posterolateral Fibula Plate T15 Screw Platform Multiaxial locking 3.5 (10-120mm) Cortex 3.5 (10-120mm) Cancellous 4.0 (10-100mm) 4.0 (10-100mm)