Add to ORKGThis paper examines the mechanics of the tibiotalocalcaneal construct made with a PHILOS plating system. A failed device consisting of the LCP plate and cortical, locking, and cannulated screws was used to perform the analysis. Visual, microstructure, and fractographic examinations were carried out to characterize the fracture surface topology. These examinations revealed the presence of surface scratching, inclusions, discoloration, corrosion pits, beach marks, and cleavage and striations on the fracture surface. Further examination of the material crystallography and texture revealed an interaction of S, Ni, and Mo-based inclusions that may have raised pitting susceptibility of the device made with Stainless Steel 316L. These features sug...
Objectives: To investigate biomechanically in a human cadaveric model the failure modes of the proxi...
Locking Compression Plates (LCP) have found application in the orthopaedic healing process in modern...
Purpose: The aim of this study was to perform a failure analysis on fractured prosthetic retaining s...
This paper examines the mechanics of the tibiotalocalcaneal construct made with a PHILOS plating sys...
A fractured stainless steel 3.5 mm proximal humerus internal locking system (PHILOS) plate and screw...
A fractured stainless steel 3.5 mm proximal humerus internal locking system (PHILOS) plate and screw...
AbstractIn this case study a failed locking compression plate was investigated. Such plating systems...
The failure of a proximal humerus internal locking system (PHILOS) used in a pantalar arthrodesis wa...
The Locking Compression Plate (LCP) is part of a new plate generation requiring an adapted surgical ...
Abstract: This paper investigated the biomechanics of two clinical cases of bone fracture treatments...
Objective: To investigate the effects of the design and microstructure on the mechanical strength of...
Background: Locking plates transmit load through fixed-angle locking screws instead of relying on pl...
Objectives: To investigate biomechanically in a human cadaveric model the failure modes of the proxi...
Locking Compression Plates (LCP) have found application in the orthopaedic healing process in modern...
Purpose: The aim of this study was to perform a failure analysis on fractured prosthetic retaining s...
This paper examines the mechanics of the tibiotalocalcaneal construct made with a PHILOS plating sys...
A fractured stainless steel 3.5 mm proximal humerus internal locking system (PHILOS) plate and screw...
A fractured stainless steel 3.5 mm proximal humerus internal locking system (PHILOS) plate and screw...
AbstractIn this case study a failed locking compression plate was investigated. Such plating systems...
The failure of a proximal humerus internal locking system (PHILOS) used in a pantalar arthrodesis wa...
The Locking Compression Plate (LCP) is part of a new plate generation requiring an adapted surgical ...
Abstract: This paper investigated the biomechanics of two clinical cases of bone fracture treatments...
Objective: To investigate the effects of the design and microstructure on the mechanical strength of...
Background: Locking plates transmit load through fixed-angle locking screws instead of relying on pl...
Objectives: To investigate biomechanically in a human cadaveric model the failure modes of the proxi...
Locking Compression Plates (LCP) have found application in the orthopaedic healing process in modern...
Purpose: The aim of this study was to perform a failure analysis on fractured prosthetic retaining s...