Three-dimensional printed talar prosthesis with biological function for giant cell tumor of the talus: A case report and review of the literature

Four rating systems were developed by the American Orthopaedic Foot and Ankle Society to provide a standard method of reporting clinical status of the ankle and foot. The systems incorporate both subjective and objective factors into numerical scales to describe function, alignment, and pain.

Layer-by-layer deposition of materials to manufacture parts-better known as three-dimensional (3D) printing or additive manufacturing-has been flourishing as a fabrication process in the past several years and now can create complex geometries for use as models, assembly fixtures, and production molds. Increasing interest has focused on the use of this technology for direct manufacturing of production parts; however, it remains generally limited to single-material fabrication, which can limit the end-use functionality of the fabricated structures. The next generation of 3D printing will entail not only the integration of dissimilar materials but the embedding of active components in order to deliver functionality that was not possible previously. Examples could include arbitrarily shaped electronics with integrated microfluidic thermal management and intelligent prostheses custom-fit to the anatomy of a specific patient. We review the state of the art in multiprocess (or hybrid) 3D printing, in which complementary processes, both novel and traditional, are combined to advance the future of manufacturing.

This study evaluates the criterion validity of the subjective component of the American Orthopaedic Foot and Ankle Society (AOFAS) clinical rating scales by correlating scores obtained with these rating scales to scores obtained with the Foot Function Index (FFI) in patients with foot and ankle conditions. To date, the AOFAS scoring scales have not been shown to provide valid information despite their popularity. The FFI, on the other hand, has previously been shown to provide valid information in regard to conditions affecting the foot and ankle. A moderately strong inverse criterion validity correlation (Pearson correlation coefficient = -0.68) was shown when preoperative patients were administered both the AOFAS and FFI questionnaires, and the resultant scores were compared. Test-retest reliability measurements showed no significant difference (P = .27) between preoperative AOFAS scale scores measured at least 2 weeks apart. Construct validity was shown (P = .006) when dependent preoperative and postoperative (at least 3 months) AOFAS scale scores were compared, indicative of the clinical rating scales' ability to discriminate and predict quality of life related to foot and ankle conditions. The moderate level of correlation, satisfactory degree of reliability, and responsiveness (ability to distinguish differences between preoperative and postoperative conditions in the same patient) observed in this study suggest that the subjective component of the AOFAS clinical rating scales provides quality-of-life information that conveys acceptable validity regarding conditions affecting the foot and ankle.