The use of osseointegrated implants as a solution for amputation treat- ment, providing a stable connection between the stump and prosthetic limb, is expanding its application to different anatomical districts. A particular focus is put on upper limb amputations, where socket-suspended systems often lead to high abandonment rates of prostheses and osseointegrated implants can enhance prosthetic-limb use, and improve bone perception and range of motion, leading to a better quality of life. This study aims to evaluate the effect of bone-implant interference and implant length of a straight implant, on the primary stability of a humerus CAD model through finite element analysis. The results suggest that a compromise can be made between interference and length to accommodate varying bone morphology and stump length. Additionally, the study results may suggest re-evaluating the prescribed weight limits for transhumeral implants based on their actual load-bearing capacity. Comparison with existing literature under- scores the relevance of the study’s optimizing design parameters for improved clinical outcomes
Cirello, A., Ingrassia, T., Marannano, G., Mirulla, A.I., Nigrelli, V., Valenti, A. (2025). The Effect of Implant Parameters on Primary Stability of Transhumeral Osseointegrated Implant. In Paolo Di Stefano, Francesco Gherardini, Vincenzo Nigrelli, Caterina Rizzi, Gaetano Sequenzia, Davide Tumino (a cura di), Design Tools and Methods in Industrial Engineering IV (pp. 98-105). Springer Science and Business Media Deutschland GmbH [10.1007/978-3-031-76594-0_12].
The Effect of Implant Parameters on Primary Stability of Transhumeral Osseointegrated Implant
Cirello, Antonino;Ingrassia, Tommaso;Marannano, Giuseppe;Mirulla, Agostino Igor;Nigrelli, Vincenzo;Valenti, Andrea
2025-02-12
Abstract
The use of osseointegrated implants as a solution for amputation treat- ment, providing a stable connection between the stump and prosthetic limb, is expanding its application to different anatomical districts. A particular focus is put on upper limb amputations, where socket-suspended systems often lead to high abandonment rates of prostheses and osseointegrated implants can enhance prosthetic-limb use, and improve bone perception and range of motion, leading to a better quality of life. This study aims to evaluate the effect of bone-implant interference and implant length of a straight implant, on the primary stability of a humerus CAD model through finite element analysis. The results suggest that a compromise can be made between interference and length to accommodate varying bone morphology and stump length. Additionally, the study results may suggest re-evaluating the prescribed weight limits for transhumeral implants based on their actual load-bearing capacity. Comparison with existing literature under- scores the relevance of the study’s optimizing design parameters for improved clinical outcomes
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