Smeeton, M.; Williams, S.P.; Anderson, J.; Wilcox, R.; Board, T.; Williams, S.; Isaac, G.
Impingement During Dislocation-Prone Activities: Geometric Modeling Analysis of an Uncemented Standard Versus Modular Dual Mobility Acetabular Cups. Prosthesis 2025, 7, 59.
https://doi.org/10.3390/prosthesis7030059
AMA Style
Smeeton M, Williams SP, Anderson J, Wilcox R, Board T, Williams S, Isaac G.
Impingement During Dislocation-Prone Activities: Geometric Modeling Analysis of an Uncemented Standard Versus Modular Dual Mobility Acetabular Cups. Prosthesis. 2025; 7(3):59.
https://doi.org/10.3390/prosthesis7030059
Chicago/Turabian Style
Smeeton, Mackenzie, Simon P. Williams, James Anderson, Ruth Wilcox, Tim Board, Sophie Williams, and Graham Isaac.
2025. "Impingement During Dislocation-Prone Activities: Geometric Modeling Analysis of an Uncemented Standard Versus Modular Dual Mobility Acetabular Cups" Prosthesis 7, no. 3: 59.
https://doi.org/10.3390/prosthesis7030059
APA Style
Smeeton, M., Williams, S. P., Anderson, J., Wilcox, R., Board, T., Williams, S., & Isaac, G.
(2025). Impingement During Dislocation-Prone Activities: Geometric Modeling Analysis of an Uncemented Standard Versus Modular Dual Mobility Acetabular Cups. Prosthesis, 7(3), 59.
https://doi.org/10.3390/prosthesis7030059
