Abstract
This study was conducted to study the influence of design parameters namely; the head/neck ratio ( R ), neck-shaft angle (NSA), oscillation angle (OsA) and stem offset (Sθ) on cup–stem orientations namely; the cup inclination (CI), cup anteversion (CA) and stem antetorsion (SA). R is often linked to influence NSA, OsA and impingement. An effort has been made to analyze range of motion (RoM) with NSA greater than 135° and R lower than 2.3 that may produce impingement. This study attempted to answer the following assumptions whether (a) implants with higher H–N ratio can achieve higher oscillations and higher stem antetorsion, (b) stems with higher neck shaft angle can achieve higher cup anteversion with lower stem offset and stem antetorsion, (c) stem with higher offsets can achieve lower cup anteversion with higher stem antetorsion, and (d) lower cup anteversion can be achieved when stem antetorsion is higher. A theoretical and a simulated method were implemented to anaylze RoM until impingement between cup and neck occurred. Cup abduction and anterior opening were held constant for this study. Multivariate prediction models were developed to predict optimal cup–stem orientations for the chosen design parameters of 12 hip implants. Optimal design parameters to achieve an impingement free RoM were as follows: NSA = 139.25°, R = 3.08, OsA = 119.83°, Sθ = 34.45 mm, CA predicted = 16.26°, CI predicted = 42.77° and SA predicted = 30.37°, respectively. Multivariate models may be further developed for use in surgery planning to achieve optimal component placement.
Original language | American English |
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Journal | Medical Engineering & Physics |
Volume | 34 |
DOIs | |
State | Published - Jun 1 2012 |
Keywords
- Head-to-neck ratio
- Hip implants
- Impingement
- Neck shaft angle
- Oscillation angle
- Predictive model
- Range of motion
- Stem offset
Disciplines
- Biomedical Engineering and Bioengineering
- Engineering
- Industrial Engineering
- Operations Research, Systems Engineering and Industrial Engineering