Evaluating cephalomedullary fixation for intertrochanteric femur fracture using a validated osteoporotic model

Hip fractures, notably femur fractures, pose a significant challenge, particularly within the elderly demographic, often exacerbated by conditions such as osteoporosis. One specific type of hip fracture, known as an intertrochanteric fracture, affects the upper part of the femur and is associated wi...

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Main Author: Lee, Yi Feng
Other Authors: Chou Siaw Meng
Format: Final Year Project
Language:English
Published: Nanyang Technological University 2024
Subjects:
Online Access:https://hdl.handle.net/10356/177846
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1778462024-06-01T16:54:13Z Evaluating cephalomedullary fixation for intertrochanteric femur fracture using a validated osteoporotic model Lee, Yi Feng Chou Siaw Meng School of Mechanical and Aerospace Engineering Tan Tock Seng Hospital MSMCHOU@ntu.edu.sg Engineering Medicine, Health and Life Sciences Intertrochanteric femur fracture Proximal nail antirotation Hip fractures, notably femur fractures, pose a significant challenge, particularly within the elderly demographic, often exacerbated by conditions such as osteoporosis. One specific type of hip fracture, known as an intertrochanteric fracture, affects the upper part of the femur and is associated with a considerable 1-year mortality rate. Surgeons often employ cephalomedullary fixation, a surgical technique involving the insertion of a specialized titanium rod, proximal femoral nail antirotation (PFNA-II), to stabilize the fractured bone. However, complications arise when the fractured bone, particularly the lesser trochanter (LT) fragment, extends downward along the femur, away from its original position near the hip joint. As the length of the fracture extension increases, the bone's stability diminishes under loading conditions. This poses a challenge, as the commonly used short PFNA-II may prove inadequate in providing stability when the LT fragment extends significantly, potentially necessitating the use of the long PFNA-II, albeit with higher risks of complications. This study aims to conduct axial loading simulations on the PFNA implant and evaluate the vertical reaction force, axial stiffness, and the von Mises stress at each distal extension length. The simulation was done on a new osteoporotic bone model at the baseline and on the previous osteoporotic bone model with distal extensions of 30 mm and 40 mm. Despite rigorous efforts, the study did not yield significant results, possibly due to inherent limitations in the experimental setup or analytical methods employed. Moving forward, this outcome shows the need for further exploration and refinement of research methodologies to uncover meaningful insights. Bachelor's degree 2024-05-31T12:45:47Z 2024-05-31T12:45:47Z 2024 Final Year Project (FYP) Lee, Y. F. (2024). Evaluating cephalomedullary fixation for intertrochanteric femur fracture using a validated osteoporotic model. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/177846 https://hdl.handle.net/10356/177846 en C163 application/pdf Nanyang Technological University
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering
Medicine, Health and Life Sciences
Intertrochanteric femur fracture
Proximal nail antirotation
spellingShingle Engineering
Medicine, Health and Life Sciences
Intertrochanteric femur fracture
Proximal nail antirotation
Lee, Yi Feng
Evaluating cephalomedullary fixation for intertrochanteric femur fracture using a validated osteoporotic model
description Hip fractures, notably femur fractures, pose a significant challenge, particularly within the elderly demographic, often exacerbated by conditions such as osteoporosis. One specific type of hip fracture, known as an intertrochanteric fracture, affects the upper part of the femur and is associated with a considerable 1-year mortality rate. Surgeons often employ cephalomedullary fixation, a surgical technique involving the insertion of a specialized titanium rod, proximal femoral nail antirotation (PFNA-II), to stabilize the fractured bone. However, complications arise when the fractured bone, particularly the lesser trochanter (LT) fragment, extends downward along the femur, away from its original position near the hip joint. As the length of the fracture extension increases, the bone's stability diminishes under loading conditions. This poses a challenge, as the commonly used short PFNA-II may prove inadequate in providing stability when the LT fragment extends significantly, potentially necessitating the use of the long PFNA-II, albeit with higher risks of complications. This study aims to conduct axial loading simulations on the PFNA implant and evaluate the vertical reaction force, axial stiffness, and the von Mises stress at each distal extension length. The simulation was done on a new osteoporotic bone model at the baseline and on the previous osteoporotic bone model with distal extensions of 30 mm and 40 mm. Despite rigorous efforts, the study did not yield significant results, possibly due to inherent limitations in the experimental setup or analytical methods employed. Moving forward, this outcome shows the need for further exploration and refinement of research methodologies to uncover meaningful insights.
author2 Chou Siaw Meng
author_facet Chou Siaw Meng
Lee, Yi Feng
format Final Year Project
author Lee, Yi Feng
author_sort Lee, Yi Feng
title Evaluating cephalomedullary fixation for intertrochanteric femur fracture using a validated osteoporotic model
title_short Evaluating cephalomedullary fixation for intertrochanteric femur fracture using a validated osteoporotic model
title_full Evaluating cephalomedullary fixation for intertrochanteric femur fracture using a validated osteoporotic model
title_fullStr Evaluating cephalomedullary fixation for intertrochanteric femur fracture using a validated osteoporotic model
title_full_unstemmed Evaluating cephalomedullary fixation for intertrochanteric femur fracture using a validated osteoporotic model
title_sort evaluating cephalomedullary fixation for intertrochanteric femur fracture using a validated osteoporotic model
publisher Nanyang Technological University
publishDate 2024
url https://hdl.handle.net/10356/177846
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