3D patient specific instrumentation for high tibial osteotomy
High tibial osteotomy (HTO) is a surgical intervention for knee osteoarthritis (OA) by correcting the alignment of the knees. This is carried out by cutting the upper tibia at an angle to help redirect the load from the damaged cartilage, preventing further deterioration. This treatment helps...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
Nanyang Technological University
2024
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| Online Access: | https://hdl.handle.net/10356/177493 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | High tibial osteotomy (HTO) is a surgical intervention for knee osteoarthritis (OA) by
correcting the alignment of the knees. This is carried out by cutting the upper tibia at an angle
to help redirect the load from the damaged cartilage, preventing further deterioration. This
treatment helps to delay the patients from going through a total knee arthroplasty (TKA) or a
knee replacement which may pose a higher risk of complications. As the medical industry
gets more advanced with the use of patient specific instruments, patient can have tailor-made
instruments which is precise and accurate while greatly improving the surgical outcome of
each operation.
The aim of this project is to experiment the methods to create the femur, patella, fibula, tibia
cortical and tibia cancellous as accurate as possible through the 3D Slicer. The features of the
bones, such as the tibial plateau datum, femur head center and the ankle joints, have to be
preserved as best as possible as it is crucial for the measurements for HTO cuts. The bone
models will be created using three-dimensional (3D) Slicer, meshing will be completed in
MeshLab and the HTO measurements and cuts will be completed using SolidWorks. Bone
models are created from computed tomography (CT) scans which are specimens provided by
the Singapore General Hospital (SGH). The model is then meshed in MeshLab to reduce the
number of faces and HTO cuts are then simulated in SolidWorks.
The most time-intensive part of this project is creating the bone models as there are many
alternatives to build it, with many unknown variables, like how the detection algorithm for
the Hounsfield Units (HU) works, which helps to build the bone model. After a vast number
of experiments with 3D Slicer, “Grow from Seeds” is proven to be more time efficient and
accurate along with the “Logical Operators”, especially for a thin and uneven layer like the
cortical region. With SolidWorks used preoperatively to simulate the HTO cuts and
alignment, there are still limitations present. The creation of the locking plates and the
wedges were unsuccessful due to the complexity of having it contoured to the anatomy of the
patient.
In conclusion, the 3D bone models produced are accurate for measurements with simulated
OA conditions to be carried out in SolidWorks. The wedges and locking plates need further
improvement to be used in simulation. |
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