DESIGN CONCEPT OF 3D SEE® TRABECULAR METAL HIP PROSTHESIS SYSTEM
02. 18, 2020
DESIGN CONCEPT OF 3D SEE® TRABECULAR METAL HIP PROSTHESIS SYSTEM
With the younger-age trend of total hip arthroplasty (THA), the number of patients undergoing THA revision is increasing. Clinical literature has shown that the rate of hip revision is significantly higher in younger and more active patients, with a 15-year prosthesis survival rate of only about 60%.
Why is the survival rate of the prosthesis low? What can we do in the prosthesis design?
The “3D SEE® trabecular metal hip prosthesis system” released by the JUST MED has given the perfect solution.
Statistics on the reasons for the revision of the multi-country registration center in 2016 show that aseptic loosening is the main reason for postoperative revision.
At present, there are many basic and clinical studies on aseptic loosening, which are mainly divided into mechanical mechanisms and biological mechanisms.
The mechanical mechanism plays an initial role in the occurrence of aseptic loosening, mainly including two aspects:
1. Micromovement
Excessive micromotion of the prosthesis-bone interface can affect the tight binding of the bone to the prosthesis. When the micro-motion of the prosthesis-femoral interface is greater than 150 μm, bone formation is inhibited, resulting in formation of a fibrous membrane. Micromotion can also directly lead to osteolysis, increasing the risk of aseptic loosening.
JUST 3D SEE® trabecular metal cup, modular femoral stem and sleeve use 3D printed electron beam fusion molding technology. The friction coefficient of sleeve trabecular porous layer is up to 1.08 to minimize Micromovement.
Hip joint interface gold standard --- 3D printing titanium metal trabecular porous structure
At the same time, the porous trabecular bone layer of 3D SEE® trabecula metal cup and sleeve is a three-dimensional through-hole structure with a porosity of 75%-80% and pore diameter of 600-800μm. It has excellent bone ingrowth effect to ensure the long-term stability after implantation.
3D SEE® trabecular metal modular femoral stem: The head-neck, sleeve-stem of the stem body are tapered to minimize micromotion.
2. Stress Shielding
Digas found that stress shielding is involved in the loss of bone density around the uncemented press-fit cup, which in turn causes the prosthesis loosening. At the same time, in some clinical studies, the proximal femur is also a high-incidence area of stress shielding.
3D SEE® trabecular metal modular cup and sleeve are of 75%-80% porosity and the elastic modulus close to cancellous bone to minimize stress shielding.
3D SEE® trabecular metal modular femoral stem: different types and specifications of trabecular sleeves ensure the proximal intramedullary filling to achieve stress distribution to the proximal end and reduce the stress shielding of the proximal femur. The distal torus coronal "tuning fork" design reduces stiffness and minimizes stress shielding.
The biological mechanism plays an important role in the late stage of aseptic loosening of artificial joints. Due to the effects of different levels of particles, cells, molecules, etc., the polyethylene particles produced by the wear of the main prosthesis produces macrophages, which eventually leads to osteolysis.
JUST MED adopts the international clinical mainstream low-friction interface prosthesis: ceramic head to highly cross-linked liner to ensure safety while minimizing wear.
The design of the 3D SEE® trabecular metal hip prosthesis system minimizes the incidence of aseptic loosening, ensures the long-term survival rate of the prosthesis, and helps doctors bring healthy life to patients by starting from mechanical mechanisms and biological mechanisms!
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