Ti-oss® 1.2-1.7mm - 20 times magnified - The surface exhibits uniformed Multiporous structure
Competitions - Poor porous nature
Can you see the differences?
The pores in graft materials are crucial as they serve as pathways for blood vessels to deliver essential components such as blood, new bone cells, nutrients, and oxygen, allowing them to settle and grow within the graft for angiogenic progress. If the graft particles have poor porosity, as shown in the pictures above, effective angiogenesis cannot be expected. For your better understanding, please review the following images illustrating blood vessel progression after graft surgery.
Ti-oss® 1.2-1.7mm - 100 times magnified
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Post graft surgery blood vessel progress of Ti-oss®
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Bone Graft Biology
02
Biopsy
03
Clinical Cases
04
Research & Articles
After 3 days
When the graft surgery is implemented, the new bone cell is conducted & delivered from the patient's existing bone to the graft site throughout the blood supply.
If the graft particle shape has poor porosity, it prohibits the blood vessel growth inside the graft and consequently causes poor angiogenic progress. That's why the porosity of the graft material is essential.
After 3~5 days
Within 3 to 5 days, blood vessels actively approach the graft site.
After 2 weeks
Within two weeks, blood vessels penetrate the pores of the graft materials, settling and growing within the graft. This marks the initial stage of bone formation.
The unique 100%
multiporous cancellous
nature of Ti-oss® offers higher quantitative mass
volume per gram unit,
compared to other
poor porous products.
It results in less material cost which means that Ti-oss® is cost-efficient &
effective.
Multiporosity
Rough Surface
Osteopromoting Factor
The porosity of the bone graft substitute is one of the most crucial factors for angiogenic progress.
Our 15 years of R&D and sophisticated MID temperature manufacturing expertise enable Tioss® to exhibit an optimal, natural surface topography, the same as human bone.
Pre-HA structure, Octacalcium
Phosphate (OCP) crystals that exhibit excellent bone regenerative properties are found on the surface of Ti-oss®.