1. Biocompatibility
Silicone gel exhibits excellent biocompatibility with human tissues, minimizing rejection reactions and inflammation.
Long-term implantation in the body does not cause severe immune reactions or toxic reactions.
2. Oxygen Permeability and Breathability
Silicone gel possesses good oxygen permeability and breathability, allowing oxygen and nutrients to pass freely, maintaining the physiological environment of the implanted site.
This property enables silicone gel to be widely used in medical fields such as burns and trauma.
3. Flexibility and Moldability
Silicone gel is soft and easy to shape, allowing it to be formed into various shapes and sizes to meet different medical needs.
Its flexibility makes silicone gel more comfortable when in contact with human tissues, reducing discomfort.
4. Stability and Durability
Silicone gel has high chemical and physical stability, resisting erosion from acids, bases, oxidants, and other chemicals.
Its durability ensures that silicone gel-based medical devices and implants have a long service life.
5. Antibacterial and Antifouling Properties
The surface of silicone gel is resistant to the growth of bacteria and other microorganisms, exhibiting antibacterial properties.
At the same time, silicone gel is resistant to contamination, maintaining the cleanliness and sterility of the implanted site.
6. Safety
Silicone gel undergoes rigorous biocompatibility testing and safety evaluations to ensure its safety in medical applications.
After implantation, silicone gel does not cause significant toxic reactions or long-term side effects in the human body.
7. Customizability
Silicone gel can be customized to meet medical needs, such as adjusting its hardness, color, shape, and other parameters.
This customizability gives silicone gel broad application prospects in medical aesthetics, plastic surgery, and other fields.