Kamomis Filler
Kamomis Filler
Introducing Kamomis Filler. Hyaluronic acid fillers contain the same hyaluronic acid found naturally in the human body. They are injected into areas that require volume enhancement, similar to traditional fillers.
FINE
DEEP
VOLUME
Cross-linked Hyaluronic Acid with lidocaine
Hyaluronic acid fillers contain the same hyaluronic acid found naturally in the human body. They are injected into areas that require volume enhancement, similar to traditional fillers. Additionally, they can be broken down by enzymes (metabolized), making them one of the most commonly used filler materials.
What is Hyaluronic Acid?
Hyaluronic acid is a natural polymer with remarkable water absorption capacity—up to 1,000 times its weight. It is widely distributed in the skin and joints of the human body, playing a crucial role in maintaining optimal hydration levels necessary for cellular function and movement.
Strengths of Kamomis Filler
Pushing Filler Technology to the Limit:
Kamomis Fill represents three years of extensive research, maximizing the benefits of existing fillers to deliver exceptional volume and longevity.
Design with High Elasticity and Cohesion:
Kamomis Fill features small, uniform gel particles that maintain their structure over time. Its meticulous production process ensures clear outlining and effective results.
Quick Absorption and Satisfactory Outcome:
Kamomis Fill is rapidly absorbed by the body, and any areas of dissatisfaction can be addressed by effectively injecting hyaluronidase.
Highly Purified Hyaluronic Acid Filler:
Kamomis Fill boasts an impurity level of only 0.0001%, well below the regulatory threshold of 2%. It utilizes EP hyaluronic acid, a non-animal polymer, and includes lidocaine, recognized by European and U.S. regulatory bodies. Stringent purification processes eliminate residual BDDE and minimize endotoxins.
Cutting-Edge Technology for High-Viscosity Fillers:
Our company employs state-of-the-art technology to produce high-viscosity fillers. Through the Low Control Cross-Linking Process (LCCP), we have achieved durable fillers with a robust three-dimensional structure, resistant to external pressures and chemical denaturation.
