Characterization of Two Kinds of Filler for the Formulation / 대한피부과학회지

BACKGROUND: Hyaluronic acid (HA) is a carbohydrate, occurring naturally throughout the human body. With linear polysaccharide structure, it is (HA) found in soft connective tissues, cartilage and joinfluids. Hyaluronic acid filler is used for treatment of depth of the fold or volume of filler needed and performed for wrinkle improvement and cosmetic. We did property of matter for the Perfectha(R) fillers. OBJECTIVE: Our purpose is to describe and comment on our experiences with two kinds of Perfectha(R) fillers. METHODS: We obtained image of the shape of fillers using a folliscope, VC98 and particle size using the Scanning electron microscope (SEM). We tested to make sure that affinity both fillers with water. We mixed the fillers and distilled water. We the PARKER ink added to the mixture. Viscosity and elasticity were measured using a rheometer. RESULTS: The test revealed that a particle sized Perfectha(R) derm deep is bigger than a Perfectha(R) derm. We were confirmed as hydrophile. While Perfectha(R) derm deep filler has high viscosity and elasticity, Perfectha(R) derm filler has high viscosity only, not elasticity. CONCLUSION: Two kinds of Perfectha(R) fillers act as space filler by binding to water and thus keeping the skin wrinkle-free.

Formulation Characteristics of Three Kinds of Elravie(R) Fillers / 대한피부과학회지

BACKGROUND: Hyaluronic acid (HA) is a mucopolysaccharide that occurs naturally throughout the human body, where it attaches to collagen and elastin to form cartilage, and also helps maintain the strength and flexibility of the cartilage that cushions joints. A decline in HA synthesis may lead to a variety of symptoms, ranging from joint discomfort, to wrinkles. Cross-linked HA is a viscoelastic solid that resists in vivo degradation by hyaluronidase for much longer than endogenous HA, and which is also a key ingredient in various cosmetics. OBJECTIVE: To describe our experience with three kinds of Elravie(R) fillers. METHODS: We obtained images of filler shape using a folliscope. Scanning electron microscopy (SEM) was used to compare particle sizes. Hydrophilic filler is a hydroxyl, and for this reason, we mixed the filler with water. Next, PARKER ink was added to the mixture, and viscosity and elasticity were measured using a rheometer. RESULTS: Among the tested fillers, particle size was largest in the Restylane(R) SubQ. Elravie(R) ultra volume filler was greater in volume than Elravie(R) deep line, and Elravie(R) light fillers. We confirmed Elravie(R) fillers to be hydrophilic. Elravie(R) ultra volume filler was found to have the highest viscosity and elasticity, whilst Elravie(R) light filler had the lowest. CONCLUSION: All three kinds of Elravie(R) fillers were found to be suitable for human cosmetic use.