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By capturing the skin blood vessels from such a wide field of view, it becomes possible to accurately understand the characteristics of the blood vessels according to their individual parts. In our latest research, in collaboration with Professor Wang of the University of Washington, we succeeded in developing a system that visualizes the blood vessel distribution over the whole face using our novel vessel-detection technology.
![face visualizer 3d face visualizer 3d](https://www.solidsmack.com/wp-content/uploads/2008/07/processing-jewelry.jpg)
This is necessary to deal with the three-dimensional irregularities of the face and also to exclude the visual noise generated by the body when breathing and from other small movements. In order to visualize the blood vessels in the face of a living person in a wide field of view, we needed a system which could detect blood vessels with greater accuracy and speed than ever before. *4 OCTA: Optical Coherence Tomography AngiographyĬomprehensive visualization of facial capillaries However, our previous vascular visualization technology had a limited range of observation (up to 12x12 mm), and in order to develop care solutions for the entire face, it was necessary to develop a wide-field visualization of the facial capillaries. With this technology, we have successfully uncovered the relationship between skin blood vessels and beautiful skin. Our OCTA visualizes the capillary structure in the skin by capturing the movement of blood and extracting the fluctuations in that movement using uniquely developed algorithms. This new technology is an application of optical coherence tomography, which is already used in the medical field to observe various organs, especially the fundus. The technique can capture precise, depth-resolved images of the blood vessel structure inside the skin without any damage. In 2017, we developed a unique technology to observe the facial capillaries, which are considered to be particularly difficult to detect, by employing our originally developed version of OCTA*4. It was previously almost impossible to observe them in a living person precisely using only conventional techniques. Skin blood vessels have a very fine and complicated network structure. Optical coherence tomography angiography (OCTA) *3 IFSCC (The International Federation of Societies of Cosmetic Chemists): An international organization dedicated to the development of highly functional and safe cosmetic technologies through the worldwide cooperation of cosmetic societies. *2 Reference: Related major news releases at the end of this report. *1 Reference: Shiseido Succeeds in In Vivo Visualization of Dermal Capillaries (2017) We believe that a holistic approach is important in order to fundamentally improve the overall health of the skin, and we have already shown that capillaries have a close relationship with beauty treatments for age spots and skin firmness*2.Ī part of these research results was presented in the Podium Presentation of the IFSCC*3 Congress 2018 held in Munich, Germany. Blood vessels are responsible for circulating oxygen and nutrients throughout the body. This groundbreaking new technology was finally made a reality through joint research with Professor Wang of the University of Washington, a world leader in vascular observation technologies.
![face visualizer 3d face visualizer 3d](https://www.solidsmack.com/wp-content/uploads/2012/08/3d-printer-infographic-05.jpg)
It has been very difficult to visualize such a wide range of blood vessels until now, since the face has large three-dimensional irregularities and movements due to breathing and other factors. This world-leading achievement was made possible by further developing our unique technology that visualizes facial capillaries without needing to excise the skin*1. Shiseido Company, Limited (“Shiseido”), has succeeded in visualizing the capillaries of the whole face precisely in 3D.