{"id":33234,"date":"2025-09-11T17:16:48","date_gmt":"2025-09-11T17:16:48","guid":{"rendered":"https:\/\/www.hotelsalepage.com\/feed\/cision-pr-newswire\/global-first-high-definition-image-decoding-the-code-of-youth-livingphoenixs-pogment-collagen-breakthrough-bridges-international-gap\/"},"modified":"2025-09-11T17:16:48","modified_gmt":"2025-09-11T17:16:48","slug":"global-first-high-definition-image-decoding-the-code-of-youth-livingphoenixs-pogment-collagen-breakthrough-bridges-international-gap-2","status":"publish","type":"post","link":"https:\/\/thaipropertynews.com\/feeds\/?p=33234","title":{"rendered":"GLOBAL FIRST “High-Definition Image”: Decoding the “Code of Youth” – LivingPhoenix’s POGMENT Collagen Breakthrough Bridges International Gap"},"content":{"rendered":"

CHENGDU, China<\/span><\/span>, Sept. 11, 2025<\/span><\/span> \/PRNewswire\/ — Recently, LivingPhoenix\u00aeRegenerative Technologies\u00a0Development\u00a0(Chengdu<\/span>) Co., Ltd., announced that its self-developed\u00a0POGMENT triple-helix biomimetic collagen has, for the first time globally, achieved high-resolution molecular visualization of “collagen fiber bundles<\/span>” using\u00a0Cryo-Electron microscopy (Cryo-EM)\u00a0under near-physiological and cryogenic conditions. This breakthrough fills the international knowledge gap in understanding collagen’s self-assembly mechanism.<\/p>\n

The result was achieved through collaboration with the Cryo-EM platform team at Tianfu Jincheng Laboratory (Frontier Medical Center).\u00a0Using a 300kV Cryo-TEM (Titan Krios G4), the team captured ultra-structural details across multiple sample batches, with morphology further validated by\u00a0Talos L120C TEM\u00a0at room temperature. This marks a major original breakthrough for China<\/span> in the high-end biomaterials field.<\/p>\n

\n

\"LivingPhoenix<\/a>
LivingPhoenix Technology\u2019s POGMENT collagen achieves global first high-resolution visualization of \u201ccollagen fiber bundles\u201d by Cryo-EM<\/span><\/p>\n<\/div>\n

POGMENT is the world’s first biomimetic collagen to overcome thermal instability. It is a synthetic material not derived from animals, solving key bottlenecks in structural stability and functional consistency of traditional collagen. The technology originated from an initial process (1.0) at Kyoto University<\/span>, was introduced to China<\/span> (v1.1) by Japanese scientists, upgraded locally in Chengdu<\/span> to v1.2, and finally developed into a second-generation independent intellectual property system (2.0) by a global team of PhDs from the\u00a0University of Tokyo<\/span>, Peking University, Chinese Academy of Sciences, and University\u00a0Paris Dauphine.<\/p>\n

The technology has applied for 6 Chinese invention patents applications<\/span> and 6 PCT applications<\/span>, with 3 material patents and 1 use patent already granted. Trademark and other\u00a0IP rights have been registered in the U.S., EU, UK, South Korea<\/span>, and Japan<\/span>. Joint original research by LivingPhoenix,\u00a0Shanghai Ninth People’s Hospital, National Center of Gerontology Beijing Hospital, Peking University Third Hospital, and the University of Tokyo<\/span> has been peer-reviewed and published in the Q1 SCI journal\u00a0Frontiers in Bioengineering and Biotechnology<\/i>\u00a0(Impact Factor: 4.8)<\/i>.<\/p>\n

Furthermore, this technological achievement has been filed with the National Medical Products Administration (NMPA) in accordance with national standards, and has been included in the\u00a0Terminology for Collagen in<\/i>\u00a0Tissue-Engineered Medical Devices<\/i>\u00a0(YY\/T1955-2025), <\/i>Medical Device Master File and Cosmetic Ingredient.<\/p>\n

For collaboration opportunities in cosmetics, medical aesthetics, or high-end biomaterials, contact:<\/p>\n

Email: POGMENT@mylivingphoenix.com<\/a>\u00a0<\/p>\n

O<\/b>fficial website<\/b>\uff1a<\/b>www.mylivingphoenix.com<\/a>\u00a0\u00a0<\/p>\n

<\/div>","protected":false},"excerpt":{"rendered":"

<\/p>\n

CHENGDU, China<\/span><\/span>, Sept. 11, 2025<\/span><\/span> \/PRNewswire\/ — Recently, LivingPhoenix\u00aeRegenerative Technologies\u00a0Development\u00a0(Chengdu<\/span>) Co., Ltd., announced that its self-developed\u00a0POGMENT triple-helix biomimetic collagen has, for the first time globally, achieved high-resolution molecular visualization of “collagen fiber bundles<\/span>” using\u00a0Cryo-Electron microscopy (Cryo-EM)\u00a0under near-physiological and cryogenic conditions. This breakthrough fills the international knowledge gap in understanding collagen’s self-assembly mechanism.<\/p>\n

The result was achieved through collaboration with the Cryo-EM platform team at Tianfu Jincheng Laboratory (Frontier Medical Center).\u00a0Using a 300kV Cryo-TEM (Titan Krios G4), the team captured ultra-structural details across multiple sample batches, with morphology further validated by\u00a0Talos L120C TEM\u00a0at room temperature. This marks a major original breakthrough for China<\/span> in the high-end biomaterials field.<\/p>\n

\n

\"LivingPhoenix<\/a>
LivingPhoenix Technology\u2019s POGMENT collagen achieves global first high-resolution visualization of \u201ccollagen fiber bundles\u201d by Cryo-EM<\/span><\/p>\n<\/div>\n

POGMENT is the world’s first biomimetic collagen to overcome thermal instability. It is a synthetic material not derived from animals, solving key bottlenecks in structural stability and functional consistency of traditional collagen. The technology originated from an initial process (1.0) at Kyoto University<\/span>, was introduced to China<\/span> (v1.1) by Japanese scientists, upgraded locally in Chengdu<\/span> to v1.2, and finally developed into a second-generation independent intellectual property system (2.0) by a global team of PhDs from the\u00a0University of Tokyo<\/span>, Peking University, Chinese Academy of Sciences, and University\u00a0Paris Dauphine.<\/p>\n

The technology has applied for 6 Chinese invention patents applications<\/span> and 6 PCT applications<\/span>, with 3 material patents and 1 use patent already granted. Trademark and other\u00a0IP rights have been registered in the U.S., EU, UK, South Korea<\/span>, and Japan<\/span>. Joint original research by LivingPhoenix,\u00a0Shanghai Ninth People’s Hospital, National Center of Gerontology Beijing Hospital, Peking University Third Hospital, and the University of Tokyo<\/span> has been peer-reviewed and published in the Q1 SCI journal\u00a0Frontiers in Bioengineering and Biotechnology<\/i>\u00a0(Impact Factor: 4.8)<\/i>.<\/p>\n

Furthermore, this technological achievement has been filed with the National Medical Products Administration (NMPA) in accordance with national standards, and has been included in the\u00a0Terminology for Collagen in<\/i>\u00a0Tissue-Engineered Medical Devices<\/i>\u00a0(YY\/T1955-2025), <\/i>Medical Device Master File and Cosmetic Ingredient.<\/p>\n

For collaboration opportunities in cosmetics, medical aesthetics, or high-end biomaterials, contact:<\/p>\n

Email: POGMENT@mylivingphoenix.com<\/a>\u00a0<\/p>\n

O<\/b>fficial website<\/b>\uff1a<\/b>www.mylivingphoenix.com<\/a>\u00a0\u00a0<\/p>\n

<\/div>\n

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