Xiang Nanxi, Huang Zeting, Zhang Chunqiao, Huang Jiahong, Wang Zhenyuan, Zhang Jichuan, Wu Chengyu, Peng Weihua, Zhang Jiaheng
Chongqing Innovation Center, Beijing Institute of Technology, Chongqing 401120, PR China.
Guangzhou Zhongzhuang Meiye Cosmetics Co., Ltd, Zhuhai 440105, PR China.
Int J Pharm X. 2024 Oct 5;8:100289. doi: 10.1016/j.ijpx.2024.100289. eCollection 2024 Dec.
Low energy/frequency radiofrequency (LRF) combined with the transdermal delivery of liposome (L) encapsulated antiaging peptides technology is a remarkable, newly developed physical noninvasive transdermal penetration technique; it is considered a highly efficient, comprehensive and safe technology. In this study, our objective was to evaluate the physical and chemical mechanisms underlying the efficacy of this innovative technique involving a combination of LRF and L, termed LLRF, that exerts a synergistic anti-aging effect on human skin, via an animal experiment. Physical and chemical analyses indicated that a relatively stable liposome with a uniform nano-size, which was formed, possessed good transdermal permeability that was 2.74 folds higher than that of the free peptide (F). LLRF exhibited a higher transdermal permeation performance that was of 3.65 folds higher than that of the free one, which was substantiated via confocal laser scanning fluorescence microscopy. The mouse UVB photoaging model trial confirmed that the LLRF technology exerted a significant synergistic effect compared to liposome technology, or free peptide, by downregulating inflammatory factors (IL-6, TNF-α), inhibiting the mRNA and protein expression of matrix metalloproteinases (MMP1, MMP3), promoting the mRNA and protein expression of related collagens (Procollagen, Col1α1 and Col3α1), and repairing the stratum corneum barrier function, as evidenced by trans-epidermal water loss (TEWL), skin cuticle hydration (SCH), and decreased expression of β-gal, an aging marker. These findings indicated that photoaging skin can be effectively and comprehensively rejuvenated, and that even photodamage can be reversed, thereby restoring the original physiological characteristics of healthy skin. Clinical tests have confirmed that although liposome technology is an effective antiaging method which helps exert tightening and anti-wrinkle effects on human skin, LLRF is an even more effective anti-aging technique. This study reveals a highly effective technique involving a combination physical and chemical therapy that may be utilized for antiaging purposes as well as repairing lightly damaged skin, and can be made readily available in the future.
低能量/频率射频(LRF)与脂质体(L)包裹的抗衰肽经皮递送技术相结合,是一种卓越的、新开发的物理非侵入性经皮渗透技术;它被认为是一种高效、全面且安全的技术。在本研究中,我们的目标是通过动物实验评估这种创新技术(称为LLRF,即LRF与L的组合)对人体皮肤产生协同抗衰作用的物理和化学机制。物理和化学分析表明,形成的具有均匀纳米尺寸的相对稳定的脂质体具有良好的经皮渗透性,比游离肽(F)高2.74倍。通过共聚焦激光扫描荧光显微镜证实,LLRF表现出更高的经皮渗透性能,比游离肽高3.65倍。小鼠UVB光老化模型试验证实,与脂质体技术或游离肽相比,LLRF技术通过下调炎症因子(IL - 6、TNF - α)、抑制基质金属蛋白酶(MMP1、MMP3)的mRNA和蛋白表达、促进相关胶原蛋白(前胶原蛋白、Col1α1和Col3α1)的mRNA和蛋白表达以及修复角质层屏障功能,发挥了显著的协同作用,这通过经表皮水分流失(TEWL)、皮肤角质层水合作用(SCH)以及衰老标志物β - 半乳糖苷酶表达降低得以证明。这些发现表明,光老化皮肤可以有效且全面地恢复活力,甚至光损伤也可以逆转,从而恢复健康皮肤的原始生理特征。临床试验已经证实,尽管脂质体技术是一种有效的抗衰方法,有助于对人体皮肤发挥紧致和抗皱作用,但LLRF是一种更有效的抗衰技术。本研究揭示了一种涉及物理和化学联合治疗的高效技术,可用于抗衰目的以及修复轻度受损皮肤,并且在未来可以很容易获得。
