Kay Marquardt, Christian Hartmann, Flora Wegener, Je-Young Park, Douglas Halbert, Stephen Hsu, Thomas Hengl
{"title":"可视微聚焦超声诱导皮肤胶原蛋白和弹性蛋白重塑","authors":"Kay Marquardt, Christian Hartmann, Flora Wegener, Je-Young Park, Douglas Halbert, Stephen Hsu, Thomas Hengl","doi":"10.1111/jocd.16638","DOIUrl":null,"url":null,"abstract":"<p><strong>Purpose: </strong>Microfocused ultrasound with real-time visualization (MFU-V) is often used for noninvasive skin lifting, by precisely targeting dermal and subcutaneous tissues to create thermal coagulation points (TCPs). These TCPs denature collagen and initiate a transient inflammatory response, ultimately attracting dermal fibroblasts and inducing efficient neocollagenesis and extracellular matrix (ECM) remodeling, yielding to MFU-V's desired skin-lifting effects. The current study investigates MFU-V's underlying mode of action based on the histological progression of TCPs in the skin, providing new insight into the technology's regenerative effect.</p><p><strong>Methods: </strong>Following standard triple-depth MFU-V treatment, in vivo skin samples were assessed using histology and immunohistochemistry to evaluate TCPs, heat shock protein (HSP47), and elastin expression in fibroblasts.</p><p><strong>Results: </strong>MFU-V treatment induced elongated, flame-like TCPs with denatured collagen at focal depths of 1.5, 3.0, and 4.5 mm within the skin-each corresponding to its respective transducer depth. Time-dependent progression of TCPs showed significantly increased scores of fibroblasts and mature collagen along with recruitment of HSP47-positive fibroblasts to TCP areas on Day 90. Collagen formation and later maturation were visualized. Newly synthesized elastin significantly increased in the TCP area on Day 90 compared to Day 14.</p><p><strong>Conclusion: </strong>This work provides histological evidence of stimulation and regeneration of newly synthesized elastin fibers after TCP induction. MFU-V-generated TCPs triggered the body's own healing cascade of collagen denaturation, transient inflammation, proliferation, and tissue remodeling, resulting in attraction of HSP47-positive fibroblasts to the TCP sites, and new collagen and elastin fiber regeneration by fibroblasts. Besides the well-described neocollagenesis, this study demonstrates that MFU-V treatment induces elastin neogenesis that may result not only in skin lifting but also in improved skin elasticity, providing an overall regenerative effect.</p>","PeriodicalId":15546,"journal":{"name":"Journal of Cosmetic Dermatology","volume":" ","pages":""},"PeriodicalIF":2.3000,"publicationDate":"2024-11-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Microfocused Ultrasound With Visualization Induces Remodeling of Collagen and Elastin Within the Skin.\",\"authors\":\"Kay Marquardt, Christian Hartmann, Flora Wegener, Je-Young Park, Douglas Halbert, Stephen Hsu, Thomas Hengl\",\"doi\":\"10.1111/jocd.16638\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Purpose: </strong>Microfocused ultrasound with real-time visualization (MFU-V) is often used for noninvasive skin lifting, by precisely targeting dermal and subcutaneous tissues to create thermal coagulation points (TCPs). These TCPs denature collagen and initiate a transient inflammatory response, ultimately attracting dermal fibroblasts and inducing efficient neocollagenesis and extracellular matrix (ECM) remodeling, yielding to MFU-V's desired skin-lifting effects. The current study investigates MFU-V's underlying mode of action based on the histological progression of TCPs in the skin, providing new insight into the technology's regenerative effect.</p><p><strong>Methods: </strong>Following standard triple-depth MFU-V treatment, in vivo skin samples were assessed using histology and immunohistochemistry to evaluate TCPs, heat shock protein (HSP47), and elastin expression in fibroblasts.</p><p><strong>Results: </strong>MFU-V treatment induced elongated, flame-like TCPs with denatured collagen at focal depths of 1.5, 3.0, and 4.5 mm within the skin-each corresponding to its respective transducer depth. Time-dependent progression of TCPs showed significantly increased scores of fibroblasts and mature collagen along with recruitment of HSP47-positive fibroblasts to TCP areas on Day 90. Collagen formation and later maturation were visualized. Newly synthesized elastin significantly increased in the TCP area on Day 90 compared to Day 14.</p><p><strong>Conclusion: </strong>This work provides histological evidence of stimulation and regeneration of newly synthesized elastin fibers after TCP induction. MFU-V-generated TCPs triggered the body's own healing cascade of collagen denaturation, transient inflammation, proliferation, and tissue remodeling, resulting in attraction of HSP47-positive fibroblasts to the TCP sites, and new collagen and elastin fiber regeneration by fibroblasts. 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Microfocused Ultrasound With Visualization Induces Remodeling of Collagen and Elastin Within the Skin.
Purpose: Microfocused ultrasound with real-time visualization (MFU-V) is often used for noninvasive skin lifting, by precisely targeting dermal and subcutaneous tissues to create thermal coagulation points (TCPs). These TCPs denature collagen and initiate a transient inflammatory response, ultimately attracting dermal fibroblasts and inducing efficient neocollagenesis and extracellular matrix (ECM) remodeling, yielding to MFU-V's desired skin-lifting effects. The current study investigates MFU-V's underlying mode of action based on the histological progression of TCPs in the skin, providing new insight into the technology's regenerative effect.
Methods: Following standard triple-depth MFU-V treatment, in vivo skin samples were assessed using histology and immunohistochemistry to evaluate TCPs, heat shock protein (HSP47), and elastin expression in fibroblasts.
Results: MFU-V treatment induced elongated, flame-like TCPs with denatured collagen at focal depths of 1.5, 3.0, and 4.5 mm within the skin-each corresponding to its respective transducer depth. Time-dependent progression of TCPs showed significantly increased scores of fibroblasts and mature collagen along with recruitment of HSP47-positive fibroblasts to TCP areas on Day 90. Collagen formation and later maturation were visualized. Newly synthesized elastin significantly increased in the TCP area on Day 90 compared to Day 14.
Conclusion: This work provides histological evidence of stimulation and regeneration of newly synthesized elastin fibers after TCP induction. MFU-V-generated TCPs triggered the body's own healing cascade of collagen denaturation, transient inflammation, proliferation, and tissue remodeling, resulting in attraction of HSP47-positive fibroblasts to the TCP sites, and new collagen and elastin fiber regeneration by fibroblasts. Besides the well-described neocollagenesis, this study demonstrates that MFU-V treatment induces elastin neogenesis that may result not only in skin lifting but also in improved skin elasticity, providing an overall regenerative effect.
期刊介绍:
The Journal of Cosmetic Dermatology publishes high quality, peer-reviewed articles on all aspects of cosmetic dermatology with the aim to foster the highest standards of patient care in cosmetic dermatology. Published quarterly, the Journal of Cosmetic Dermatology facilitates continuing professional development and provides a forum for the exchange of scientific research and innovative techniques.
The scope of coverage includes, but will not be limited to: healthy skin; skin maintenance; ageing skin; photodamage and photoprotection; rejuvenation; biochemistry, endocrinology and neuroimmunology of healthy skin; imaging; skin measurement; quality of life; skin types; sensitive skin; rosacea and acne; sebum; sweat; fat; phlebology; hair conservation, restoration and removal; nails and nail surgery; pigment; psychological and medicolegal issues; retinoids; cosmetic chemistry; dermopharmacy; cosmeceuticals; toiletries; striae; cellulite; cosmetic dermatological surgery; blepharoplasty; liposuction; surgical complications; botulinum; fillers, peels and dermabrasion; local and tumescent anaesthesia; electrosurgery; lasers, including laser physics, laser research and safety, vascular lasers, pigment lasers, hair removal lasers, tattoo removal lasers, resurfacing lasers, dermal remodelling lasers and laser complications.
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