Reza Kafi scite author profile

Our study revealed a vigorous wound healing response is initiated post-treatment, with progressive increase in inflammatory cell infiltration from day 2 through 10 weeks. An active dermal remodeling process driven by the collagen chaperone HSP47 led to complete replacement of RFTZs with new collagen by 10 weeks post-treatment. Furthermore, using both immunohistochemical and PCR studies, we successfully demonstrated for the first time evidence of profound neoelastogenesis following RF treatment of human skin. The combination of neoelastogenesis and neocollagenesis induced by treatment with the FRF system may provide a reliable treatment option for skin laxity and/or rhytids.

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Improvement of Naturally Aged Skin With Vitamin A (Retinol)

Kafi¹,

Kwak²,

Schumacher³

et al. 2007

Arch Dermatol

188

115

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The study population comprised 36 elderly subjects (mean age, 87 years), residing in 2 senior citizen facilities.Intervention: Topical 0.4% retinol lotion or its vehicle was applied at each visit by study personnel to either the right or the left arm, up to 3 times a week for 24 weeks.Main Outcome Measures: Clinical assessment using a semiquantitative scale (0, none; 9, most severe) and biochemical measurements from skin biopsy specimens obtained from treated areas.Results: After 24 weeks, an intent-to-treat analysis using the last-observation-carried-forward method revealed that there were significant differences between retinoltreated and vehicle-treated skin for changes in fine wrinkling scores (−1.64 [95% CI, −2.06 to −1.22] vs −0.08 [95% CI, −0.17 to 0.01]; PϽ.001). As measured in a subgroup, retinol treatment significantly increased glycosaminoglycan expression (P =.02 [n=6]) and procollagen I immunostaining (P=.049 [n=4]) compared with vehicle.Conclusions: Topical retinol improves fine wrinkles associated with natural aging. Significant induction of glycosaminoglycan, which is known to retain substantial water, and increased collagen production are most likely responsible for wrinkle effacement. With greater skin matrix synthesis, retinol-treated aged skin is more likely to withstand skin injury and ulcer formation along with improved appearance.

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Effect of Increased Pigmentation on the Antifibrotic Response of Human Skin to UV-A1 Phototherapy

et al. 2008

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To investigate the efficacy, potential limitations, and biological mechanisms of UV-A1 phototherapy for skin sclerosis due to collagen deposition disorders.Design: Before-and-after trial of UV-A1 irradiation of sclerotic skin; in vivo biochemical analyses after UV-A1 irradiation of normal skin.Setting: Academic referral center.Participants: Patients with morphea/scleroderma or sclerodermoid graft-vs-host disease and volunteers without skin disease.Intervention: Sclerotic skin was treated with highdose (130 J/cm 2 ; n=12) or medium-dose (65 J/cm 2 ; n=6) UV-A1 phototherapy 3 times per week for 14 weeks; normal skin was treated with UV-A1 irradiation at various doses and frequencies, with biopsies performed afterwards. Main Outcome Measures:In sclerotic skin, induration was clinically assessed using a scoring scale. In normal skin, quantitative polymerase chain reaction was used to assess antifibrotic responses, defined as decreased type I and type III procollagen and increased matrix metalloproteinase levels.Results: In patients with sclerotic skin treated with highdose UV-A1 irradiation, clinical scores for induration modestly decreased. To investigate what factors prevented further improvement (ie, complete clearance), normal skin with light pigmentation was exposed to UV-A1 irradiation (70-150 J/cm 2 ) and was assessed for antifibrotic responses. A single high-dose exposure (110-150 J/cm 2 ) elicited substantial antifibrotic responses and induced skin darkening. This skin darkening attenuated responses to subsequent UV-A1 exposures and was dose dependent. Thus, to minimize skin darkening, additional patients with sclerotic skin were treated with medium-dose UV-A1 phototherapy, which was no less effective than high-dose therapy. Conclusion:Clinical responses of sclerotic skin to UV-A1 phototherapy were modest because of UV-A1-induced skin darkening, which is photoprotective and attenuates antifibrotic responses.

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UV-A1 Phototherapy Improves Nephrogenic Fibrosing Dermopathy

et al. 2004

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Reza Kafi

Bipolar fractional radiofrequency treatment induces neoelastogenesis and neocollagenesis

Improvement of Naturally Aged Skin With Vitamin A (Retinol)

Effect of Increased Pigmentation on the Antifibrotic Response of Human Skin to UV-A1 Phototherapy

UV-A1 Phototherapy Improves Nephrogenic Fibrosing Dermopathy

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