Unveiling senescence-associated secretory phenotype in epidermal aging: insights from reversibly immortalized keratinocytes.

Aging of epidermal keratinocytes profoundly impacts skin health, contributing to changes in appearance, barrier function, and susceptibility to diseases. Despite its significance, the molecular mechanisms underlying epidermal aging remain elusive. In this study, a reversible immortalized cell line was established by expressing SV40T in keratinocytes using the Tet-Off lentiviral system.

[A new allo-aromadendrane sesquiterpene from Dendrobium nobile].

To study the chemical constituents in the non-alkaloid part of stems of Dendrobium nobile. The macroporous adsorption resin, MCI, silica gel, RP-C_(18), and Sephadex LH-20 gel, preparative thin layer chromatography, and preparative high-performance liquid chromatography(HPLC) were used to isolate and purify the compounds. The structures of the compound were determined according to the spectra data, physicochemical properties, and relevant references.

Successful replantation of amputated facial tissues by supermicrosurgery.

Background: Although replantation of amputated facial segments remains challenging in reconstructive surgery, it offers excellent aesthetic and functional outcomes.

Methods: From May 2004 to October 2019, 12 patients underwent replantation of amputated facial tissues by supermicrosurgery. The case details, such as the rationale for replantation, the operation method, and postoperative therapy, are described.

[Continuous monitoring of blood adriamycin using a fiber optic chemical sensor in rabbit].

Aim: To evaluate the feasibility and accuracy of continuous monitoring of drug with a fiber optic chemical sensor (FOCS) in animal.

Methods: An accurate optical design was used to enhance the intensity of light from a 100-micron optic fiber and the fluorescence signal could be detected. A new sol-gel method was used to fix the fluorescence substance 4-(N, N-dioctyl) amino-7-nitrobenz-2-oxa-1, 3-diazole (D-70) on the body fiber.

Continuous monitoring of adriamycin in vivo using fiber optic-based fluorescence chemical sensor.

A novel method using a fiber optic-based fluorescence chemical sensor (FOCS) was developed for the preparation of on-line continuous monitoring of a drug in animals. First, an accurate optical design was used to enhance the intensity of light from a 100-microm optic fiber so the fluorescence signal can be detected. Second, A new sol-gel method was used to fix the fluorescence substance 4-(N,N-dioctyl)amino-7-nitrobenz-2-oxa-1,3-diazole (D-70) on the tip of the fiber.