Protective Effects of Micronized Fat against Ultraviolet B-Induced Photoaging.

Abstract

Autologous fat grafting has long been an essential technique in cosmetic and reconstructive surgery. Here, the authors report the advantages of a new device for preparing micronized fat, and they also investigated the therapeutic potential of micronized fat against ultraviolet B-induced photoaging. Micronized fat aliquots were prepared through a connector device with trifoliate blades. The histologic structure and viability of the prepared fat samples were evaluated by calcein AM/propidium iodide staining. The levels of growth factor were measured by enzyme-linked immunosorbent assay, and flow cytometry was used to detect the ratio of adipose-derived mesenchymal stem cells to stromal vascular fraction. The authors also evaluated the effects of micronized fat transplantation through immunohistochemistry and Masson trichrome staining in an animal model of photoaging. The micronized fat had a normal histologic structure and viable adipocytes. It had a higher level of hepatocyte growth factor compared with the control group, and its ratio of adipose-derived mesenchymal stem cells to stromal vascular fraction was also higher than in the control fat preparations. Transplantation of micronized fat preparations in the animal model of photoaging produced increased skin neovascularization, epidermal cell proliferation, and dermal collagen density. The authors' results demonstrated that the novel device produced micronized fat easily, which can condense adipose tissue. This micronized fat was easy to use with smaller cannulas. It mitigated the signs of cutaneous photoaging and was superior to control fat. Contrary to previous reports, normal histologic structures and viable adipocytes were noted in the micronized fat.