Tissue engineered skin is widely used in the treatment of refractory wounds such as severe burn wounds and diabetic wounds. Seed cells and scaffold materials are the key elements for constructing tissue engineered skin. Adipose-derived stem cells have gradually become an important choice of seed cells in tissue engineered skin due to their advantages of low immunogenicity and multi-directional differentiation potential. Scaffold material is a vital part of skin tissue engineering. The modification of single material and preparation of composite materials are becoming the main research directions of the construction of skin tissue engineering scaffolds. This paper introduced the application of various kinds of skin tissue engineering scaffolds loaded with adipose-derived stem cells in wound repair in recent years, and summarized the advantages and disadvantages in using various scaffold materials to the construction of skin tissue engineering scaffolds, in order to provide new ideas for the development of tissue engineered skin loaded with adipose-derived stem cells.

Aging refers to the process by which the structural degeneration and functional decline over time, eventually leading to dysfunction of multiple organs and systems, even death. Stem cells are gradually applied to the field of anti-aging due to their multiple differentiation and paracrine functions, and adipose-derived mesenchymal stem cell (ADSC) arise our attention for the characteristic of easy to access and low immunogenicity. This lecture elaborates the ability of ADSC to fight aging in various systems, reflecting their important prospects in the anti-aging field.

Aging refers to the process by which the structural degeneration and functional decline over time, eventually leading to dysfunction of multiple organs and systems, even death. Stem cells are gradually applied to the field of anti-aging due to their multiple differentiation and paracrine functions, and adipose-derived mesenchymal stem cell (ADSC) arise our attention for the characteristic of easy to access and low immunogenicity. This lecture elaborates the ability of ADSC to fight aging in various systems, reflecting their important prospects in the anti-aging field.

ObjectiveTo analyze the polarized light microscopic characteristics， the composition of physical phases and their relative contents of Maifanitum from different origins， and to establish the Fourier characteristic fingerprint of Maifanitum powder crystals by X-ray diffraction（XRD）. MethodA total of 26 batches of Maifanitum samples were selected， and the microscopic characteristics of the sample powders and grinding flakes were observed by polarized light microscopy under single polarized light and orthogonal polarized light， and the main phase compositions and their relative contents were analyzed by powder crystal XRD technique， and the XRD Fourier characteristic fingerprint of Maifanitum was established. The incident light source of XRD was Cu target Kβ radiation， the light tube voltage and light tube current were 40 kV and 40 mA， respectively， the divergence slit was 1°， the scattering slit was 1°， the receiving slit was 0.2 mm， the scanning speed was 5°·min^-1 with continuous scanning and scanning range of 5-90°（2θ）， and the step length was 0.02°. ResultThe polarized light micrographs of powders and grinding flakes of Maifanitum were obtained， and the main phases were plagioclase， potassium feldspar and quartz， and a few samples also contained illite， pyrite， iron dolomite， calcite， iron amphibole and chlorite， etc. The relative total content of feldspar phases was 61.9%-82.4%， and the relative content of quartz was 12.6%-33.6%. The XRD Fourier fingerprint analysis method of Maifanitum with 13 common peaks as the characteristic fingerprint information was established， and the similarity calculated by the mean correlation coefficient method was 0.920 9-0.997 7， the similarity calculated by the mean angle cosine method was 0.940 5-0.998 4， the similarity calculated by the median correlation coefficient method was 0.921 1-0.997 5， and the similarity calculated by the median angle cosine method was 0.947 5-0.998 2. ConclusionThe polarized light microscopic identification characteristics of Maifanitum are mainly plagioclase， quartz and potassium feldspar， and the technique of powder crystal XRD Fourier fingerprint analysis can be used for the identification of Maifanitum.