The possibility of the application of autologic pluripotent cells from peripheral blood (APCPB) for correction of striae after pregnancy was studied. Visually first signs of improvement of atrophic scars can be notice...The possibility of the application of autologic pluripotent cells from peripheral blood (APCPB) for correction of striae after pregnancy was studied. Visually first signs of improvement of atrophic scars can be noticed in 6-8 weeks after injection of APCPB and gradually progress during 6 months. The atrophy of epithelium, hyperkeratosis, sclerosis of all dermis layers with smoothing of papillae, reduction of number of blood vessels and skin appendages were found before treatment by method of light mi-croscopy. In all observations after injection of APCPB in a connective tissue, which replaces of dermis, an increase of number of vessels at the expense of processes of neoangiogenesis, leukocytic infiltration reduction, thinning and ordering of arrangement of collagen and elastin fibers were detected. These results give a chance for more successful application of cosmetology procedures for correction of these defects of skin.展开更多
The results of injecting of autologic mesenchymal stem cells of bone marrow origin (AMSCBMO), transfected by the GFP gene, into the scar of rat uterine horns were studied by methods of light microscopy. After the intr...The results of injecting of autologic mesenchymal stem cells of bone marrow origin (AMSCBMO), transfected by the GFP gene, into the scar of rat uterine horns were studied by methods of light microscopy. After the introduction of AMSCBMO into the formed scar on the right (2 months after the ligation) large groups of blood vessels with cellular elements inside were present;groups like that were not found in the opposite side. Studying unstained sections under reflected ultraviolet light the sufficient bright luminescence in the endothelium and the external membrane of scar vessels was found in uterine horn only on the side of introduction of AMSCBMO. It was concluded that after the introduction of AMSCBMO into the scar tissue they form blood vessels by differentiation into endotheliocytes and pericytes. GFP gene expression not only in endothelium of vessels, but also in their external membrane indicates that differentiation of AMSCMBO is possible in endothelial and in pericytal directions.展开更多
Morphological and radiological methods were used to study regeneration of the damaged bone of rat mandibles after application of plateletenriched fibrin clot. A bone hole was artificially created, and in the natural c...Morphological and radiological methods were used to study regeneration of the damaged bone of rat mandibles after application of plateletenriched fibrin clot. A bone hole was artificially created, and in the natural course of regeneration, the hole was immediately filled with blood and there a blood clot formed. After one week of healing, separate islands of young bone tissue appeared. After two to three weeks, the opening in the mandible was completely replaced by the young bone tissue. When a similar bone hole was filled with autological fibrin clot, the blood clot did not form. But after one week the entire hole was filed with newlyformed fused bone tissue. By the second week after the use of fibrin clot, the bone hole had further healed and bone callus was formed.展开更多
文摘The possibility of the application of autologic pluripotent cells from peripheral blood (APCPB) for correction of striae after pregnancy was studied. Visually first signs of improvement of atrophic scars can be noticed in 6-8 weeks after injection of APCPB and gradually progress during 6 months. The atrophy of epithelium, hyperkeratosis, sclerosis of all dermis layers with smoothing of papillae, reduction of number of blood vessels and skin appendages were found before treatment by method of light mi-croscopy. In all observations after injection of APCPB in a connective tissue, which replaces of dermis, an increase of number of vessels at the expense of processes of neoangiogenesis, leukocytic infiltration reduction, thinning and ordering of arrangement of collagen and elastin fibers were detected. These results give a chance for more successful application of cosmetology procedures for correction of these defects of skin.
文摘The results of injecting of autologic mesenchymal stem cells of bone marrow origin (AMSCBMO), transfected by the GFP gene, into the scar of rat uterine horns were studied by methods of light microscopy. After the introduction of AMSCBMO into the formed scar on the right (2 months after the ligation) large groups of blood vessels with cellular elements inside were present;groups like that were not found in the opposite side. Studying unstained sections under reflected ultraviolet light the sufficient bright luminescence in the endothelium and the external membrane of scar vessels was found in uterine horn only on the side of introduction of AMSCBMO. It was concluded that after the introduction of AMSCBMO into the scar tissue they form blood vessels by differentiation into endotheliocytes and pericytes. GFP gene expression not only in endothelium of vessels, but also in their external membrane indicates that differentiation of AMSCMBO is possible in endothelial and in pericytal directions.
文摘Morphological and radiological methods were used to study regeneration of the damaged bone of rat mandibles after application of plateletenriched fibrin clot. A bone hole was artificially created, and in the natural course of regeneration, the hole was immediately filled with blood and there a blood clot formed. After one week of healing, separate islands of young bone tissue appeared. After two to three weeks, the opening in the mandible was completely replaced by the young bone tissue. When a similar bone hole was filled with autological fibrin clot, the blood clot did not form. But after one week the entire hole was filed with newlyformed fused bone tissue. By the second week after the use of fibrin clot, the bone hole had further healed and bone callus was formed.
