ObjectiveTo review the research progress of the roles of inflammation and immune response in the formation of pathological scar. MethodsThe recent literature concerning the formation mechanism of pathological scar was extensively consulted, inflammation and immune response involved in the formation of pathological scar was reviewed. ResultsThe formation of pathological scar is associated with inflammation and immune response, some inflammatory factors will promote the activation of immune cells, then induce immune cells releasing cytokines and aggravate inflammatory response. However, inflammation response also affects the level of immune response. So they work together to promote the formation of pathological scar by the immuno-inflammatory cells and media. ConclusionThe formation of pathological scar is not only related to inflammation response, but also involves in immune response. Moreover, immune response is the new progress in the study of pathological scar mechanism in recent years. Further research of immuno-inflammatory response will provide new ideas and corresponding basis for the prevention of pathological scar.
ObjectiveTo review the research progress of microenvironment for the treatment of peripheral nervous injuries. MethodsThe recent literature concerning the treatment mechanism of peripheral nervous injuries was extensively consulted, and the microenvironment response involved in the treatment of peripheral nervous injuries was reviewed. ResultsThe complex microenvironment for treatment of peripheral nervous injuries is dependent on nerve regeneration chamber, the formation of neurotrophic factors, inflammation response, regulation of hormones, signaling pathways, and related enzymes in regulation. In-depth study will help us have a clearer understanding on the distal and proximal neurons axons at the cellular and molecular levels after peripheral nervous injuries. ConclusionIn recent years, the researches of microenvironment for the treatment of peripheral nervous injuries have achieved obvious progress. With the current nanotechnology, materials science, genetic engineering, and stem cell transplantation technology, it will provide new ideas and corresponding basis for clinical treatment.
There is a close relationship between inflammation and coagulation response. Inflammation and coagulation are activated simultaneously during cardiopulmonary bypass, which induce postperfusion syndrome. Leukocyte depletion filter can inhibit inflammation by reducing neutrophils in circulation. But, its effects on blood conservation are limited. Aprotinin is a serine protease inhibitor, and can prevent postoperative bleeding by anti-fibrinolysis and protection of platelet function. But its effects on anti-inflammation and protection of organs are subjected to be doubted. The combination of leukocyte depletion filter and aprotinin can inhibit inflammation as well as regulate coagulation, and may exert a good protective action during cardiopulmonary bypass.