Comparative study on traumatic effect and L-selectin change made by two blooddrawing modes in rat

Objective： To compare carotid catheters blooddrawing and tail-cut blooddrawing in traumatizing rats and changing their intemal L-selectin. Methods： Two ways of bloodletting were selected to produce hemorrhagic shock models. Monoclonal antibody sign and flow cytometer were used to test neutrophil L-selectin dynamic expression in rats. Results： No remarkable differences were shown among different time points in neutrophil L-selectin expressing amount （ average fluorescence index） （ P 〉 0.05）. Compared with the normal control group, all cell surface expressions in empirical control group increased. Cell surface expressions reached the summit at 3 hours and kept the high level at 4-5 hours. A progressive increase of the mRNA expression peaked at 5 hours; the expressions in both groups of carotid catheters blooddrawing increased compared with normal control group, and remained stable after 3 hours compared with the Tail-cut Blooddrawing Group. Conclusion： L-sclectin expressions changed little in tail-cut blooddrawing rats, while carotid catheters resulted moderate or sever trauma. Therefore, it was suggested that it should not be set as hemorrhagic shock control model. As neutrophil L-selection expressions increased after trauma, the adhesion of leucocytes to the venule wall may be beneficial to the healing of wound and enhance the ability of anti-infection. The immediate increasing of neutrophil surface L-selectin expressions in this study was likely due to the direct release of Lselectin from cytoplasm granules that do not depend on protein synthesis.

Copper ion/gallic acid MOFs-laden adhesive pomelo peel sponge effectively treats biofilm-infected skin wounds and improves healing quality

Bacterial infection and scar formation remain primary challenges in wound healing.To address these issues,we developed a decellularized pomelo peel(DPP)functionalized with an adhesive PVA-TSPBA hydrogel and antibacterial gallic acid/copper MOFs.The hybrid wound dressing demonstrates favorable biocompatibility.It does not impede the proliferation of fibroblasts or immune cells and can stimulate fibroblast migration,endothelial angiogenesis,and M2 macrophage polarization.Additionally,the dressing can scavenge reactive oxygen species(ROS)and provide antioxidant effects.Furthermore,DPP+MOF@Gel effectively inhibits the viability of S.aureus and E.coli in vitro and in vivo.The histological observations revealed enhanced granulation tissue formation,re-epithelialization,and angiogenesis in the DPP+MOF@Gel group compared to other groups.The local immune response also shifted from a pro-inflammatory to a pro-regenerative status with DPP+MOF@Gel treatment.The skin incision stitching experiment further exhibits DPP+MOF@Gel could reduce scar formation during wound healing.Taken together,the hybrid DPP+MOF@Gel holds great promise for treating bacteria-infected skin wounds and inhibiting scar formation during wound healing.

Linearly shifting ferromagnetic resonance response of La_(0.7)Sr_(0.3)MnO_(3) thin film for body temperature sensors

Human body temperature not only reflects vital signs,but also affects the state of various organs through blood circulation,and even affects lifespan.Here a wireless body temperature detection scheme was presented that the temperature was extracted by investigating the out-of-plane(OP)ferromagnetic resonance(FMR)field of 10.2 nm thick La_(0.7)Sr_(0.3)MnO_(3)(LSMO)film using electron paramagnetic resonance(EPR)technique.Within the range of 34-42℃,the OP FMR field changes linearly with the increasing or decreasing temperature,and this variation comes from the linear responses of magnetization to the fluctuant temperature.Using this method,a tiny temperature change(<0.1℃)of organisms can be detected accurately and sensitively,which shows great potential in body temperature monitoring for humans and mammals.