Ydration of wound surface, maintain wet environment of wound and avoid excess accumulation of exudate [38]. WVTR offilms in this study was found to be between 2282 to 3170 g?m22?day21, for instance, WVTR of CS film was 2950 g?m22?day21 and C75K25 was 2282 g?m22?day21. As shown in Table 1, the WVTR of CS/KGM films showed better water uptake ability than that of CS itself due to good hydrophilcity of KGM and large pore size of CS itself. And the results of WVTR showed that blend films obtained in our study could prevent water evaporation effectively and provided a good moist environment for wound. Lixisenatide site mechanical strength is one of indicators to evaluate materials mechanical properties. As shown in Fig. 5b, TS of the films increased significantly from 2.6 MPa to 4 MPa with increased KGM composition and breaking elongation was about 10 . The results showed that mechanical strength of film was significantly enhanced by mixing KGM with CS. It was probably because hydrogen bond created by H2 protonation of CS and hydroxyl of KGM enhanced intermolecular forces and then increased tensile strength of film. Degradation profiles of CS, C25K75, C50K50, and C75K25 films are shown in Fig. 5c. It was revealed by the results that the ratio of KGM has significantly influence on degradation rate of film. Degradation rate of blend films increased with increased KGM ratio. After 70 days, C25K75 film was almost completely degraded while residual mass of C50K50 and C75K25 film was about 40 and CS film 1315463 was 80 .MedChemExpress Chebulagic acid Biocompatibility evaluation of GNPs-CS/KGMThe MTT assay is an indirect method of assaying cell growth and proliferation since the A490 values can be correlated to the cell number. As the basis of cell growth, proliferation and differentiation, cell attachment is an important measure to evaluate the biocompatibility of biomaterials. To assess cellular adhesion, Poly (dex-GMA/AAc) nanoparticles, C75K25 film and blank NPs-CS/KGM were seeded with the same density of humanTable 5. Hemostatic time and bleeding volume of different treatment group (values are mean 6 S.D., n = 6 observations in each group).Group Poly (dex-GMA/AAc) nanoparticles C75K25 film GNPs-CS/KGM native CS film Yunnan baiyao (positive control) Control (gauze)* **hemostatic time (s) 256618* 201617** 176614* ** **bleeding volume (g/kg) 2.1060.32* 1.4060.10** 0.9560.20** 2.3860.48* 1.4560.22** 2.4260.Values are significant ( ) at P,0.05 and ( ) at P,0.01as compared to the control group. doi:10.1371/journal.pone.0066890.tAntibiotic Hemostatic First Aid Wound Dressingfibroblasts. The cell viabilities measured by MTT assay of fibroblasts cultured on different materials were shown in Fig. 6. The OD value of each tested group had no obvious difference with control group. Cell relative growth rate of tested groups were higher than 90 , especially in C75K25 group with low concentration, relative growth rate appeared to be higher than 100 . The MTT results revealed that Poly (dex-GMA/AAc) nanoparticles, C75K25 film and blank NPs-CS/KGM had good biocompatibility and no cytotoxicity.indicating that GNPs-CS/KGM could effectively promote contractility of wound and has great potential as wound dressing materials. It was also revealed by HE staining that inflammatory infiltration of GNPs-CS/KGM treatment group were apparent less than control group (Fig. 7).Antibacterial activity evaluationDrug loaded Poly (dex-GMA/AAc) nanoparticles, C75K25 film and GNPs-CS/KGM were prepared in vitro for their microbial activi.Ydration of wound surface, maintain wet environment of wound and avoid excess accumulation of exudate [38]. WVTR offilms in this study was found to be between 2282 to 3170 g?m22?day21, for instance, WVTR of CS film was 2950 g?m22?day21 and C75K25 was 2282 g?m22?day21. As shown in Table 1, the WVTR of CS/KGM films showed better water uptake ability than that of CS itself due to good hydrophilcity of KGM and large pore size of CS itself. And the results of WVTR showed that blend films obtained in our study could prevent water evaporation effectively and provided a good moist environment for wound. Mechanical strength is one of indicators to evaluate materials mechanical properties. As shown in Fig. 5b, TS of the films increased significantly from 2.6 MPa to 4 MPa with increased KGM composition and breaking elongation was about 10 . The results showed that mechanical strength of film was significantly enhanced by mixing KGM with CS. It was probably because hydrogen bond created by H2 protonation of CS and hydroxyl of KGM enhanced intermolecular forces and then increased tensile strength of film. Degradation profiles of CS, C25K75, C50K50, and C75K25 films are shown in Fig. 5c. It was revealed by the results that the ratio of KGM has significantly influence on degradation rate of film. Degradation rate of blend films increased with increased KGM ratio. After 70 days, C25K75 film was almost completely degraded while residual mass of C50K50 and C75K25 film was about 40 and CS film 1315463 was 80 .Biocompatibility evaluation of GNPs-CS/KGMThe MTT assay is an indirect method of assaying cell growth and proliferation since the A490 values can be correlated to the cell number. As the basis of cell growth, proliferation and differentiation, cell attachment is an important measure to evaluate the biocompatibility of biomaterials. To assess cellular adhesion, Poly (dex-GMA/AAc) nanoparticles, C75K25 film and blank NPs-CS/KGM were seeded with the same density of humanTable 5. Hemostatic time and bleeding volume of different treatment group (values are mean 6 S.D., n = 6 observations in each group).Group Poly (dex-GMA/AAc) nanoparticles C75K25 film GNPs-CS/KGM native CS film Yunnan baiyao (positive control) Control (gauze)* **hemostatic time (s) 256618* 201617** 176614* ** **bleeding volume (g/kg) 2.1060.32* 1.4060.10** 0.9560.20** 2.3860.48* 1.4560.22** 2.4260.Values are significant ( ) at P,0.05 and ( ) at P,0.01as compared to the control group. doi:10.1371/journal.pone.0066890.tAntibiotic Hemostatic First Aid Wound Dressingfibroblasts. The cell viabilities measured by MTT assay of fibroblasts cultured on different materials were shown in Fig. 6. The OD value of each tested group had no obvious difference with control group. Cell relative growth rate of tested groups were higher than 90 , especially in C75K25 group with low concentration, relative growth rate appeared to be higher than 100 . The MTT results revealed that Poly (dex-GMA/AAc) nanoparticles, C75K25 film and blank NPs-CS/KGM had good biocompatibility and no cytotoxicity.indicating that GNPs-CS/KGM could effectively promote contractility of wound and has great potential as wound dressing materials. It was also revealed by HE staining that inflammatory infiltration of GNPs-CS/KGM treatment group were apparent less than control group (Fig. 7).Antibacterial activity evaluationDrug loaded Poly (dex-GMA/AAc) nanoparticles, C75K25 film and GNPs-CS/KGM were prepared in vitro for their microbial activi.