Bacterial biofilms are associated with at least 80% of human bacterial infections. The clinical treatment of biofilm infection is still arduous, and therefore many new treatment options are under study, such as probiotics and their derivatives, quorum sensing inhibitors, antimicrobial peptides, phage therapy, organic acids, light therapy, and plant extracts. However, most of these schemes are not mature, and it is important to develop new research directions of anti-biofilms.
Objective To summarize the effect of biofilm (BF) on the occurrence of prosthetic joint infection (PJI). Methods The domestic and abroad original l iterature in recent years about the relationship between BF and PJI was reviewed. Results Infection is a critical compl ication for prosthetic joint replacement. Basic research showes one of the reasons for PJI is BF. After adherence of the bacteria to the surface of prosthetic joint, BF forms through a series of regulation andcontrol system. And it lead to the occurrence of PJI. Recently a lot of progress have been made in the research fields of BF related PJI, which have covered aetiology, diagnosis, treatment, and prevention. Different studies show that BF has close relationship with PJI. Conclusion BF is proved to have close relationship with PJI. It is important on cl inical significances to diagnose, treat, and prevent PJI.
Between 1988 and 1994, 78 cases (183 tendons) of flexor tendon injuries of the hand were repaired by microsurgical techique. The patients were followed up from4 to 6 months. The results were assessed according to the grading method of TAM. In 36 cases, 78 tendons were repaired by microsurgical suture and the excellentgood rate reached 76.2 per cent and the other 42 cases, 105 tendons were repaired with biological memberane wrapped arround the anastomotic site following microsurgical suture, in which, 32 cases, 77 tendons were followed up and the excellentgood rate was 89.5 per cent. The curative effect between the two groups hadsignificant difference statistically (Plt;0.05). Those cases with a bad results were mainly those injuries occurred in Zone II which had very poor soft tissue condition of the palm and thoes old cases having extensive scar tissue formation surrounding the tendon bed.
Objective To study the influence of brominated furanones on the biofilm formation of Escherichia coli on the polyvinyl chloride (PVC) material, and to provide new ideas for the research of surface modification of materials and cl inicaltreatment of biomaterial centered infection. Methods Three brominated furanones with representative chemical structurewere chosen and coated on the surface modification of PVC materials, respectively [furanone 1: 3, 4-dibromo-5-hydroxy-furanone; furanone 2: 4-bromo-5-(4-methoxyphenyl)-3-(methylamino)-furanone; furanone 3: 3, 4-dibromo-5, 5-bis (4-methylphenyl)- 2 (5H)-furanone]. All the modificated PVC materials and Escherichia coli were co-cultivated. The PVC material soaked with 75% ethanol for 5 minutes and Escherichia coli were co-cultivated together as the control group. The thickness of bacterial community and bacterial community quantity in the unit area on PVC materials were measured by confocal laser scanning microscope (CLSM), and the surface structure of biofilm formation was observed by scanning electron microscope (SEM). Results The CLSM showed that the thickness of bacterial community and the bacterial community quantity in the unit area of PVC materials was significantly less (P lt; 0.05) in furanone 3 group than in control group, but no significant difference (P gt; 0.05) was found between furanone 1, furanone 2 groups and control group. SEM showed that the quantity of bacterial community in the unit area of PVC materials surface in furanone 3 group was fewer than that in control group at 6 hours; the biofilm structure on PVC materials surface formed at 18 hours in control group, furanone 1 group, and furanone 2 group, but there was no mature biofilm structure on PVC materials surface in furanone 3 group at 18 hours. Conclusion The impact of different brominated furanones on Escherichia coli biofilm formation on the surface of PVC materials is different, 3, 4-dibromo-5, 5-bis (4-methylphenyl)-2 (5H)- furanone can inhibit Escherichia coli biofilm formation on the surface of PVC material.
ObjectiveTo investigate the effect of the estradiol hormones on biofilm formati on and structure of Staphylococcus epidermidis after breast implant surgery. MethodsThe concentration of Staphylococcus epidermidis strains ATCC35984 was adjusted to 1×107 CFU/mL or 1×108 CFU/mL, and the type strains were incubated on the surface of silica gel in 125 pmol/L estradiol suspensions to prepare bacterial biofilms model in vitro. After cultured in vitro for 4, 6, 12, 24, 48, and 72 hours, bacteria growth and biofilm formation ability were assessed by means of the XTT and crystal violet staining respectively. According to the above results, the bacterial suspension concentration was selected for experiments. The experimental concentration of Staphylococcus epidermidis ATCC35984 suspension and the concentrations of 50, 125, 250, 500 pmol/L estradiol suspensions were mixed with silica gel respectively to prepare biofilm model in vitro, no estradiol suspension served as control group. The experimental concentration of Staphylococcus epidermidis ATCC12228 suspension was used to prepare the same model in the negative control. After cultured in vitro for 4, 6, 12, 24, 48, and 72 hours, the same methods were used to assess the bacteria growth dynamics and biofilm forming ability, and the scanning electron microscope (SEM) was used to observe bacterial biofilm structure cultured on the surface of silica gel; the laser scanning confocal microscope (CLSM) was used to measure bacterial biofilm thickness on the surface of silica gel after 6, 12, and 24 hours. ResultsAccording to the results of semi quantitative detection of crystal violet stain and XTT methods, the bacterial suspension of 1×107 CFU/mL was selected for the experiment. XTT results indicated that the growth rates of ATCC12228 strain (at 4, 6, 12, 24, and 72 hours) and ATCC35984 strain (at 4, 6, 24, and 72 hours) in 125, 250, and 500 pmol/L estradiol were significantly faster than those in 0 and 50 pmol/L (P < 0.05). The growth rate of 500 pmol/L group was significantly faster than 125 and 250 pmol/L groups at 4, 6, and 72 hours (P < 0.05), and the growth rate of 250 pmol/L group was significantly faster than that of 125 pmol/L group at 72 hours (P < 0.05), but there was no significant difference between 0 and 50 pmol/L groups (P>0.05). At the same time point and same estradiol concentration, the growth rates showed no significant difference between 2 strains (P>0.05). Semi quantitative detection of crystal violet staining showed no biofilm formed in ATCC12228 strain in all estradiol concentration groups at different time points. In ATCC35984 strain, the biofilm was found at 4 hours and gradually thickened with time, reached the peak at 24 hours. After cultured for 4 and 6 hours, the biofilm of 0 pmol/L groups were significantly thicker than that of 125, 250, and 500 pmol/L groups (P < 0.05). At 12 hours, the 125 pmol/L group had the thickest biofilm, showing significant difference when compared with other groups (P < 0.05). The CLSM showed ATCC35984 biofilm thickness of 125, 250, and 500 pmol/L was significantly less than that of 0 and 50 pmol/L groups at 6 hours (P < 0.05), but difference was not significant between other groups (P>0.05). Then the thickness of the biofilm increased gradually, and the thickness of 125 pmol/L group was significantly larger than that of other concentration groups at 12 and 24 hours (P < 0.05). The SEM observation showed that the biofilm of 125 pmol/L group was denser and thicker than that of the other concentration groups at each time point. ConclusionHigh level estradiol can promote bacteria growth, biofilm formation, and biofilm maturity of Staphylococcus epidermidis.
ObjectiveTo explore the function of intercellular adhesion A (icaA), fibrinogen binding protein (fbe), and accumulation-associated protein (aap) genes in formation of Staphylococcus epidermidis-Candida albicans mixed species biofilms. MethodsThe experiment was divided into 3 groups:single culture of Staphylococcus epidermidis ATCC35984 (S. epidermidis group) or Candida albicans ATCC10231 (C. albicans group), and co-culture of two strains (mixed group) to build in vitro biofilm model. Biofilm mass was detected by crystal violet semi-quantitative adherence assay at 2, 4, 6, 8, 12, 24, 48, and 72 hours after incubation. XTT assay was performed to determine the growth kinetics in the same time. Scanning electron microscopy (SEM) was used to observe the ultrastructure of the biofilms after 24 and 72 hours of incubation. The expressions of icaA, fbe, and aap genes were analyzed by real-time fluorescent quantitative PCR. ResultsCrystal violet semi-quantitative adherence assay showed that the biofilms thickened at 12 hours in the S. epidermidis and mixed groups; after co-cultured for 72 hours the thickness of biofilm in mixed group was more than that in the S. epidermidis group, and there was significant difference between 2 groups at the other time (P<0.05) except at 72 hours (P>0.05). In C. albicans group, the biofilm started to grow at 12 hours of cultivation, but the thickness of the biofilm was significantly lower than that in the mixed group in all the time points (P<0.05). XTT assay showed that the overall growth speed in the mixed group was greater than that in the C. albicans group, and it was greater than that in the S. epidermidis group at 48 hours; there was no significant difference in the growth speed between the mixed groups and the S. epidermidis group in the other time points (P>0.05) except at 12 hours (P<0.05). The absorbance (A) value in the mixed group was lower than that in the S. epidermidis group at 2 and 4 hours, but no significant difference was shown (P>0.05); the A value of mixed group was significantly higher than that of the C. albicans group after 6 hours (P<0.05). SEM observation showed that mature biofilms with complex structure formed in all groups. The real-time fluorescent quantitative PCR showed the expressions of fbe, icaA, and aap genes in mixed group increased 1.93, 1.52, and 1.46 times respectively at 72 hours compared with the S. epidermidis group (P<0.05). ConclusionMixed species biofilms have more complex structure and are thicker than single species biofilms of Staphylococcus epidermidis or Candida albicans, which is related to increased expressions of the icaA, fbe, and aap genes of Staphylococcus epidermidis.
Seventeen cases involving 18 fingers of acute rupture of flexor tendon within the Zone Ⅱ were repaired by microsurgical technique for reconstructing the digital sheath with biological membrane since 1989. The excellent/good rate based on Eaton grading was 89%. The main procedure of the operation. the early postoperative rehabilitation and active excercises were described.
This article interprets the 2025 International Wound Infection Institute consensus Therapeutic Wound and Skin Cleansing: Clinical Evidence and Recommendations, which marks a paradigm shift in viewing wound cleansing as a “core therapy” rather than an “ancillary procedure”. It systematically analyzes the definition of “therapeutic wound cleansing”, clarifies its distinction from debridement, and explains the proposed “optimal wound care” theoretical model. The core content involves an evidence-based interpretation and comparative analysis of the 14 recommendations across 5 dimensions: timing/frequency, scope, technique/operational standards, solution selection, and pain management. Finally, considering the current state of clinical practice in China, the article discusses the consensus’s implications for promoting standardized and precise wound care, and suggests directions for future research.
Objective To study the influence of brominated furanones on the biofilm (BF) formation of Staphylococcus epidermidis (SE) on polyvinyl chloride(PVC) materials, and provide new ideas for the research of surface modification of materials and clinical treatment of biomaterial centered infection. Methods We chose three kinds of brominated furanone with representative chemical structure for our research which were respectively 3,4dibromo-5-hydroxy2 (5H) -furanone (Mucobromic acid) in the first furanone group, 4-bromo-5(4-methoxyphenyl)3(methylamino)2(5H)furanone in the second furanone group, and 3,4dibromo-5,5-bis(4-methylphenyl)2(5H)-furanone in the third furanone group. The PVC material soaked with 75% ethanol for 5minutes was classified as the control group. The surface coating of the PVC materials in the four groups all underwent modification respectively and then they were cocultivated with staphylococcus epidermidis together. Confocal laser scanning microscope(CLSM) was adopted to detect the thickness of bacterium BF and bacterium community quantity unit area on PVC materials and scanning electron microscope(SEM) was used to observe surface structure of SE, BF formation at 6 h, 12 h, 18 h and 24 h respectively. Results The results of CLSM showed that, compared with the control group, SE bacterium community quantity unit area and the thickness of bacterium BF on the PVC material surface in the second furanone group were obviously smaller (Plt;0.05). SE bacterium community quantity unit area and thickness of bacterium BF on PVC material surface in the first and the third furanone groups had no significant difference (Pgt;0.05). The result of SEM showed that, the quantity of SE bacterium community unit area on PVC material surface in the second furanone group were smaller than that of the control group at 6 hours. The biofilm structure on PVC material surface in the control group was formed at 18 hours, but there were no mature biofilm structure on PVC material surface in the second furanone group at 18 hours. Conclusion The impact of different brominated furanone on SE biofilm formation on the surface of PVC materials is different. The second kind of furanone can inhibit the quantity of SE bacterium community unit area and SE biofilm formation on the surface of PVC materials.