Objective To screen the anti-Streptococcus pneumoniae(Spn)active ingredients in vitro from different po-lar parts of Pilea peltata,and to examine the combined antibacterial effect of the active ingredient and amoxicillin(AMX).Methods A 96-well plate microdilution method was used to determine the minimum inhibitory concentration(MIC)of different polar parts;the most active polar part was separated by preparative high-performance liquid chromatography,and the active ingre-dients were identified using spectral technology.The fractional inhibitory concentration(FIC)of active ingredients and AMX was determined by the 96-well plate chessboard microdilution method.The crystal violet method was used to investigate the effect of ac-tive ingredients on Spn biofilm.The effect of active ingredients on the appearance and morphology of Spn was investigated under the electron microscope.Results The MICs of the petroleum ether part,chloroform part,ethyl acetate part,n-butanol part,and water part were 1.000,1.000,0.500,1.000,and 2.000 mg·mL-1 respectively,among which the ethyl acetate part had the stron-gest antibacterial activity.Three compounds were isolated from ethyl acetate,namely 5,7,3',4'-tetramethoxyflavone 1,8-O-(p-coumaroyl)-1(10)E,4(5)E-humuladien-8-ol 2 and 1-O-p-coumaroyl copaborneol 3.These compounds were all isolated for the first time from Pilea peltate,their MICs against Spn were 200.000,50.000,and 25.000 μg·mL-1 respectively,and the compound 3 had the strongest antibacterial activity;the FIC value of AMX and compound 3 was 0.50,which had a synergistic antibacterial effect on Spn.Both AMX and compound 3 had inhibitory effects on Spn biofilm,but the biofilm inhibition rate of compound 3(59.10±1.04％)was significantly lower than AMX(87.38±0.84)％(P＜0.01);Moreover,there was no significant difference in biofilm inhibition rate between the combination of the two and AMX(P＞0.05).The scanning electron microscope results showed that the bacterial cells in the compound 3 group had a smooth surface but varying degrees of depression.The surface of the bacteri-al cells in the AMX group and the AMX combined compound 3 group showed severe swelling and rupture.Conclusions Fla-vonoids and sesquiterpenoids are both the anti-Spn active components of Pilea peltate.Among them,sesquiterpenoids have more potent antibacterial activity,and their antibacterial action mechanism is related to inhibiting bacterial biofilms.Compound 3 and AMX have a synergistic antibacterial effect on Spn,but its mechanism of action is not by enhancing biofilm inhibition;although compound 3 cannot destroy the cell wall of Spn,it still has a negative impact on the appearance of the bacteria.

Objective:To evaluate the clinical efficacy of the Masquelet technique (induced membrane technique) combined with an antibiotic-impregnated bone cement-coated plate for the treatment of infected nonunion following internal fixation of clavicle fractures.Methods:A retrospective analysis was conducted on 12 patients with clavicular infected nonunion who underwent staged treatment using the Masquelet technique combined with an antibiotic-loaded bone cement-coated plate between May 2021 and May 2023 in the Second Ward of Traumatic Orthopedics at Gansu Provincial People's Hospital. The cohort included 8 males and 4 females, with a mean age of 28.8±3.1 years (range: 12-48 years). Among them, 10 cases had mid-third clavicular defects, and 2 cases had lateral third defects. All 12 cases involved nonunion due to bone infection following internal fixation of clavicle fractures, with 6 cases initially fixed with Kirschner wires and 6 with plates. The induced membrane technique was applied in two stages. Stage One: Radical debridement was performed, including removal of the original internal fixation and infected necrotic tissue. A plate was implanted, and the bone defect area was filled with antibiotic-loaded bone cement, fully encapsulating the plate. Stage Two: Bone graft reconstruction was carried out 6-8 weeks later, after infection control was confirmed. The induced membrane was incised, the bone cement was removed, and a bone graft was placed within the membrane. Outcomes included infection control, bone union time, pain visual analogue scale (VAS), and Constant-Murley shoulder score (CMS) at the final follow-up.Results:The interval between the first and second surgeries was 7.42±1.17 weeks (range: 6-10 weeks). All 12 patients were followed up for a mean duration of 16.4±3.9 months (range: 12-24 months). One patient experienced recurrent infection after the first-stage surgery, which was controlled after repeat debridement and replacement of antibiotic-loaded bone cement, with no recurrence during follow-up. All 12 patients achieved bony union, with a mean healing time of 3.42±0.67 months (range: 3-5 months). Radiographs showed continuous bone cortex with no visible fracture lines. At the final follow-up, the mean VAS score was 0.42±0.51, significantly lower than the preoperative score of 6.68±1.12 ( t=18.711, P<0.001). The mean CMS score was 88.93±3.94, significantly higher than the preoperative score of 44.41±7.15 ( t=20.786, P<0.001). Conclusion:The Masquelet technique combined with an antibiotic-loaded bone cement-coated plate is effective in treating infected nonunion after internal fixation of clavicle fractures, significantly improving acromioclavicular joint function.

Objective:To evaluate the clinical efficacy of the Masquelet technique (induced membrane technique) combined with an antibiotic-impregnated bone cement-coated plate for the treatment of infected nonunion following internal fixation of clavicle fractures.Methods:A retrospective analysis was conducted on 12 patients with clavicular infected nonunion who underwent staged treatment using the Masquelet technique combined with an antibiotic-loaded bone cement-coated plate between May 2021 and May 2023 in the Second Ward of Traumatic Orthopedics at Gansu Provincial People's Hospital. The cohort included 8 males and 4 females, with a mean age of 28.8±3.1 years (range: 12-48 years). Among them, 10 cases had mid-third clavicular defects, and 2 cases had lateral third defects. All 12 cases involved nonunion due to bone infection following internal fixation of clavicle fractures, with 6 cases initially fixed with Kirschner wires and 6 with plates. The induced membrane technique was applied in two stages. Stage One: Radical debridement was performed, including removal of the original internal fixation and infected necrotic tissue. A plate was implanted, and the bone defect area was filled with antibiotic-loaded bone cement, fully encapsulating the plate. Stage Two: Bone graft reconstruction was carried out 6-8 weeks later, after infection control was confirmed. The induced membrane was incised, the bone cement was removed, and a bone graft was placed within the membrane. Outcomes included infection control, bone union time, pain visual analogue scale (VAS), and Constant-Murley shoulder score (CMS) at the final follow-up.Results:The interval between the first and second surgeries was 7.42±1.17 weeks (range: 6-10 weeks). All 12 patients were followed up for a mean duration of 16.4±3.9 months (range: 12-24 months). One patient experienced recurrent infection after the first-stage surgery, which was controlled after repeat debridement and replacement of antibiotic-loaded bone cement, with no recurrence during follow-up. All 12 patients achieved bony union, with a mean healing time of 3.42±0.67 months (range: 3-5 months). Radiographs showed continuous bone cortex with no visible fracture lines. At the final follow-up, the mean VAS score was 0.42±0.51, significantly lower than the preoperative score of 6.68±1.12 ( t=18.711, P<0.001). The mean CMS score was 88.93±3.94, significantly higher than the preoperative score of 44.41±7.15 ( t=20.786, P<0.001). Conclusion:The Masquelet technique combined with an antibiotic-loaded bone cement-coated plate is effective in treating infected nonunion after internal fixation of clavicle fractures, significantly improving acromioclavicular joint function.

Objective To screen the anti-Streptococcus pneumoniae(Spn)active ingredients in vitro from different po-lar parts of Pilea peltata,and to examine the combined antibacterial effect of the active ingredient and amoxicillin(AMX).Methods A 96-well plate microdilution method was used to determine the minimum inhibitory concentration(MIC)of different polar parts;the most active polar part was separated by preparative high-performance liquid chromatography,and the active ingre-dients were identified using spectral technology.The fractional inhibitory concentration(FIC)of active ingredients and AMX was determined by the 96-well plate chessboard microdilution method.The crystal violet method was used to investigate the effect of ac-tive ingredients on Spn biofilm.The effect of active ingredients on the appearance and morphology of Spn was investigated under the electron microscope.Results The MICs of the petroleum ether part,chloroform part,ethyl acetate part,n-butanol part,and water part were 1.000,1.000,0.500,1.000,and 2.000 mg·mL-1 respectively,among which the ethyl acetate part had the stron-gest antibacterial activity.Three compounds were isolated from ethyl acetate,namely 5,7,3',4'-tetramethoxyflavone 1,8-O-(p-coumaroyl)-1(10)E,4(5)E-humuladien-8-ol 2 and 1-O-p-coumaroyl copaborneol 3.These compounds were all isolated for the first time from Pilea peltate,their MICs against Spn were 200.000,50.000,and 25.000 μg·mL-1 respectively,and the compound 3 had the strongest antibacterial activity;the FIC value of AMX and compound 3 was 0.50,which had a synergistic antibacterial effect on Spn.Both AMX and compound 3 had inhibitory effects on Spn biofilm,but the biofilm inhibition rate of compound 3(59.10±1.04％)was significantly lower than AMX(87.38±0.84)％(P＜0.01);Moreover,there was no significant difference in biofilm inhibition rate between the combination of the two and AMX(P＞0.05).The scanning electron microscope results showed that the bacterial cells in the compound 3 group had a smooth surface but varying degrees of depression.The surface of the bacteri-al cells in the AMX group and the AMX combined compound 3 group showed severe swelling and rupture.Conclusions Fla-vonoids and sesquiterpenoids are both the anti-Spn active components of Pilea peltate.Among them,sesquiterpenoids have more potent antibacterial activity,and their antibacterial action mechanism is related to inhibiting bacterial biofilms.Compound 3 and AMX have a synergistic antibacterial effect on Spn,but its mechanism of action is not by enhancing biofilm inhibition;although compound 3 cannot destroy the cell wall of Spn,it still has a negative impact on the appearance of the bacteria.