BACKGROUND: After internal fixation is applied to femoral shaft fracture with medial cortical defect, the fixation device is often bended and broken due to the stress on it. So far, reliable methods have not been found to solve this problem in clinic.OBJECTIVE: To evaluate the biomechanical stability of the allograft bone plate after a bony defect of the medial cortex is reconstructed with allograft bone plate.DESIGN: A randomized controlled experimental study.SETTING: This trial was conducted in the Department of Orthopaedics, the 175 Hospital of Chinese PLA, and Laboratory of Biomechanics, First Military Medical University of Chinese PLA.PARTICIPANTS: This trial was conducted in Laboratory of Medical Biomechanics, First Military Medical University. MTS858 Biomix biomaterial testing machine was used to simulate model of femoral shaft fracture on 3male adult femurs donated voluntarily by their relatives, aged 23, 24 and 28years old.INTERVENTIONS: The fracture model of medial cortical defect was made in the femurs. Different kinds of fixation were applied and the results were compared between fixated femurs and the normal ones. The fixations included steel plate fixation(fixation for group 1 ), steel plate with allograft bone plate fixation(fixation for group 2), steel plate with allograft bone plate fixation and reduction of the medial cortical fragment(fixation for group 3).MAIN OUTCOME MEASURES: The vertical compression displacement under 500 N load, three-point bending strength under 10 N and anti-torsional angle under 300 N load are all measured.RESULTS: The vertical compression displacement and three-point bending strength of the control group were insignificantly different from those of the fixation group 3 ( P ＞ 0.05), but significantly different from those of the fixation group 1 and 2 ( P ＜ 0.05). The anti-torsional angle of the control group was significantly different from that of the three fixation groups( P ＜ 0. 05) . The result of fixation in fixation group 1 was the worst, better in fixation group 2and the best in fixation group 3.CONCLUSION: When there is a medial cortical defect in the femur, reconstruction with a bone plate can recover the integrity of the femoral medial cortex, and the successful rate of the plate internal fixation is increased.

Objective To investigate the most appropriate surgical methods,different surgical modes of osmidrosis and their clinical effi-cacy were observed. Methods Clinical data was collected from 200 cases of axillary osmidrosis from January 2011 to July 2013. These cases were divided into four groups of the traditional group,minimally invasive group,RF pen-frequency electric cautery group and improved curet-tage group. Results The traditional group(80 cases) has an average healing period of 18. 7 days for operative incision including 78 cured cases(97. 5%)and 2 significant improved cases(2. 5%). The minimally invasive group(60 cases)has an average healing time of 8. 6 days, among which there are 3 cured cases(5%),8 significant improved cases(13. 3%),16 improved cases(26. 7%),4 cases(6. 7%)with weak curative effect and 29 failed cases(48. 3%). In the RF pen-frequency electric cautery group(30 cases),there are 5 significant improved ca-ses(16.7%),8improvedcases(26.7%)and17failedcases(56.6%).Theimprovedcurettagegroup(30cases)withanaverageincision healingtimeof9.8dayscontains28curedcases(93.3%)and2significantimprovedcases(6.7%). Conclusion Thetraditionalgroup shows the best curative effect,nevertheless the incision needs a considerably amount of time to recover. The patients under the treatment of minimally invasive surgery or RF pen-frequency electric cautery can recover in short time but recrudescence always occur. The improved cu-rettage method,which is effective and safe,combines the advantages of traditional surgery and minimally invasive surgery. However,large scar left from this method still remains as its major disadvantage but the overall curative effect is satisfactory. The improved curettage is proved to be the most appropriate method for axillary osmidrosis.

The recombinant human Smad7 adenoviral vector was constructed by direct DNA cloning protocol and then transfected into 293 cells for virus packaging. After amplification and purification, the recombinant adenovirus was used to infect the keloid fibroblasts. The Smad7 mRNA transcription of the infected cells was detected by RT-PCR. The recombinant Adeno-Smad7 was correctly constructed and confirmed by both restriction analysis and PCR analysis. RT-PCR showed the over expression of adenovirus mediated Smad7 mRNA in keloid cells. These results demonstrated that the recombinant Smad7 adenoviral vector can be expressed in cultured cells in vitro, and it may provide a new therapeutic strategy for keloid gene therapy.
Adenoviridae ; genetics ; metabolism ; Cells, Cultured ; Fibroblasts ; metabolism ; pathology ; Genetic Vectors ; genetics ; metabolism ; Humans ; Keloid ; metabolism ; pathology ; RNA, Messenger ; biosynthesis ; genetics ; Recombinant Fusion Proteins ; biosynthesis ; genetics ; Smad7 Protein ; biosynthesis ; genetics ; Transfection