Objective To investigate the biocompatilility of human acellular amniotic membrane(HAM) with vascular smooth muscle cells(VSMCs) and to explore the possibility to construct tissue engineering bladder with HAM as the scaffold and VSMCs as the seed cells. Methods After physical and 1% trypsogen preparation,the HAM was mixed with VSMCs taken from rats for culture in vitro.Histological obserbation was done under inverted microscope and scanning electron microscope respectively.20 rats were divided into two groups.Hemicystectomies were performed in 20 rats,and 10 of them were repaired with HAM grafts with VSMCs on the half bladder,the other 10 were repaired with HAM grafts without VSMCs as the control group.The rats underwent postoperative assessment of bladder volume at the 2nd,4th and 8th weeks,and the grafts were observed by light microscope at the 2nd,4th and 8th weeks after surgery. Results The physical and 1% trypsogen treated HAM was pure with hollows and undamaged collagen fibers.The VSMCs could grow,adhere to and differentiate on the surface of HAM and into the hollows.At the 2nd,4th and 8th weeks after surgery, the bladder volumes of the experimental group were not different significantly compared with those of the control group.Epithelialization and smooth muscle cells regeneration occurred with the infiltration of inflammatory cells in the 2nd week after grafting,and the HAM were absorbed.In the 4th and 8th weeks,it was difficult to delineate the junction between the host bladder and grafts by histology.Conclusion HAM can be used as the scaffold to construct tissue engineering bladder as it has good biocompatibility with VSMCs without disturbing the cell form and the graft can be absorbed quickly.

Objective To explore whether the pattern of neuron's auditory response to a sound stimulus affects the characteristics of stimulus-specific adaptation (SSA) in awake mice. Methods The auditory responses of the neurons in the inferior colliculus to sound stimuli were recorded using microelectrodes in awake mice. The sequence of sound stimuli consisted of random combinations of pure tones of two different frequencies (f1 and f2) with different repetition rates. The auditory responses of the neurons to standard and deviant stimuli were calculated, namely s(f2)/s(f2) and d(f1)/d(f2), respectively. Three indexes of the responses were also calculated, including the firing difference index (FDI), frequency-specific index (SI), and common SSA index(CSI). Results The CSI of neurons with a greater FDI was significantly higher than that of neurons with a smaller FDI (P<0.05). The primary-like neurons showed different characteristics of SSAs in different time periods; SSA was significantly increased in the phase of sustained response compared with that at the onset of response (P<0.05). Conclusion The auditory response pattern to sound stimuli is also an important factor that affect SSA of inferior colliculus neurons in awake mice.

Objective To explore whether the pattern of neuron's auditory response to a sound stimulus affects the characteristics of stimulus-specific adaptation (SSA) in awake mice. Methods The auditory responses of the neurons in the inferior colliculus to sound stimuli were recorded using microelectrodes in awake mice. The sequence of sound stimuli consisted of random combinations of pure tones of two different frequencies (f1 and f2) with different repetition rates. The auditory responses of the neurons to standard and deviant stimuli were calculated, namely s(f2)/s(f2) and d(f1)/d(f2), respectively. Three indexes of the responses were also calculated, including the firing difference index (FDI), frequency-specific index (SI), and common SSA index(CSI). Results The CSI of neurons with a greater FDI was significantly higher than that of neurons with a smaller FDI (P<0.05). The primary-like neurons showed different characteristics of SSAs in different time periods; SSA was significantly increased in the phase of sustained response compared with that at the onset of response (P<0.05). Conclusion The auditory response pattern to sound stimuli is also an important factor that affect SSA of inferior colliculus neurons in awake mice.

Objective:To investigate the rationality and surgical errors in countermeasures against difficult removal of screws so as to provide reference for standardization of technical procedures.Methods:A retrospective study was conducted to analyze the data of 99 patients who had encountered difficult removal of screws in operative removal of internal fixation at Department of Orthopaedics, Wuxi NO.9 People's Hospital Affiliated to Suzhou University from January 2018 to May 2022. There were 62 males and 37 females with an average age of 38.8±14.7 years. Their internal fixation time ranged from 7 months to 11 years. The irrationality was defined as insufficient preoperative preparation or a countermeasure that failed to follow the surgical indications or scientific principles of minimal injury or priority of simplicity. A surgical error was defined as unnecessary injury, failed removal or complications related to operation. Cases of irrationality and surgical errors were analyzed to find associations between them.Results:The operative removal was successful in 92 cases and failed in 7 cases. Of the patients who experienced difficult removal of screws, irrationality was found in 26.3% (26/99) and a surgical error or errors occurred in 28.3% (28/99). In the patients with countermeasure irrationality, the incidence of surgical errors was 53.9% (14/26) while in those without countermeasure irrationality, the incidence of surgical errors was 19.2% (14/73), showing a statistically significant difference ( χ2=11.360, P<0.001). In the patients with surgical errors, the incidence of countermeasure irrationality was 64.3% (18/28) while in the patients without surgical errors, the incidence of countermeasure irrationality was and 11.3% (8/71), showing a statistically significant difference ( χ2=29.148, P<0.001). In the patients with failed removal, the rate of countermeasure irrationality was 85.71% (6/7) while in those with successful removal, the rate of countermeasure irrationality was 21.7% (20/92), showing a statistically significant difference ( χ2=13.748, P<0.001). Conclusions:Close relationships exist between countermeasure irrationality, surgical errors and failed removal. The higher proportion of countermeasure irrationality, the higher possibility of surgical errors. Therefore, following the rationality principle may avoid or reduce surgical errors in difficult removal of screws.