China ; Female ; Genital Diseases, Female ; pathology ; Humans

Objective To investigate the permeability changes of prostate cancer cells membrane under low intensity ultrasound in vitro.Methods The culture of monolayer adherent LNCaP prostate cancer cells in six-well plate was exposed to continuous ultrasound at frequency of 1 MHz.The cells membrane permeability (stained with Calcein)and cells viability(stained with PI)were evaluated by fluorescent microscope (FM) and cells morphological changes were evaluated by scanning electron microscope (SEM) under ultrasound with acoustic intensity of 160 mW/cm2 for 5 s.The rate of cells with increased cells membrane permeability as function of acoustic intensity (80 mW/cm2,120 mW/cm2 and 160 mW/cm2,for 5 s) and exposure duration (5 s,10 s and 15 s,acoustic intensity of 120 mW/cm2) was evaluated by flow cytometry.ResultsAfter low intensity of ultrasound,the cells with increased cell membrane permeability could be clearly shown with Calcein uptake under FM while no cell showed Calcein uptake in the control group.The SEM showed less microvilli on the cells after low intensity of ultrasound exposure and few cells showed holes on the cell membrane.The rate of cells with increased membrane permeability increased with acoustic intensity and exposure duration.Conclusion Low intensity ultrasound alone could increase membrane permeability of prostate cancer cells and cells with increased membrane permeability showed surface plane,uncommon holes on the cells membrane.The rate of cells with increased membrane permeability positively correlated with acoustic intensity and exposure duration.

Adenoma ; metabolism ; pathology ; Biomarkers ; metabolism ; Biomarkers, Tumor ; metabolism ; Carcinoma, Basal Cell ; metabolism ; pathology ; Diagnosis, Differential ; Humans ; Hyperplasia ; Immunohistochemistry ; Male ; Prostate ; metabolism ; pathology ; Prostatic Hyperplasia ; metabolism ; pathology ; Prostatic Neoplasms ; metabolism ; pathology

Objective To evaluate the etiologies of children with gastrointestinal bleeding(GIB), and the relationship between the pathological findings and clinical.Methods Gastroscopy or proctoscope was performed in 153 children with GIB. Pathological studies and tests as for helicobactor pylori (Hp) were undertaken.Results Among 153 children,140 cases(91.5 %) had definite diagnosis,including 74 children with upper gastrointestinal bleeding(UGIB) and 66 cases with lower gastrointestinal bleeding(LGIB). Gastric pathologic study was conducted in 56 cases. All patients had chronic superficial gastritis(CSFG). Hp test was positive in 33 patients. There was significant difference in the positive rate of Hp test between patients with gastritis or duodenitis and those with ulcers (P

Objective To optimize the parameters of the low-frequency/low-energy ultrasound combined with micro-bubbles in inducing early apoptosis of DU145 cells (an androgen-independent prostatic cancer cells). Methods In our study, the impact of ultrasonic power, micro-bubbles/cell suspension volume rate and irradiation time were investigated. Three levels of each factor were deifned as ultrasonic power (60, 80, 100 mW), micro-bubbles/cell suspension volume rate (10%, 20%, 30%), irradiation time (30, 60, 90 s). According to the three-factor three-level orthogonal design, nine experiments were carried out. The early apoptosis was detected by lfow cytometry. A new experiment was designed with the optimized parameters. Another group without ultrasound irradiation was designed as the control group. Flow cytometry and transmission electron microscope (TEM) were used to detect the early apoptosis. Results In descending order, the inlfuence of these factors on the cell early apoptosis were:ultrasonic power>micro-bubbles/cell suspension volume rate>irradiation time. Moreover, the inlfuence of each factor level were:80 mW>60 mW>100 mW in ultrasonic power, 20%>30%>10%in micro-bubbles/cell suspension volume rate, 60 s>90 s >30 s in irradiation time. The early apoptosis rate of experiment group was 10.41%, while the control group was 0.94%. TEM showed apoptotic cells in the experiment group. Conclusions The optimized parameter of low-frequency/low-energy ultrasound with micro-bubbles in inducing early apoptosis of DU145 cells are ultrasonic power of 80 mW, micro-bubbles/cell suspension volume rate of 20%, and irradiation time of 60 s. With the optimized parameters, the early apoptosis rate of the experiment group has signiifcant higher than the control group.

Objective To investigate the feasibility of low-frequency ultrasound combined with microbubbles improving transfection of enhanced green lfuorescent protein plasmid (pEGFP) to subcutaneously transplanted prostate cancer in nude mice, and to optimize the parameters of intensity. Methods The model of nude mice of subcutaneously transplanted prostate cancer were built. Then they were divided into 2 groups including low-frequency ultrasound group and low-frequency ultrasound combined with microbubbles group, each group with 15 mice. Then 250μl of mixture of saline and pEGFP (50μg) were co-injected in low-frequency ultrasound group and 250μl of mixture of SonVue and pEGFP (50μg) were co-injected in low-frequency ultrasound combined with microbubbles group through tail vein. According to intensity, they were divided into 3 subgroups respectively, including group 1 W/cm2, group 2 W/cm2 and group 3 W/cm2, each group with 5 mice. Ultrasound was applied at 80 kHz input frequency with 50%duty cycle for 10 minutes after pEGFP injection. The tumors were collected on the third day after treatment. The expression of pEGFP in tumor was examined by laser scanning confocal microscope (ISCM) and the average lfuorescence intensity were estimated. At the same time, routine pathological examination was performed. The mean lfuorescence intensity of low frequency ultrasound group and low frequency ultrasound combined with microbubble group were compared with one-way ANOVA and those of any two groups were compared by SNQ-q test. Results TThe mean lfuorescent light in low-frequency ultrasound combined with microbubbles group were 23.75±2.54, 30.25±1.67 and 59.60±2.03, which were obviously stronger than those of low-frequency ultrasound treatment group (14.04±1.35, 14.66±0.98 and 14.32±1.20), the difference was statistically signiifcant (the value of q were 18.26, 14.12 and 13.88, P<0.05). The rate of gene transfection increased along with the enhancement of the ultrasound intensity (the value of q were 15.33, 17.81 and 13.79, P<0.05). Histology analyses performed by HE staining showed that there was no damage to the tumor tissues in all groups, tumor tissues were intact and without infection. Conclusions Low-frequency ultrasound combination with microbubbles can significantly enhance pEGFP transfecting into subcutaneously transplanted prostate cancer in nude mice. In certain range, improving the ultrasound intensity can increase the rate of gene transfection.

Objective To investigate the effect of 20 kHz low-intensity ultrasound combined with microbubbles on autophagy of both PC3 cells and DU145 cells. Methods Ultrasound with a frequency of 20 kHz and intensity of 80 mW in continuous wave mode was used. Both PC3 cells and DU145 cells were divided into four groups, including control group (A), microbubbles group (B), ultrasound group (C) and ultrasound combined with microbubbles group (D). Twenty-four hours after treatment, the acid vesicular organelles were detected by acridine orange lfuorescence staining, and transmission electron microscopy (TEM) was used to observe autophagosomes. Results Acridine orange lfuorescence staining showed formation of acid vesicular organelles (AVOs) in the cytoplasm with normal nucleus in both PC3 cells and DU145 cells in group D, while in group A cells were basically normal. Lots of autophagosomes with double-membrane structure were detected by transmission electron microscope in group D. Conclusions Low-frequency and low-intensity ultrasound combined with microbubbles can induced autophagy in both PC3 cells and DU145 cells.

Biomarkers, Tumor ; metabolism ; Formaldehyde ; Humans ; Neoplasms ; metabolism ; Paraffin Embedding ; RNA, Messenger ; metabolism ; Tissue Fixation

Anesthesia, Intravenous ; Bronchoscopes ; Bronchoscopy ; Humans ; Pneumoconiosis ; diagnosis