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find Keyword "Calcium concentration" 3 results
  • EFFECT OF CALCIUM ON RECONSTRUCTION OF BASEMENT MEMBRANE IN COMPOSITECHITOSAN TISSUE ENGINEERING SKIN

    Objective To search the most suitable concentration of calcium in the medium for the basement membrane reconstruction in tissue engineering skin in vitro. Methods Composite chitosan tissue engineering skin was prepared according to previous studies. Four groups were included according to the concentrationof calcium (1.00, 1.45, 1.65 and 1.95 mmol/L respectively). After 7 days and 15 days of culture, the histological manifestation of basement membrane in tissue engineering skin was observed by hematoxylin amp; eosin staining and PAS staining, and collagen Ⅳ of basement membrane was detected immunohistochemicallyatthe dermalepidermal junction. Results This tissue engineering skin shared some histological features of normal skin, including a welldifferentiated stratifiedepidermis and a dense dermis. The epithelium in the group of 1.95 mmol/L calcium differentiated better than those in other groups. PAS staining showing a regularly red dying strap domain at the dermal-epidermal junction. Collagen Ⅳ was positively stained immunohistochemically at the dermalepidermal junction inthe tissue engineering skin. Conclusion The above results suggest that the medium with 1.95 mmol/L calcium should be suitable for the growth of composite chitosan tissue engineering skin and the reconstruction of basement membrane.

    Release date:2016-09-01 09:22 Export PDF Favorites Scan
  • EXPERIMENTAL STUDY ON ARTESUNATE INDUCING APOPTOSIS OF HYPERTROPHIC SCAR FIBROBLASTS

    Objective To study the effect and mechanism of the apoptosis of hypertrophic scar fibroblasts (HSF) induced by artesunate(Art). Methods HSFs were isolated and cultured from human earlobe scars by the tissue adherence method. The 3th to 5th generation cells were harvested and divided into two groups. HSF was cultured with normal medium in control group and with medium containing60, 120 and 240 mg/L (5 ml)Art in experimental group. Apoptosis and cell cycle were identified by light microscopy, electronmicroscopy and flow cytometry. Then, HSF was cultured with normal medium in control group and with medium containing 30, 60 and 120 mg/L Art in experimental group. The changes of intracellular calcium concentration were observed. Results The primary HSF was fusiform in shape and adherent. The vimentin positive expression was analyzed by immunocytochemistry. Art could induce apoptosis of HSF in the range of 60-240 mg/L under inverted microscope. The effect was dose and timedependent. Clumping of nuclear chromatin showed margination in the experimentalgroup. And the disaggregation of the nucleolus were observed under electronmicroscopy. There were significant differences in the proportion of HSF apoptosis and HSF at G0-G1,S, G2-M stages between the two groups(P<0.05). Apoptotic peak was shown in experimental group by flow cytometry. The peak became more evident asArt concentration increased. The intracellular calcium concentration elevated markedly in HSF with 30-120 mg/L Art treatment for 24 hours, showing significant differences between the two groups (P<0.05). Conclusion The Art facilitates HSF cells apoptosis in vitro by the change of cell cycle. It is suggested that intracellular calcium variation may be one of the mechanisms of HSF apoptosis induced by Art.

    Release date:2016-09-01 09:23 Export PDF Favorites Scan
  • Effects of transcranial magneto-acoustic electrical stimulation on calcium signals in prefrontal nerve clusters

    Transcranial magneto-acoustic electrical stimulation (TMAES) is a novel method of brain nerve regulation and research, which uses induction current generated by the coupling of ultrasound and magnetic field to regulate neural electrical activity in different brain regions. As the second special envoy of nerve signal, calcium plays a key role in nerve signal transmission. In order to investigate the effect of TMAES on prefrontal cortex electrical activity, 15 mice were divided into control group, ultrasound stimulation (TUS) group and TMAES group. The TMAES group received 2.6 W/cm2 and 0.3 T of magnetic induction intensity, the TUS group received only ultrasound stimulation, and the control group received no ultrasound and magnetic field for one week. The calcium ion concentration in the prefrontal cortex of mice was recorded in real time by optical fiber photometric detection technology. The new object recognition experiment was conducted to compare the behavioral differences and the time-frequency distribution of calcium signal in each group. The results showed that the mean value of calcium transient signal in the TMAES group was (4.84 ± 0.11)% within 10 s after the stimulation, which was higher than that in the TUS group (4.40 ± 0.10)% and the control group (4.22 ± 0.08)%, and the waveform of calcium transient signal was slower, suggesting that calcium metabolism was faster. The main energy band of the TMAES group was 0−20 Hz, that of the TUS group was 0−12 Hz and that of the control group was 0−8 Hz. The cognitive index was 0.71 in the TMAES group, 0.63 in the TUS group, and 0.58 in the control group, indicating that both ultrasonic and magneto-acoustic stimulation could improve the cognitive ability of mice, but the effect of the TMAES group was better than that of the TUS group. These results suggest that TMAES can change the calcium homeostasis of prefrontal cortex nerve clusters, regulate the discharge activity of prefrontal nerve clusters, and promote cognitive function. The results of this study provide data support and reference for further exploration of the deep neural mechanism of TMAES.

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