Background and purpose: NF-?B is activated by tumor necrosis factor,some chemotherapeutic agents,and ionizing radiation.The activation of NF-?B could result in inhibition of apoptosis.NF-?B,regulated by PDTC(pyrrolidine dithiocarbamate),is a specific inhibitor of NF-?B.The purpose of our study was to explore the impact of inhibiting expression of NF-?B on radiation-induced apoptosis of uterine cervix cancer HeLa cells.Methods:Inhibition of NF-?B in HeLa cells was performed by treatment with 100 ?mol/L PDTC for 2 hours.Cells were irradiated at 0,2,4 and 6 Gy with or without PDTC.The expression of NF-?B in nuclear was determined by western blot,and apoptosis was evaluated by using the TUNEL assay.Cell proliferation was evaluated by using MTT assay.Results:NF-?B activation was induced by radiation and inhibited by PDTC.Inhibition of radiation-induced NF-?B activation resulted in inhibiting cell proliferation(P

Objective To study the effect of temperature on the emission of tbrmaldehyde trom the blockboard.Methods A 0.25 m3 simulation chamber was used to explore the emission of formaldehyde from blockboard at the temperature of 15,17,19,21, 23,25,27,and 29 ℃,respectively.The relative humidity,the ventilation velocity and the loading factor in simulation chamber was (50?1)%,1.0 L/min,and(1?0.03)m~2/m~3 respectively.Results A hyperbolic logarithm variation in formaldehyde concentration with time in the chamber was observed at different temperatures.Formaldehyde concentration in the chamber increased remarkably once the temperature exceeded 25 C.The chamber stabilization formaldehyde concentration varied with temperature in accordance with an exponent equation of y=0.921 9?0.024 9e~(0.176 4x)(R~2=0.996 9).Conclusion The temperature can greatly influence formaldehyde emission from the blockboards.Higher temperature will facilitate formaldehyde emission from the blockboards.

Objective To identify the influential factors in family on late talkers. Methods A cluster sampling survey was conducted on Shanghai healthy children aged 24 months to 35 months from 10 districts. Children with vocabularies less than 30 were identified as late talkers. Univariate analysis and Logistic stepwise regression analysis were performed to analyse the related environmental factors. Results There were 2 774 effective samples, and 115 late talkers (4.1%) were identified. Nine risk factors were found out from 26 environmental factors by univariate analysis, among which 5 were further identified by Logistic stepwise regression analysis as significant risk factors: urban life, education of father lower than middle school, using one language, male caregiver and lack of communication between child and caregiver. Conclusion Avoiding risk factors and providing favourable language environment may help to prevent language delay in children.

Objective To study the changes of learning-memory ability and synapse of hippocampus after radiation injuries. Methods Sprague-Dawley rats were grouped according to radiation dose to 20Gy group,30Gy group radiated by linear accelerator and control group were used before radiation and 120 days after radiation. Morris maze test were taken to study the learning and memory ability of rats in each group. Average escape latency and search strategy were scaled and analyzed in each group. The parameters of synapse in CA3 area of hippocampus were studied by using electron microscope and image analyzer. Results AEL of 20Gy group was (41. 17 ±10.76 ) s and score of SS was 27.13 ± 2.34 after 120 days' radiation but AEL of 30 Gy group was (78.49 ± 9.32)s and the score of SS was (23.19 ± 7.65 ) nm. There were significant statistic differences Compared with control group and before radiation (P ＜ 0.05 ). The thickness of PSD of 20 Gy group was ( 22.03 ± 6.84 ) nm after 120days' radiation and (23.19 ± 7.65 )nm in 30 Gy group. There were significant statistic differences compared with control group and before radiation. It was observed that both in 20 Gy and 30 Gy group' s the length of synaptic activity area was shorter,the curvature of synaptic interface was smaller,the width of synaptic cleft and the thickness of PSD was narrower than that of control group. Conclusion There was close relation between the changes of learning-memory ability and synapse of hippocampus after radiation injuries.

OBJECTIVE To study the characteristic of nosocomial pulmonary infection to find out the measures for prevention and control.METHODS The patients with radiation brain injuries(RIB) from Oct 2004 to Jun 2007 underwent retrospective investigation.The reasons and sites of pulmoary infection were analyzed.RESULTS The incidence of pulmonary infection of patients with RIB after radiotherapy was 68.5%.Major factors of infection were bulb palsy,invasive treatment and hormone usage.The Gram-negative bacteria were the predominant pathogens.CONCLUSIONS The nosocomial pulmonary infection is related to many factors.Antibiotic usage according to drug susceptibility results and controlling of the risk factors are important measures to reduce the rate of infection.

Glioma is the most common form of brain cancer. Despite recent advances in the treatment of solid tumors, there are few effective treatments for malignant gliomas due to its infiltrative nature. It has important significance to improve the treatment of glioma through in-depth understanding the intracerebral metabolic characteristics and pharmacokinetics of chemotherapeutics. Brain microdialysis (B-MD), an effective method to monitor central nervous system anticancer drug disposition, conditions of drugs through the blood-brain barrier, basic pathophysiologic metabolism, bioactive compounds and the changes of neurotransmitter in brain, provides the unique opportunity to allow the simultaneous determination of unbound concentrations of drugs in several tissues, and directly measure gliomas biochemistry continuously. B-MD has been able to monitor the change of brain drugs, metabolites and neurotransmitters, dynamic analysis of the drug concentration and pharmacological effect after administration, pharmacodynamic interaction between drugs, receptor mechanism of drug transport, as well as feedback information of internal environment. B-MD is expected to provide reference for clinical individual chemotherapy of glioma, but also provide powerful tools for the evaluation of new anticancer drugs in vivo. In this review, a comprehensive overview of B-MD for studies on glioma is elucidated with special emphasis on its application to neurochemistry and pharmacokinetic studies.
Animals ; Antineoplastic Agents ; pharmacokinetics ; Blood-Brain Barrier ; Brain Neoplasms ; metabolism ; Glioma ; metabolism ; Humans ; Magnetic Resonance Spectroscopy ; Metabolomics ; methods ; Microdialysis ; methods ; Neurotransmitter Agents ; pharmacokinetics ; Pharmaceutical Preparations ; metabolism ; Positron-Emission Tomography

Child, Preschool ; China ; epidemiology ; Humans ; Infant ; Infant, Newborn ; Language Development ; Sampling Studies

Brain-computer interface (BCI) system is a system that achieves communication and control among humans and computers and other electronic equipment with the electroencephalogram (EEG) signals. This paper describes the working theory of the wireless smart home system based on the BCI technology. We started to get the steady-state visual evoked potential (SSVEP) using the single chip microcomputer and the visual stimulation which composed by LED lamp to stimulate human eyes. Then, through building the power spectral transformation on the LabVIEW platform, we processed timely those EEG signals under different frequency stimulation so as to transfer them to different instructions. Those instructions could be received by the wireless transceiver equipment to control the household appliances and to achieve the intelligent control towards the specified devices. The experimental results showed that the correct rate for the 10 subjects reached 100%, and the control time of average single device was 4 seconds, thus this design could totally achieve the original purpose of smart home system.
Brain-Computer Interfaces ; Electroencephalography ; Evoked Potentials, Visual ; Humans ; Microcomputers ; Wireless Technology

PurposeTo evaluate the motion correction algorithm (snapshot freeze, SSF) and multi-cycle reconstruction on the imaging quality and interpretation of coronary CT angiography (CCTA).Materials and Methods Sixty patients with suspected coronary heart disease were divided into two groups according to the heart rate. Twenty-ifve patients with heart rate ≤65 beats per minute underwent prospectively ECG-gated CCTA on gemstone CT. Image quality and interpretability of standard (STD) and SSF reconstructions at 75% R-R interval were compared. Thirty-five patients with heart rate>65 beats per minute underwent retrospective ECG-gated CCTA. Image quality and interpretability of STD and SSF reconstructions at 45% and 75% R-R interval were compared. The image qualities and interpretability were assessed based on coronary artery segment, coronary artery bifurcation and overall coronary artery.Results For 25 patients with prospectively ECG gated CCTA, SSF reconstructions showed higher interpretability than STD reconstructions on per-segment level [96.3% (341/354)vs 90.7% (321/354),P<0.01]. Image qualities with SSF were higher than that with STD reconstructions for left anterior descending (LAD), left circumflex (LCX) and right coronary artery (RCA). There was no statistic significance for left main coronary artery (P>0.05). For 35 patients with retrospective ECG-gate CCTA, SSF reconstructions at 45% R-R interval showed higher interpretability (P<0.01,P<0.001). But there were no signiifcant difference for 75% R-R interval images (P>0.05). Image qualities with SSF were higher than that with single and double sector STD reconstructions (P<0.001). The image qualities were signiifcant different among SSF, single and double sector STD reconstructions for 45% R-R interval images of LM (P<0.01), but it was similar for 75% R-R interval images (P>0.05). There were signiifcant different for LAD, LCX and RCA on both 45% and 75% R-R interval images (P<0.01,P<0.001). Conclusion SSF may improve the image quality and interpretability of CCTA images using prospectively and retrospective ECG-gated techniques, especially for improving the image quality.

Objective To evaluate beam-hardening (BH) artifact reduction of myocardium in coronary computed tomography angiography(CCTA)with single-source dual-energy CT. Methods Thirty patients received CCTA on single-source dual-energy CT with findings of coronary artery stenosis<50%were enrolled in this study prospectively. Scanning mode was gemstone spectral imaging (GSI), single-source instantaneous(0.5 ms)kVp(140 kVp and 80 kVp)switch. The original images acquired by scanning were
reconstructed into monochromatic energy (60,70,80,90,100,110,120,130,140 keV) left vertical short-axis images via 40% ASIR and the polychromatic left vertical short-axis images were conventionally reconstructed. CT values were measured across multiple segments (basal anterior, basal lateral, basal inferior , basal septal, mid anterior, mid lateral, mid inferior , mid septal, apical anterior, apical lateral, apical inferior , apical septal and apex)of left ventricle wall at varying monochromatic energy levels and polychromatic images, and then the left ventricular myocardial average CT value and BH objective value were calculated retrospectively:BH1=CT value of mid inferior wall-CT value of basal inferior wall ,BH2=CT value of mid septal wall-CT value of mid inferior wall. BH subjective rating were evaluated by two radiologists independently. Single sample t test was used to compare the difference of myocardial CT values among 13 segments with the left ventricular myocardial average CT value on polychromatic images ;Kruskal-Wallis test was used to compare the difference of CT values among thirteen different segments of myocardium on fixed monochromatic energy images; Wilcoxon rank test was used to compare the difference of BH objective value and subjective rating between monochromatic images with polychromatic images. Results On polychromatic images, the mean myocardial CT value was(73 ± 25)HU, the CT value of basic inferior[(58±23)HU], basic septal[(85±21)HU], mid septal[(89±24)HU], apical anterior[(64±23)HU]and apex [(61 ± 24)HU ] were different from the mean myocardial CT value(t value were -3.76,2.89,3.50,-2.30, -2.86,P all<0.05),the differences of CT value between other myocardial segments and the mean myocardial CT value had no statistical significance(P all>0.05). The differences of CT value of different myocardial segments had statistical significance at 60 to 80 keV images(P all<0.05), the differences of CT value of different myocardial segments had no statistical significance at 90 to 140 keV images(P all>0.05), suggesting that the non-uniformity of CT value among different segments was improved. On polychromatic images,BH1 M(P25,P75)was 11(6,28),BH2 M(P25,P75)was 19(1,29) HU. BH1 was improved on 90 to 140 keV images while BH2 was improved on 70 to 140 keV images, the difference had statistical significance compared with the polychromatic images(P all<0.05). BH1,BH2 decreased with the increasing of monochromatic energy level on 60 to 100 keV images, then increased a little on 110,120 keV images, and hit bottom on 130 keV images with the value of 5.20,0.34 HU ,finally exist a slight increase on 140 keV images again. On polychromatic images,BH1,BH2 subjective rating M(P25,P75)both were 1(1,2), BH1 subjective rating was improved on 70 to 140 keV images while BH2 subjective rating was improved on 90 to 140 keV , the difference had statistical significance compared with the polychromatic images(P all<0.05). Conclusion Compared with the polychromatic images,monochromatic energy images of CCTA with dual-energy CT resulted in significant BH artifact reduction and improvements in the uniformity in the myocardium, and 130 keV is the optimal Monochromatic energy.