ABSTRACT
Objective:To explore the asymmetry of neonatal brain white matter using fractional anisotropy (FA) parameter generated from diffusion tensor imaging (DTI).Methods:From January 2011 to June 2013, 88 neonates with normal cranial MRI performance, aged 1-14 (7.7±0.3) days and gestational age 31-42 (37.5±0.3) weeks, were retrospectively collected from the First Affiliated Hospital of Xi′an Jiaotong University. According to the gestational age at birth, the neonates were divided into preterm group (37 cases) and term group (51 cases). DTI was processed to generate FA parametric maps. Tract-based spatial statistics (TBSS) was used to analyze the asymmetry in neonatal white matter. Regions of interest were placed in bilaterally symmetrical white matter tracts. The white matter tracts included the bilateral anterior thalamic radiation, corticospinal tract-posterior limb of the inner capsule (CST-IC), corticospinal tract-corona radiata, cingulum hippocampus part (CGH), inferior frontal occipital fasciculus (IFOF), inferior longitudinal fasciculus (ILF), superior longitudinal fasciculus (SLF), uncinate fasciculus, superior longitudinal fasciculus temporal part (SLF-temp). The FA value was measured and asymmetry index (AI) was calculated. The independent-sample t test or Mann-Whitney U test was used to compare the AI of each tract between the preterm and term groups. Partial correlation was used to analyze the effects of neonatal gestational age and birth anthropometric measures on the asymmetry of neonate at birth. Results:The results of TBSS showed that the left lateralized areas of brain white matter in the neonatal period were mainly located in the corticospinal tract, external capsule and genu of corpus callosum. The right lateralized areas of brain white matter in the neonatal period were mainly located in the optic radiation and splenium of corpus callosum. In both the preterm and term groups, the tracts related to motor (CST-IC) and language function (ILF, SLF, SLF-temp) were left asymmetry. The CGH of the preterm and the term neonates were right asymmetry, and AI was -0.086±0.114 and -0.140±0.108 respectively, with a statistically significant difference ( t=2.27, P=0.026), while the differences of AI in the remaining tracts were not statistically significant ( P>0.05). Only gestational age was correlated with the AI of ILF ( r=0.234, P=0.033), SLF ( r=0.259, P=0.018), SLF-temp ( r=0.252, P=0.022), CST-IC ( r=0.235, P=0.033). No significant correlation was found between birthweight, head circumference, body length and AI. Conclusions:The asymmetries of brain white matter already exist in neonates aged less than two weeks. The tracts associated with motor and language function are predominantly left asymmetry.
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Objective:To investigate the effect of 125I particles in alveolar echinococcosis with the animal model (nude mice and Sprague Dawley rats). Methods:Twenty 10 weeks nude mice with body weight ranged from 20 to 24 g were divided into three groups. Sixteen nude mice were divided into experimental group ( n=8), puncture group ( n=4) and model group ( n=4). There was no intervention in the model group and only particle puncture needle was used in the puncture group. 125I particles were implanted in the experimental group. 14 male Sprague Dawley rats without specific pathogen, with body weight 280-320 g, 12 weeks old, were used to construct the model of hepatic alveolar echinococcosis. Then the rats were divided into intervention group ( n=10) and control group ( n=4). In the intervention group, 125I particles were pushed into the lesions. The abdomen was only open and closed in the control group. All the mice were sacrificed 45 days after intervention. The tumor size was measured. The activity of protoscolex and pathological changes of Echinococcus multilocularis in each group were observed. Results:At the timepoint of 22nd, 30th and 40th day of intervention, the largest diameter of tumor in nude mice experimental group was (10.7±5.2) mm, (10.9±5.0) mm, (8.5±4.3) mm, smaller than that in puncture group (24.5±4.4) mm, (25.4±4.1) mm, (31.4±2.8) mm and model group (22.5±7.3) mm, (25.0±5.4) mm, (26.7±6.3) mm, with statistically significant difference ( P<0.05). The number and activity of protoscoleces in experimental group were lower than those in puncture group and model group. Under the light microscope, the structure of echinococcus vesiculae and its body in the experimental group was obviously destroyed, and the cuticle and germinal layer of echinococcus vesiculae in the puncture group and the model group were normal, with multiple intact protoscoleces. The pathological changes of Sprague Dawley rats in the intervention group and the control group were basically the same as those in the nude mice model. Conclusion:The 125I particle radiation effect can kill Echinococcus multilocularis protoscoleces and inhibit the growth of alveolar echinococcosis.
ABSTRACT
This study aimed at investigating the antiviral constituents from the active fractions of Tong-An (TA) injection.In this study,the active constituents of TA injection were screened by LPS-induced PGE2 production mode to detect the contents of PGE2.The chemical constituents were isolated by HP-20 macroporous resin,silica gel column chromatography,ODS column chromatography,Sephadex LH-20 column chromatography and preparative and semi-preparative HPLC.The structures were identified by spectral data and physicochemical property.As a result,the 95% ethanol eluate of TA injection on the macroporous adsorption resin column was proved to be the active fraction of TA injection.Seventeen compounds were isolated from TA injection and identified as syringaresinol (1),N-Trans-Feruloyltyramine (2),chelerythrine (3),sinomenine (4),coptisine (5),sanguinarine (6),chelidoniny (7),magnoflorine (8),allocryptopine (9),protopine (10),farrerol (11),dihydrosanguinarine (12),heptadec-(9Z)-enoic acid (13),chlorogenic acid (14),cryptochlorogenin acid (15),3,5-di-O-caffeoylquinic acid (16) and 4,5-di-O-caffeoylquinic acid (17).PGE2 inhibitory activities of these compounds were determined,among which six compounds presented inhibitory activities against PGE2.It was concluded that all the isolated compounds from TA injection were firstly reported with the favorable inhibitory activities of compounds 2,5,9,10,11,12 against PGE2.
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This study was aimed to analyze differences of chemical compounds of Ginseng and Radix Puerariae be-fore and after compatibility using HPLC. Hypersil ODS column (4.6 mm × 250 mm, 5μm) was adopted. The mobile phase was acetonitrile-water for gradient elution. The detection wavelength was set at 203 nm. The column tem-perature was 25℃. The flow rate was 1 mL/min. The results showed that through the study of all main peaks in the finger print spectra, there was no obvious influence on extract before and after compatibility of Ginseng and Radix Puerariae. It was concluded that there were no obvious chemical changes of Ginseng and Radix Puerariae before and after compatibility. The synergistic mechanism of compatibility might mainly come from the interaction between the pharmacological actions and the absorption or the metabolism of effective constituents of the medicinal plants.