1.Effect of Acupoint Magnetic Therapy on Mild Cognitive Impairment
Tingting TAN ; Dan WANG ; Xu YUAN ; Xinyan JIA ; Xiaomei ZHOU ; Jiao SHI ; Shangjie CHEN
Chinese Journal of Rehabilitation Theory and Practice 2017;23(3):266-269
Objective To observe the effects of mind-regulating brain-developing acupoint magnetic therapy in patients with mild cogni-tive impairment (MCI). Methods From May to October, 2015, 60 patients with MCI were randomly divided into control group (n=30) and observation group (n=30). The control group received magnetic therapy on Yangming meridians, and the observation group received magnet-ic therapy on mind-regulating brain-developing acupoints, for two months. They were assessed with Montreal Cognitive Assessment (Mo-CA), digit-span and digit symbol of Wechsler Adult Intelligence Scale (WAIS). Results After treatment, the scores of MoCA, digit-span and digit symbol of WAIS significantly increased in the observation group (t>4.858, P<0.001), and were higher than that in the control group (t>2.188, P<0.05), however, only the scores of MoCA and digit symbol of WAIS significantly increased in the control group (t>5.527, P<0.001). The scores of visual space and execution, and delayed recall of MoCA increased in the observation group (t>2.324, P<0.05), and were higher than that in the control group (t>2.262, P<0.05) after treatment, and no significant difference was found in other domains (P>0.05). Conclusion Magnetic therapy on acupoints related with cognition could improve the cognitive function in patients with MCI.
2.The security of epilepsy patients use both donepezil and transcranial magnetic stimulation
Rui JIAO ; Xinyan JIA ; Xu YUAN ; Jie GAO ; Li SHE ; Wenfang GAO ; Sheng OU ; Shufang YU
Journal of Chinese Physician 2016;(z1):242-244
Epilepsy is a complications of brain injury or stroke,and is a common diseases in reha-bilitation or neurology department.Transcranial magnetic stimulation as a classical treatment means for stroke or brain injury,but also can promote the recovery of epilepsy.However,there is no clear clinical re-port for safety of epilepsy patients use both donepezil and transcranial magnetic stimulation .The article re-views the literature.Clinicians maybe provided some help.
3.Value of the ratio of fetal cardiac diameter to biparietal diameter in prediction of homozygous α-thalassemia-1 fetuses
Caiying PANG ; Xinyan LI ; Xiaoxia QIU ; Jiao LI ; Huan HUANG ; Huiyun HU ; Ling TAN ; Xiaoxian TIAN
Chinese Journal of Ultrasonography 2018;27(10):851-854
Objective To evaluate the efficacy of the ratio of the fetal cardiac diameter to biparietal diameter( CBR) as a predictor of homozygous α-thalassemia-1 . Methods Single mid-pregnancies ( 15-22weeks) at risk of homozygous α-thalassemia-1 were enrolled . A total of 251 singleton pregnancies were recruited ,in which 63 cases were homozygous α-thalassemia-1 fetuses and the rest were unaffected . The CBR and cardiothoracic ratio(CTR) were measured by two-dimensional ultrasound . Then the accuracy of these variables were analyzed and compared with each other by ROC curves . Results ①The CBR and CTR in affected fetuses were significantly higher than those in the unaffected( P <0 .01) . ②With CBR>0 .43 and CTR > 0 .52 as the best cut off values ,the sensitivity and specificity of predicting homozygous α-thalassemia-1 fetuses in 15-22 gestational weeks were 95 .74% , 92 .06% and 94 .15% , 85 .71% , respectively ;the area under ROC curve were compared with Z test and there was no significant difference between them ( Z = 1 .500 , P = 0 .1335) . ③ When CBR and CTR were combined ,the sensitivity and specificity of the prediction were significantly increased ( the sensitivity of series experiment : 99 .75% ,the specificity of parallel experiment : 98 .87% ) . Conclusions CBR is a novel , effective and noninvasive predictor of homozygous α-thalassemia-1 in mid-pregnancy whose prediction efficiency is the same as traditional CTR . The measurement of CBR is easier to standardize and is not affected by thoracic lesions such as pleural cavity ,pericardial effusion and skeletal dysplasia . If combined with CTR ,it may play an important role in improving the prenatal detection rate of homozygous α-thalassemia-1 fetuses .
4.Construction and expression of the eukaryotic expression vector of wild-type p27 and lacking the nuclear localization signal p27
Xinyan JIAO ; Ying ZHANG ; Qiu SHENG ; Miao ZHANG ; Zejian YANG ; Xiaoqian GAO ; Qian ZHAO ; Bo WANG ; Peijun LIU
Journal of Xi'an Jiaotong University(Medical Sciences) 2022;43(4):516-521
【Objective】 To construct the eukaryotic expression vector carrying the human wild-type p27 and lacking nuclear localization signal p27△NLS coding sequences, and the express them in HEK293T cells, which may contribute to investigating the different locations and roles of p27 in the cytoplasm and nucleus. 【Methods】 Total RNA was prepared from human breast cancer MCF7 cells, and cDNA was obtained by reverse transcription-polymerase chain reaction (RT-PCR). After amplification of the p27 CDs and non-NLS fragments by PCR, full length p27WT (CDKN1B, NM_004064.5) and p27△NLS coding regions were obtained. PCR products were then subcloned into the eukaryotic expression vector pCMV-Blank. After identification with bacterial PCR, double restriction enzyme digestion and sequencing, they were defined officially as pCMV-p27WT and pCMV-p27△NLS, respectively. The recombinant plasmids were transfected into HEK293T cells by electroporation. After 48 h, the levels of p27 protein in the cytoplasm and nucleus were detected by Western blotting. 【Results】 The sequencing results showed that the sequences of p27WT and p27△NLS inserted into the plasmids were both correctly consistent with that of NM_004064.5. After transfection with pCMV-p27WT, total p27 protein expression was increased and distributed in both the cytoplasm and nucleus of HEK293T cells. After transfection with pCMV-p27△NLS, p27 protein was significantly increased and almost entirely localized in the cytoplasm of HEK293T cells. 【Conclusion】 The eukaryotic expression plasmids of human p27WT and p27△NLS coding sequences were successfully constructed and overexpressed in HEK293T cells. This research may lay a foundation for investigating the biological function of p27 in the cell cycle progression of tumor cells.