1.Temporal Reliability and Lateralization of Resting-state Language Functional Connectivity Network Analysis Based on Order Statistics Correlation Coefifcient
Xuejiao SHI ; Chunqi CHANG ; Nan HU ; Bing SUN
Chinese Journal of Medical Imaging 2015;23(8):561-566
Purpose To investigate the activity of language network with brain function connection network analysis method using MRI order statistics correlation coefficient, and to explore the temporal reliability and functional asymmetry, and provide the theoretical foundation for clinical researches of resting-state language network.Materials and Methods Twenty-five healthy volunteers were scanned three times in resting state. All data were processed using 32 bit Matlab 7.11.0 and DPARSF. The two main language functional areas, Broca and Wernicke, were selected as the regions of interest. The functional connectivity of language network was analyzed with order statistics correlation coefficient.Results Based on the functional connectivity diagrams using seed analysis method, the asymmetry index and intra-class correlation were obtained. The functional connectivity of resting-state language network based on order statistics correlation coefficient was similar to that using the traditional correlation coefficient methods. Conclusion The temporal reliability of resting-state language network can provide a reference value for clinical research of language disorders, as well as the clinical diagnosis and treatment of the language disorders or mental diseases caused by abnormal functional asymmetry of language network.
2.Establishment and application of toxicity testing alternative system for chemicals(new drugs)
Chang SHI ; Huazhi MA ; Quanjun WANG ; Chunqi WU ; Ye YUAN ; Fujiang SHI ; Shufang JING ; Jianjing WANG ; Mingyang LIAO
Chinese Journal of Comparative Medicine 2017;27(5):6-8
There are some shortcomings of animal experiments applied in chemical toxicity testing, such as long period, large cost, species differences and dose differences, which limit the use of animal experiments' results in predicting human toxicity.Accordingly, we established a toxicity testing alternative screening system in line with the toxicity endpoints which required in chemical safety evaluation and risk assessment (genotoxicity, carcinogenicity, reproductive toxicity, acute toxicity and general toxicity) based on 3R principles (replacement, reduction, refinement) for animal experiments.This system covers most of the endpoints of toxicity assessment, and molecular biology technology was also applied to integrate the toxicity test, as well as some operation was optimized in order to shorten the experimental period, reduce experimental costs, improve animal welfare.Furthermore, the results from the screening system have higher clinical relevance because it is based on the toxicity mechanisms.