1.Pharmacodynamics and Clinical Therapeutic Effect of Jiakang Ⅰ Oral Liquid
Yi ZHENG ; Wanchun CAI ; Lifu JIANG ; Jiatao ZHAI ; Wei YAO ; Yaping MA
China Pharmacy 1991;0(03):-
OBJECTIVE:To evaluate the pharmacodynamics and therapeutic effect of Jiakang Ⅰ oral liquid.METHODS:The drug actions of tapazole,NS and Jiakang Ⅰ were compared in the animal model of hyperthyroidism.205 hyperthyroidism cases were treated with Jiakang Ⅰ in a double blind design and the therapeutic effect was observed.RESULTS:Pharmacodynamic observation revealed that Jiakang Ⅰ could decreased T3,T4 and increase TSH significantly in rats.Compared with control group treated with tapazole or NS,in Jiakang Ⅰ group,T3 and T4 were obviously reduced and TSH was increased and the clinical symptoms were alleviated without any marked adverse reaction.CONCLUSION:The hyperthyroidism animal model can be applied to evaluating the pharmacodynamic effect of Jiakang Ⅰ.This drug has satisfactory therapeutic effect on hyperthyroidism.
2.Expression of Adult and Neonatal Nav1.5 Isoforms in the Dorsal Root Ganglia Neurons of Rats with Spared Nerve Injury
Jiatao ZHENG ; Jun WANG ; Shaowu OU ; Yunjie WANG
Journal of Shenyang Medical College 2016;18(4):229-233,236
Objective:To study the expression of adult and neonatal Nav1.5 isoforms in the dorsal root ganglia (DRG) neurons of rats with spared nerve injury (SNI) . Methods:The expression of adult and neonatal Nav1.5 isoforms in the DRG neurons of rats with SNI was detected by RT-PCR, DNA sequencing, restriction enzyme digestion, immunohistochemistry and immunofluo-rescence methods. The expression of PKC-γwas detected by Western blot. Results:Both adult and neonatal Nav1.5 isoforms were expressed in the DRG neurons, but their expression ratio was approximately 2.5∶1. In SNI rat models, the expression of both adult and neonatal Nav1.5 isoforms decreased by approximately a half in both mRNA and protein levels. In contrast, the expression of PKC-γincreased by approximately one-fold. Conclusions:Both adult and neonatal Nav1.5 isoforms expressed in the DRG neurons of rat,but their expression levels decrease in pain models. The up-regulation of PKC-γmay directly or indirectly down-regulate the expression of Nav1.5 isoforms in SNI rat models,which may further involve in the pathological process of neuropathic pain.