RESUMO
Ischemic stroke is one of the diseases that seriously threaten human health. It is characterized by the high morbidity, disability rate and mortality, and has been lacking effective treatment. Its occurrence is related to metabolic disorder, calcium overload, free radical injury, inflammatory reaction, etc. Gardeniae Fructus not only has antipyretic, analgesic, hepatoprotective and cholagogic effects, but also has protective effects against ischemic brain injury. At present, there are more studies about the main components of Gardeniae Fructus against ischemic brain injury, but the mechanism is unclear. In this paper, the mechanism of the main active ingredients from Gardeniae Fructus in the treatment of cerebral ischemia injury in recent years was reviewed, and the effective component monomer and the whole were analyzed, so as to provide a basis for the prevention and treatment of ischemic brain injury of Gardeniae Fructus decoction pieces, and provide a reference for further research and application of this decoction pieces.
RESUMO
The present study was designed to investigate the function and mechanism of high-frequency stimulation (HFS) of the parafascicular nucleus (PF) used as a therapeutic approach for Parkinson's disease (PD). PD rat model was built by injecting 6-hydroxydopamine (6-OHDA) into the substartia nigra pars compacta of adult male Sprague-Dawley rats. Using the ethological methods, we examined the effect of electrical stimulation of PF on the apomorphine-induced rotational behavior in PD rats. Moreover, Electrophysiological recordings were made in rats to investigate the effects of electrical stimulation of PF on the neuronal activities of the subthalamic nucleus (STN) and the ventromedial nucleus (VM). Our results showed that one week after HFS (130 Hz, 0.4 mA, 5 s) of PF, there was significant improvement in apomorphine-induced rotational behavior in PD rats. HFS of PF caused an inhibition of the majority of neurons (84%) recorded in the STN in PD rats. The majority of cells recorded in the VM of the thalamus responded to the HFS with an increase in their unitary discharge activity (81%). These effects were in a frequency-dependent manner. Only stimulus frequencies above 50 Hz were effective. Furthermore, employing microelectrophoresis, we demonstrated that glutamatergic and GABAergic afferent nerve fibers converged on the same STN neurons. These results show that the HFS of PF induces a reduction of the excitatory glutamatergic output from the PF which in turn results in deactivation of STN neurons. The reduction in tonic inhibitory drive from the basal ganglia induces a disinhibition of activity in the VM, a motor thalamic nucleus. In conclusion, the results suggest that HFS of PF may produce a therapeutic effect in PD rats, which is mediated by the nuclei of PF, STN and VM.