ABSTRACT
To implement the fundamental task of the Ministry of Education on carrying out curriculum ideological and political education and promoting colleges and universities to implement the morality education, this study tried to carry out ideological and political education for medical students in "medical functional science experimental course", and organically integrated the ideological and political elements of "loving experimental animals and reverencing for life" into the teaching of this course. This paper explored the implementation process and effect evaluation of ideological and political courses from the aspects of teaching objects, design, objectives, in-class and off-class practical activities, and analyzed the current problems and future directions. In order to provide beneficial ideas for the ideological and political construction of college curriculum and help cultivate excellent and innovative medical talents with warmth and feelings.
ABSTRACT
Objective: To study the role of glucocorticoid i n the integration of sympathetic nervous system and cardiovascular activity. Methods: Neurons in the rostral ventrolateral medulla (RVLM) were extracelluarly recorded and identified as the presympathetic neurons of adult rats. The spontaneous discharge of the presympathetic neurons in the RVLM were observed by bolus intravenous injection of corticosterone (50, 100, 150 μg/kg) . Results: The firing rate of 12 presympathetic neurons was incr eased by intravenous application of corticosterone (P<0.05), and this effect showed a dose-dependent manner. The latency of excitatory effect was (104±2 5) s. Conclusion: Corticosterone can rapidly excite the presym pathetic neurons in the RVLM, this action might be involved in the integration o f sympathetic nervous system through the “rapid membrane effects”.
ABSTRACT
AIM To study the roles of non-genomi c mechanism of glucocorticoid in the integration of sympathetic nervous system. METHODS The spontaneous discharge of the identified cardiovascula r neurons in the rostral ventrolateral medulla (RVLM) were extracellularly recor ded in urethane-anaesthetized rats. The effects of microiontophoresis of cortic ostersone sulfate (CORT) on the discharge of the cardiovascular neurons in the RVLM were observed. The responses of RU 486 (a blocker for cytosolic glucocortic oids) to the effects of CORT on the cardiovascular neurons were investigated. RESULTS Totally 33 cardiovascular neurons in the RVLM were recorded , the firing rate of 25 (76%) cardiovascular neurons increased by microiontophor esis of CORT. The effects of CORT were also positively correlated with the curre nt. In 8 (24%) cardiovascular neurons, microiontophoresis of CORT had no effect on their spontaneous discharge. In 12 of 33 cardiovascular neurons, which discha rge increased by CORT, microiontophoresis of RU 486 had no responses to the base line discharge of these cardiovascular neurons (P>0.05), but completely (3 neurons) or partially (9 neurons) blocked the excitatory effect induced by CORT. CONCLUSION CORT had rapid excitatory effects on the cardiovascul ar neurons in the RVLM. RU 486 had no responses to the baseline activity of the cardiovascular neurons, and but completely or partially blocked the effect of CO RT on the cardiovascular neurons.
ABSTRACT
0.05), but completely (3 neurons) or partially (9 neurons) blocked the excitatory effect induced by CORT. CONCLUSION CORT had rapid excitatory effects on the Caldiovascular neuronsin the RVLM. RU 486 had no responses to the baseline activity of the cardiovascular neurons, and but completely or partially blocked the effect of CORT on the cardiovascular neurons.