FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2368863143> ?p ?o ?g. }

• W2368863143 abstract "Objective To study the response of neurons in the bilateral anterior cingulate gyrus(ACG)of cats to electric stimulation of greatersplanchnic nerve(GSN),so as to provide experimental data for exploring the bilateral ACG mechanisms of visceral nociceptive sensation.Methods Response of 791 neurons in the contralateral ACG and 312 neurons in the ipsilateral ACG to electrically stimulating GSN in 48 cats were recordedwith intracellular recording techniques in vivo.Results There were GSN- stimulus- relative neurons(GSRNs)with evoked responses to electricstimulation of GSN,and GSN-stimulus-irrelative neurons didn′t show any GSN evoked response in the bilateral ACG. The GSRNs can be divided in-to visceral nociceptive neurons(VNNs),which have the long latency(≥50 ms)GSN evoked response,and non- visceral nociceptive neurons(NVNNs)with the short latency(50 ms)GSN evoked response. VNNs,including the specific VNNs(SVNNs),only showed long latency GSNevoked response,but the non-SVNNs(NSVNNs)showed both long and short latencies GSN evoked response. The threshold intensities for evokingthe long latency noxious response to stimulate GSN in the bilateral ACG were(0.5-0.6)m A. Those for evoking the short latency innocuous responseto stimulate GSN in the bilateral ACG were(0.3-0.4)m A. The GSN evoked response patterns of both VNNs and NVNNs in the bilateral ACG werethe same,which included excitatory response,inhibitory ones,and mixed ones of both excitation and inhibition or inhibition and excitation. The excit-atory evoked response were main observed during these responses. Compared with those in the ipsilateral ACG,the percentages of GSRNs and NS-VNNs in the contralateral ACG were significantly higher,but the percentage of SVNNs in the contralateral ACG was significantly lower(P 0.01).Conclusion Our results indicate that the response of neurons in the bilateral ACG of cats to electric stimulation of GSN are mainly excitatory. The afferent fibers of different types of GSN project to different neurons in the bilateral ACG,but mainly to the contralateral ACG. The percentages and re-action degrees of various types of neurons between the bilateral ACG are different,which provides new experimental evidence for asymmetry of struc-tures and functions in the bilateral brain." @default.
• W2368863143 created "2016-06-24" @default.
• W2368863143 creator A5087571051 @default.
• W2368863143 date "2015-01-01" @default.
• W2368863143 modified "2023-09-27" @default.
• W2368863143 title "Response of Neurons in the Bilateral Anterior Cingulate Gyrus to Electrically Stimulation of Greater Splanchnic Nerve in Cats" @default.
• W2368863143 hasPublicationYear "2015" @default.
• W2368863143 type Work @default.
• W2368863143 sameAs 2368863143 @default.
• W2368863143 citedByCount "0" @default.
• W2368863143 crossrefType "journal-article" @default.
• W2368863143 hasAuthorship W2368863143A5087571051 @default.
• W2368863143 hasConcept C104211972 @default.
• W2368863143 hasConcept C112592302 @default.
• W2368863143 hasConcept C126322002 @default.
• W2368863143 hasConcept C15490471 @default.
• W2368863143 hasConcept C15744967 @default.
• W2368863143 hasConcept C169760540 @default.
• W2368863143 hasConcept C170493617 @default.
• W2368863143 hasConcept C17077164 @default.
• W2368863143 hasConcept C185263204 @default.
• W2368863143 hasConcept C24998067 @default.
• W2368863143 hasConcept C2779369059 @default.
• W2368863143 hasConcept C2779904517 @default.
• W2368863143 hasConcept C2779918689 @default.
• W2368863143 hasConcept C542102704 @default.
• W2368863143 hasConcept C71924100 @default.
• W2368863143 hasConceptScore W2368863143C104211972 @default.
• W2368863143 hasConceptScore W2368863143C112592302 @default.
• W2368863143 hasConceptScore W2368863143C126322002 @default.
• W2368863143 hasConceptScore W2368863143C15490471 @default.
• W2368863143 hasConceptScore W2368863143C15744967 @default.
• W2368863143 hasConceptScore W2368863143C169760540 @default.
• W2368863143 hasConceptScore W2368863143C170493617 @default.
• W2368863143 hasConceptScore W2368863143C17077164 @default.
• W2368863143 hasConceptScore W2368863143C185263204 @default.
• W2368863143 hasConceptScore W2368863143C24998067 @default.
• W2368863143 hasConceptScore W2368863143C2779369059 @default.
• W2368863143 hasConceptScore W2368863143C2779904517 @default.
• W2368863143 hasConceptScore W2368863143C2779918689 @default.
• W2368863143 hasConceptScore W2368863143C542102704 @default.
• W2368863143 hasConceptScore W2368863143C71924100 @default.
• W2368863143 hasLocation W23688631431 @default.
• W2368863143 hasOpenAccess W2368863143 @default.
• W2368863143 hasPrimaryLocation W23688631431 @default.
• W2368863143 hasRelatedWork W1975724352 @default.
• W2368863143 hasRelatedWork W1978039183 @default.
• W2368863143 hasRelatedWork W1998045399 @default.
• W2368863143 hasRelatedWork W2002686084 @default.
• W2368863143 hasRelatedWork W2016644459 @default.
• W2368863143 hasRelatedWork W2035417270 @default.
• W2368863143 hasRelatedWork W2069536583 @default.
• W2368863143 hasRelatedWork W2077334700 @default.
• W2368863143 hasRelatedWork W2081856380 @default.
• W2368863143 hasRelatedWork W2082528427 @default.
• W2368863143 hasRelatedWork W2091144600 @default.
• W2368863143 hasRelatedWork W2184907438 @default.
• W2368863143 hasRelatedWork W2397575921 @default.
• W2368863143 hasRelatedWork W2410145936 @default.
• W2368863143 hasRelatedWork W2411237684 @default.
• W2368863143 hasRelatedWork W2412921607 @default.
• W2368863143 hasRelatedWork W2414512516 @default.
• W2368863143 hasRelatedWork W2416060819 @default.
• W2368863143 hasRelatedWork W2419655529 @default.
• W2368863143 hasRelatedWork W2185881679 @default.
• W2368863143 isParatext "false" @default.
• W2368863143 isRetracted "false" @default.
• W2368863143 magId "2368863143" @default.
• W2368863143 workType "article" @default.