SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2111095945> ?p ?o ?g. }

Showing items 1 to 100 of ±172 with 100 items per page.

W2111095945 endingPage "1074" @default.
W2111095945 startingPage "1067" @default.
W2111095945 abstract "Abstract The rostral ventrolateral medulla oblongata (RVLM) contains two functionally distinct types of neurons that control and orchestrate cardiovascular and respiratory responses to hypoxia and hypercapnia. One group is composed of the central chemoreceptor neurons of the retrotrapezoid nucleus, which provides a CO 2 /H + ‐dependent drive to breathe and serves as an integration centre and a point of convergence of chemosensory information from other central and peripheral sites, including the carotid bodies. The second cluster of RVLM cells forms a population of neurons belonging to the C1 catecholaminergic group that controls sympathetic vasomotor tone in resting conditions and in conditions of hypoxia and hypercapnia. Recent evidence suggests that ATP‐mediated purinergic signalling at the level of the RVLM co‐ordinates cardiovascular and respiratory responses triggered by hypoxia and hypercapnia by activating retrotrapezoid nucleus and C1 neurons, respectively. The role of ATP‐mediated signalling in the RVLM mechanisms of cardiovascular and respiratory activities is the main subject of this short review." @default.
W2111095945 created "2016-06-24" @default.
W2111095945 creator A5004793759 @default.
W2111095945 creator A5012767360 @default.
W2111095945 creator A5016747509 @default.
W2111095945 creator A5066665419 @default.
W2111095945 creator A5072060007 @default.
W2111095945 creator A5082691755 @default.
W2111095945 date "2015-01-22" @default.
W2111095945 modified "2023-10-17" @default.
W2111095945 title "Independent purinergic mechanisms of central and peripheral chemoreception in the rostral ventrolateral medulla" @default.
W2111095945 cites W1497584043 @default.
W2111095945 cites W1504261214 @default.
W2111095945 cites W1509467885 @default.
W2111095945 cites W1510912246 @default.
W2111095945 cites W1539460880 @default.
W2111095945 cites W1572588216 @default.
W2111095945 cites W1585419195 @default.
W2111095945 cites W1608536970 @default.
W2111095945 cites W1744173909 @default.
W2111095945 cites W1886164324 @default.
W2111095945 cites W1922702151 @default.
W2111095945 cites W1966409424 @default.
W2111095945 cites W1968067961 @default.
W2111095945 cites W1970296355 @default.
W2111095945 cites W1974801807 @default.
W2111095945 cites W1977894553 @default.
W2111095945 cites W1990302064 @default.
W2111095945 cites W1997309138 @default.
W2111095945 cites W2003827347 @default.
W2111095945 cites W2007404429 @default.
W2111095945 cites W2020372793 @default.
W2111095945 cites W2024509941 @default.
W2111095945 cites W2029052420 @default.
W2111095945 cites W2029922422 @default.
W2111095945 cites W2030587520 @default.
W2111095945 cites W2032154466 @default.
W2111095945 cites W2037178734 @default.
W2111095945 cites W2037495834 @default.
W2111095945 cites W2041034105 @default.
W2111095945 cites W2042141897 @default.
W2111095945 cites W2044026711 @default.
W2111095945 cites W2047168771 @default.
W2111095945 cites W2048870600 @default.
W2111095945 cites W2055647110 @default.
W2111095945 cites W2056123178 @default.
W2111095945 cites W2057811626 @default.
W2111095945 cites W2063021163 @default.
W2111095945 cites W2067500713 @default.
W2111095945 cites W2071269898 @default.
W2111095945 cites W2072104271 @default.
W2111095945 cites W2077993168 @default.
W2111095945 cites W2078690243 @default.
W2111095945 cites W2081155432 @default.
W2111095945 cites W2086715542 @default.
W2111095945 cites W2093251622 @default.
W2111095945 cites W2100762371 @default.
W2111095945 cites W2103244356 @default.
W2111095945 cites W2104671291 @default.
W2111095945 cites W2104788484 @default.
W2111095945 cites W2105664925 @default.
W2111095945 cites W2106428109 @default.
W2111095945 cites W2112569130 @default.
W2111095945 cites W2120749319 @default.
W2111095945 cites W2124118232 @default.
W2111095945 cites W2127263106 @default.
W2111095945 cites W2133248581 @default.
W2111095945 cites W2136718200 @default.
W2111095945 cites W2137822998 @default.
W2111095945 cites W2138263789 @default.
W2111095945 cites W2145823069 @default.
W2111095945 cites W2146168235 @default.
W2111095945 cites W2147508272 @default.
W2111095945 cites W2148579290 @default.
W2111095945 cites W2150161260 @default.
W2111095945 cites W2270857655 @default.
W2111095945 cites W4233594215 @default.
W2111095945 doi "https://doi.org/10.1113/jphysiol.2014.284430" @default.
W2111095945 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4358671" @default.
W2111095945 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25524282" @default.
W2111095945 hasPublicationYear "2015" @default.
W2111095945 type Work @default.
W2111095945 sameAs 2111095945 @default.
W2111095945 citedByCount "12" @default.
W2111095945 countsByYear W21110959452015 @default.
W2111095945 countsByYear W21110959452016 @default.
W2111095945 countsByYear W21110959452017 @default.
W2111095945 countsByYear W21110959452020 @default.
W2111095945 countsByYear W21110959452021 @default.
W2111095945 countsByYear W21110959452022 @default.
W2111095945 countsByYear W21110959452023 @default.
W2111095945 crossrefType "journal-article" @default.
W2111095945 hasAuthorship W2111095945A5004793759 @default.
W2111095945 hasAuthorship W2111095945A5012767360 @default.
W2111095945 hasAuthorship W2111095945A5016747509 @default.
W2111095945 hasAuthorship W2111095945A5066665419 @default.
W2111095945 hasAuthorship W2111095945A5072060007 @default.
W2111095945 hasAuthorship W2111095945A5082691755 @default.