SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2790659413> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W2790659413 endingPage "1812" @default.
W2790659413 startingPage "1795" @default.
W2790659413 abstract "Key points We have developed an improved method that enables simultaneous recording of stimulus evoked compound action potentials from large myelinated A fibres and small unmyelinated C fibres in mouse sciatic nerves. Investigations into the ability of fructose to support conduction in sciatic nerve revealed a novel glia‐to‐axon metabolic pathway in which fructose is converted in Schwann cells to lactate for subsequent shuttling to A fibres. The C fibres most likely directly take up and metabolise fructose. These differences are indicative of fibre sub‐type specific metabolic profiles. These results demonstrate that the physiological insights provided by the method can be applied to investigations of peripheral nerve, with a view to understanding the metabolic disruptions that underlie diabetic neuropathy. Abstract The stimulus evoked compound action potential (CAP), recorded using suction electrodes, provides an index of the relative number of conducting axons within a nerve trunk. As such the CAP has been used to elucidate the diverse mechanisms of injury resulting from a variety of metabolic insults to central nervous white matter, whilst also providing a model with which to assess the benefits of clinically relevant neuroprotective strategies. In addition the technique lends itself to the study of metabolic cell‐to‐cell signalling that occurs between glial cells and neurones, and to exploring the ability of non‐glucose substrates to support axon conduction. Although peripheral nerves are sensitive to metabolic insult and are susceptible to diabetic neuropathy, there is a lack of fundamental information regarding peripheral nerve metabolism. A confounding factor in such studies is the extended duration demanded by the experimental protocol, requiring stable recording for periods of many hours. We describe a method that allows us to record simultaneously the stimulus evoked CAPs from A and C fibres from mouse sciatic nerve, and demonstrate its utility as applied to investigations into fibre sub‐type substrate use. Our results suggest that C fibres directly take up and metabolise fructose, whereas A fibre conduction is supported by fructose‐derived lactate, implying there exist unique metabolic profiles in neighbouring fibre sub‐types present within the same nerve trunk." @default.
W2790659413 created "2018-03-29" @default.
W2790659413 creator A5036859891 @default.
W2790659413 creator A5058675078 @default.
W2790659413 date "2018-04-16" @default.
W2790659413 modified "2023-09-25" @default.
W2790659413 title "Fibre sub-type specific conduction reveals metabolic function in mouse sciatic nerve" @default.
W2790659413 cites W1109742755 @default.
W2790659413 cites W1519918742 @default.
W2790659413 cites W1533795865 @default.
W2790659413 cites W160118299 @default.
W2790659413 cites W1963522147 @default.
W2790659413 cites W1963837394 @default.
W2790659413 cites W1966808766 @default.
W2790659413 cites W1967946331 @default.
W2790659413 cites W1971183383 @default.
W2790659413 cites W1973747802 @default.
W2790659413 cites W1978664388 @default.
W2790659413 cites W1982772313 @default.
W2790659413 cites W1985808169 @default.
W2790659413 cites W1992231858 @default.
W2790659413 cites W2001522791 @default.
W2790659413 cites W2001725826 @default.
W2790659413 cites W2003360699 @default.
W2790659413 cites W2004654531 @default.
W2790659413 cites W2012438024 @default.
W2790659413 cites W2015556961 @default.
W2790659413 cites W2021960920 @default.
W2790659413 cites W2026813581 @default.
W2790659413 cites W2027382827 @default.
W2790659413 cites W2028803857 @default.
W2790659413 cites W2031762296 @default.
W2790659413 cites W2032542252 @default.
W2790659413 cites W2034613801 @default.
W2790659413 cites W2038811384 @default.
W2790659413 cites W2039595123 @default.
W2790659413 cites W2041545824 @default.
W2790659413 cites W2043403270 @default.
W2790659413 cites W2055485543 @default.
W2790659413 cites W2057628845 @default.
W2790659413 cites W2060492795 @default.
W2790659413 cites W2062299751 @default.
W2790659413 cites W2064830032 @default.
W2790659413 cites W2070031472 @default.
W2790659413 cites W2082326637 @default.
W2790659413 cites W2088289424 @default.
W2790659413 cites W2089547918 @default.
W2790659413 cites W2090177945 @default.
W2790659413 cites W2092635505 @default.
W2790659413 cites W2113568840 @default.
W2790659413 cites W2137911312 @default.
W2790659413 cites W2148611607 @default.
W2790659413 cites W2150559590 @default.
W2790659413 cites W2158197357 @default.
W2790659413 cites W2169079203 @default.
W2790659413 cites W2315311487 @default.
W2790659413 cites W2326389904 @default.
W2790659413 cites W2497182831 @default.
W2790659413 cites W2503152357 @default.
W2790659413 cites W2503678755 @default.
W2790659413 cites W2587867739 @default.
W2790659413 cites W4211240576 @default.
W2790659413 cites W4238318416 @default.
W2790659413 cites W4241209760 @default.
W2790659413 cites W1883203816 @default.
W2790659413 doi "https://doi.org/10.1113/jp275680" @default.
W2790659413 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5978300" @default.
W2790659413 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29517809" @default.
W2790659413 hasPublicationYear "2018" @default.
W2790659413 type Work @default.
W2790659413 sameAs 2790659413 @default.
W2790659413 citedByCount "15" @default.
W2790659413 countsByYear W27906594132018 @default.
W2790659413 countsByYear W27906594132019 @default.
W2790659413 countsByYear W27906594132020 @default.
W2790659413 countsByYear W27906594132021 @default.
W2790659413 countsByYear W27906594132022 @default.
W2790659413 countsByYear W27906594132023 @default.
W2790659413 crossrefType "journal-article" @default.
W2790659413 hasAuthorship W2790659413A5036859891 @default.
W2790659413 hasAuthorship W2790659413A5058675078 @default.
W2790659413 hasBestOaLocation W27906594131 @default.
W2790659413 hasConcept C105702510 @default.
W2790659413 hasConcept C126322002 @default.
W2790659413 hasConcept C151626666 @default.
W2790659413 hasConcept C15744967 @default.
W2790659413 hasConcept C169760540 @default.
W2790659413 hasConcept C185263204 @default.
W2790659413 hasConcept C185592680 @default.
W2790659413 hasConcept C2779530196 @default.
W2790659413 hasConcept C2779918689 @default.
W2790659413 hasConcept C2781149210 @default.
W2790659413 hasConcept C46762472 @default.
W2790659413 hasConcept C529278444 @default.
W2790659413 hasConcept C542102704 @default.
W2790659413 hasConcept C54407271 @default.
W2790659413 hasConcept C545314008 @default.
W2790659413 hasConcept C71924100 @default.