SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2002864022> ?p ?o ?g. }

Showing items 1 to 100 of ±149 with 100 items per page.

W2002864022 endingPage "25" @default.
W2002864022 startingPage "14" @default.
W2002864022 abstract "Cell therapy has enormous potential to restore neurological function after stroke. The present study investigated effects of conditionally immortalised neural stem cells (ciNSCs), the Maudsley hippocampal murine neural stem cell line clone 36 (MHP36), on sensorimotor and histological outcome in mice subjected to transient middle cerebral artery occlusion (MCAO). Adult male C57BL/6 mice underwent MCAO by intraluminal thread or sham surgery and MHP36 cells or vehicle were implanted into ipsilateral cortex and caudate 2 days later. Functional recovery was assessed for 28 days using cylinder and ladder rung tests and tissue analysed for plasticity, differentiation and infarct size. MHP36-implanted animals showed accelerated and augmented functional recovery and an increase in neurons (MAP-2), synaptic plasticity (synaptophysin) and axonal projections (GAP-43) but no difference in astrocytes (GFAP), oligodendrocytes (CNPase), microglia (IBA-1) or lesion volumes when compared to vehicle group. This is the first study showing a potential functional benefit of the ciNSCs, MHP36, after focal MCAO in mice, which is probably mediated by promoting neuronal differentiation, synaptic plasticity and axonal projections and opens up opportunities for future exploitation of genetically altered mice for dissection of mechanisms of stem cell based therapy." @default.
W2002864022 created "2016-06-24" @default.
W2002864022 creator A5041968296 @default.
W2002864022 creator A5045439312 @default.
W2002864022 creator A5062075612 @default.
W2002864022 creator A5071625043 @default.
W2002864022 creator A5090418141 @default.
W2002864022 date "2012-01-01" @default.
W2002864022 modified "2023-10-16" @default.
W2002864022 title "Conditionally immortalised neural stem cells promote functional recovery and brain plasticity after transient focal cerebral ischaemia in mice" @default.
W2002864022 cites W139494526 @default.
W2002864022 cites W1963719591 @default.
W2002864022 cites W1964451213 @default.
W2002864022 cites W1964691436 @default.
W2002864022 cites W1966484579 @default.
W2002864022 cites W1966702161 @default.
W2002864022 cites W1967958787 @default.
W2002864022 cites W1974173343 @default.
W2002864022 cites W1974662613 @default.
W2002864022 cites W1982701031 @default.
W2002864022 cites W1986805000 @default.
W2002864022 cites W1993937042 @default.
W2002864022 cites W1996449402 @default.
W2002864022 cites W2001454942 @default.
W2002864022 cites W2003865749 @default.
W2002864022 cites W2006139398 @default.
W2002864022 cites W2009740169 @default.
W2002864022 cites W2013735929 @default.
W2002864022 cites W2016192397 @default.
W2002864022 cites W2016503770 @default.
W2002864022 cites W2018629576 @default.
W2002864022 cites W2018708343 @default.
W2002864022 cites W2019554063 @default.
W2002864022 cites W2036480458 @default.
W2002864022 cites W2038625220 @default.
W2002864022 cites W2038636807 @default.
W2002864022 cites W2038964494 @default.
W2002864022 cites W2048597358 @default.
W2002864022 cites W2055670245 @default.
W2002864022 cites W2056994529 @default.
W2002864022 cites W2058569062 @default.
W2002864022 cites W2063468436 @default.
W2002864022 cites W2063778749 @default.
W2002864022 cites W2064011707 @default.
W2002864022 cites W2069032899 @default.
W2002864022 cites W2071147072 @default.
W2002864022 cites W2071483359 @default.
W2002864022 cites W2075857285 @default.
W2002864022 cites W2079426300 @default.
W2002864022 cites W2081456772 @default.
W2002864022 cites W2084388307 @default.
W2002864022 cites W2086051118 @default.
W2002864022 cites W2088299611 @default.
W2002864022 cites W2089136890 @default.
W2002864022 cites W2093910965 @default.
W2002864022 cites W2098724363 @default.
W2002864022 cites W2098948405 @default.
W2002864022 cites W2100167607 @default.
W2002864022 cites W2101624983 @default.
W2002864022 cites W2102231689 @default.
W2002864022 cites W2116715929 @default.
W2002864022 cites W2117597191 @default.
W2002864022 cites W2120063527 @default.
W2002864022 cites W2121251039 @default.
W2002864022 cites W2129006023 @default.
W2002864022 cites W2138558695 @default.
W2002864022 cites W2147015050 @default.
W2002864022 cites W2150110701 @default.
W2002864022 cites W2152845218 @default.
W2002864022 cites W2164878533 @default.
W2002864022 cites W2166487601 @default.
W2002864022 cites W2168341415 @default.
W2002864022 cites W2411523326 @default.
W2002864022 cites W4237460452 @default.
W2002864022 cites W4366658056 @default.
W2002864022 doi "https://doi.org/10.1016/j.scr.2011.07.001" @default.
W2002864022 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22099017" @default.
W2002864022 hasPublicationYear "2012" @default.
W2002864022 type Work @default.
W2002864022 sameAs 2002864022 @default.
W2002864022 citedByCount "21" @default.
W2002864022 countsByYear W20028640222013 @default.
W2002864022 countsByYear W20028640222014 @default.
W2002864022 countsByYear W20028640222015 @default.
W2002864022 countsByYear W20028640222017 @default.
W2002864022 countsByYear W20028640222018 @default.
W2002864022 countsByYear W20028640222019 @default.
W2002864022 countsByYear W20028640222021 @default.
W2002864022 countsByYear W20028640222022 @default.
W2002864022 countsByYear W20028640222023 @default.
W2002864022 crossrefType "journal-article" @default.
W2002864022 hasAuthorship W2002864022A5041968296 @default.
W2002864022 hasAuthorship W2002864022A5045439312 @default.
W2002864022 hasAuthorship W2002864022A5062075612 @default.
W2002864022 hasAuthorship W2002864022A5071625043 @default.
W2002864022 hasAuthorship W2002864022A5090418141 @default.
W2002864022 hasConcept C136834591 @default.
W2002864022 hasConcept C142724271 @default.