SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2020444897> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W2020444897 endingPage "1484" @default.
W2020444897 startingPage "1474" @default.
W2020444897 abstract "Subthalamic nucleus (STN) modulation is currently the gold standard in the treatment of Parkinson's disease (PD) cases refractory to medication. Cell transplantation is a tissue-restorative approach and is a promising strategy in the treatment of PD. One of the obstacles to overcome in cell therapy is the poor dopaminergic cell survival. Our experiment investigates the impact of a partial subthalamotomy prior to ventral mesencephalic (VM) embryonic cell transplantation on dopaminergic cell survival and functional outcome. Unilateral dopamine depletion was carried out in rats, via medial forebrain bundle (MFB) injection of 6-hydroxydopamine, and half of the animals went on to receive unilateral excitotoxic lesions of the STN/Zone Incerta (ZI) causing partial lesion of these structures on the same side as the MFB lesion. All MFB-lesioned animals, with or without the STN/ZI lesion, received striatal ipsilateral embryonic VM cell grafts. The data suggest that the STN/ZI lesion could boost the dopamine cell survival in the grafts by 2.6-fold compared with the control grafted-only group. Moreover, performance on the drug-induced rotation and the spontaneous behavior tests were ameliorated on the STN/ZI-lesioned group to a significantly greater extent than the grafted-only group. These data suggest that the STN/ZI partial lesion optimized the striatal environment, promoting an improvement in cell survival. Further studies are needed to see whether the synergy between STN modulation via deep brain stimulation and cell therapy might have clinical applications in the management of PD." @default.
W2020444897 created "2016-06-24" @default.
W2020444897 creator A5011743185 @default.
W2020444897 creator A5012483781 @default.
W2020444897 creator A5041405337 @default.
W2020444897 creator A5058038254 @default.
W2020444897 creator A5058565117 @default.
W2020444897 creator A5058797497 @default.
W2020444897 creator A5069297480 @default.
W2020444897 creator A5083173200 @default.
W2020444897 date "2014-03-14" @default.
W2020444897 modified "2023-10-17" @default.
W2020444897 title "Subthalamic nucleus lesion improves cell survival and functional recovery following dopaminergic cell transplantation in parkinsonian rats" @default.
W2020444897 cites W1014586844 @default.
W2020444897 cites W1811706139 @default.
W2020444897 cites W1963864144 @default.
W2020444897 cites W1967828174 @default.
W2020444897 cites W1971978150 @default.
W2020444897 cites W1975067616 @default.
W2020444897 cites W1978802875 @default.
W2020444897 cites W1982599772 @default.
W2020444897 cites W1982827121 @default.
W2020444897 cites W1983137640 @default.
W2020444897 cites W1985578899 @default.
W2020444897 cites W1986592378 @default.
W2020444897 cites W1986868939 @default.
W2020444897 cites W1987619728 @default.
W2020444897 cites W1988275121 @default.
W2020444897 cites W1996231844 @default.
W2020444897 cites W2001586906 @default.
W2020444897 cites W2003859324 @default.
W2020444897 cites W2004506436 @default.
W2020444897 cites W2011692453 @default.
W2020444897 cites W2013859748 @default.
W2020444897 cites W2016948132 @default.
W2020444897 cites W2018407199 @default.
W2020444897 cites W2019452853 @default.
W2020444897 cites W2021048089 @default.
W2020444897 cites W2024411580 @default.
W2020444897 cites W2028904201 @default.
W2020444897 cites W2031170958 @default.
W2020444897 cites W2038640237 @default.
W2020444897 cites W2041591122 @default.
W2020444897 cites W2042928525 @default.
W2020444897 cites W2044069219 @default.
W2020444897 cites W2044530383 @default.
W2020444897 cites W2045831001 @default.
W2020444897 cites W2046047050 @default.
W2020444897 cites W2048177679 @default.
W2020444897 cites W2054520155 @default.
W2020444897 cites W2061079288 @default.
W2020444897 cites W2065564530 @default.
W2020444897 cites W2065645171 @default.
W2020444897 cites W2066680759 @default.
W2020444897 cites W2070577084 @default.
W2020444897 cites W2072741624 @default.
W2020444897 cites W2073377890 @default.
W2020444897 cites W2075021671 @default.
W2020444897 cites W2076753818 @default.
W2020444897 cites W2077781697 @default.
W2020444897 cites W2086766024 @default.
W2020444897 cites W2088244618 @default.
W2020444897 cites W2088495343 @default.
W2020444897 cites W2092115378 @default.
W2020444897 cites W2099902873 @default.
W2020444897 cites W2100367943 @default.
W2020444897 cites W2105192009 @default.
W2020444897 cites W2105560147 @default.
W2020444897 cites W2105688544 @default.
W2020444897 cites W2106108170 @default.
W2020444897 cites W2106551946 @default.
W2020444897 cites W2109016126 @default.
W2020444897 cites W2109563242 @default.
W2020444897 cites W2111624468 @default.
W2020444897 cites W2118353064 @default.
W2020444897 cites W2119148931 @default.
W2020444897 cites W2123068902 @default.
W2020444897 cites W2133233547 @default.
W2020444897 cites W2138196107 @default.
W2020444897 cites W2138462240 @default.
W2020444897 cites W2138498802 @default.
W2020444897 cites W2142625367 @default.
W2020444897 cites W2151143710 @default.
W2020444897 cites W2151976530 @default.
W2020444897 cites W2156756890 @default.
W2020444897 cites W2166496419 @default.
W2020444897 cites W2170302201 @default.
W2020444897 cites W2334461448 @default.
W2020444897 cites W2414498655 @default.
W2020444897 cites W4231677736 @default.
W2020444897 cites W4376633690 @default.
W2020444897 doi "https://doi.org/10.1111/ejn.12541" @default.
W2020444897 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24628951" @default.
W2020444897 hasPublicationYear "2014" @default.
W2020444897 type Work @default.
W2020444897 sameAs 2020444897 @default.
W2020444897 citedByCount "12" @default.
W2020444897 countsByYear W20204448972015 @default.