Acid-sensing ion channel 1 blockade preserves brain microstructural integrity in patients with multiple sclerosis

Bibliographic Details
Main Authors:	de Ruiter, M, Tomassini, V, Arun, T, Jbabdi, S, Matthews, L, Sbardella, E, Gelineau-Morel, R, Leite, M, Jenkinson, M, Johansen-Berg, H, Palace, J
Format:	Journal article
Published:	2011

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author	de Ruiter, M Tomassini, V Arun, T Jbabdi, S Matthews, L Sbardella, E Gelineau-Morel, R Leite, M Jenkinson, M Johansen-Berg, H Palace, J
author_facet	de Ruiter, M Tomassini, V Arun, T Jbabdi, S Matthews, L Sbardella, E Gelineau-Morel, R Leite, M Jenkinson, M Johansen-Berg, H Palace, J
author_sort	de Ruiter, M
collection	OXFORD
description
first_indexed	2024-03-07T00:16:17Z
format	Journal article
id	oxford-uuid:7af34684-33ce-47a7-b39d-88222400e0fe
institution	University of Oxford
last_indexed	2024-03-07T00:16:17Z
publishDate	2011
record_format	dspace
spelling	oxford-uuid:7af34684-33ce-47a7-b39d-88222400e0fe2022-03-26T20:47:23ZAcid-sensing ion channel 1 blockade preserves brain microstructural integrity in patients with multiple sclerosisJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:7af34684-33ce-47a7-b39d-88222400e0feSymplectic Elements at Oxford2011de Ruiter, MTomassini, VArun, TJbabdi, SMatthews, LSbardella, EGelineau-Morel, RLeite, MJenkinson, MJohansen-Berg, HPalace, J
spellingShingle	de Ruiter, M Tomassini, V Arun, T Jbabdi, S Matthews, L Sbardella, E Gelineau-Morel, R Leite, M Jenkinson, M Johansen-Berg, H Palace, J Acid-sensing ion channel 1 blockade preserves brain microstructural integrity in patients with multiple sclerosis
title	Acid-sensing ion channel 1 blockade preserves brain microstructural integrity in patients with multiple sclerosis
title_full	Acid-sensing ion channel 1 blockade preserves brain microstructural integrity in patients with multiple sclerosis
title_fullStr	Acid-sensing ion channel 1 blockade preserves brain microstructural integrity in patients with multiple sclerosis
title_full_unstemmed	Acid-sensing ion channel 1 blockade preserves brain microstructural integrity in patients with multiple sclerosis
title_short	Acid-sensing ion channel 1 blockade preserves brain microstructural integrity in patients with multiple sclerosis
title_sort	acid sensing ion channel 1 blockade preserves brain microstructural integrity in patients with multiple sclerosis
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Acid-sensing ion channel 1 blockade preserves brain microstructural integrity in patients with multiple sclerosis

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