Homing of stem cells to sites of inflammatory brain injury after intracerebral and intravenous administration: A longitudinal imaging study

10.1186/scrt17

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Main Authors:	Jackson, J.S, Golding, J.P, Chapon, C, Jones, W.A, Bhakoo, K.K
Other Authors:	ORTHOPAEDIC SURGERY
Format:	Article
Published:	BMC 2020
Subjects:	fluorescein isothiocyanate glial fibrillary acidic protein iron oxide isolectin B4 nanoparticle transcription factor Sox10 animal cell animal experiment animal model article autopsy bone marrow cell brain injury cell differentiation cell homing cell lineage cell migration cell transplantation cellular distribution controlled study corpus callosum corpus striatum encephalitis fluorescence microscopy glia cell hair follicle histopathology immunohistochemistry in situ hybridization in vivo study longitudinal study male minimally invasive procedure neural crest cell nonhuman nuclear magnetic resonance imaging phenotype priority journal rat right hemisphere stem cell Administration, Intravenous Animals Bone Marrow Cells Brain Brain Injuries Cell Differentiation Cell Movement Cell- and Tissue-Based Therapy Corpus Callosum Demyelinating Diseases Ferric Compounds Hair Follicle Lipopolysaccharides Magnetic Resonance Imaging Metal Nanoparticles Microscopy, Fluorescence Neural Crest Neurodegenerative Diseases Neuroglia Rats Rats, Sprague-Dawley SOXE Transcription Factors Stem Cell Transplantation Stem Cells Transplantation, Autologous Animalia Rattus
Online Access:	https://scholarbank.nus.edu.sg/handle/10635/178193
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Institution:	National University of Singapore

id	sg-nus-scholar.10635-178193
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spelling	sg-nus-scholar.10635-1781932024-04-18T06:55:29Z Homing of stem cells to sites of inflammatory brain injury after intracerebral and intravenous administration: A longitudinal imaging study Jackson, J.S Golding, J.P Chapon, C Jones, W.A Bhakoo, K.K ORTHOPAEDIC SURGERY fluorescein isothiocyanate glial fibrillary acidic protein iron oxide isolectin B4 nanoparticle transcription factor Sox10 animal cell animal experiment animal model article autopsy bone marrow cell brain injury cell differentiation cell homing cell lineage cell migration cell transplantation cellular distribution controlled study corpus callosum corpus striatum encephalitis fluorescence microscopy glia cell hair follicle histopathology immunohistochemistry in situ hybridization in vivo study longitudinal study male minimally invasive procedure neural crest cell nonhuman nuclear magnetic resonance imaging phenotype priority journal rat right hemisphere stem cell Administration, Intravenous Animals Bone Marrow Cells Brain Brain Injuries Cell Differentiation Cell Movement Cell- and Tissue-Based Therapy Corpus Callosum Demyelinating Diseases Ferric Compounds Hair Follicle Lipopolysaccharides Magnetic Resonance Imaging Metal Nanoparticles Microscopy, Fluorescence Neural Crest Neurodegenerative Diseases Neuroglia Rats Rats, Sprague-Dawley SOXE Transcription Factors Stem Cell Transplantation Stem Cells Transplantation, Autologous Animalia Rattus 10.1186/scrt17 Stem Cell Research and Therapy 1 2 17 2020-10-20T08:17:46Z 2020-10-20T08:17:46Z 2010 Article Jackson, J.S, Golding, J.P, Chapon, C, Jones, W.A, Bhakoo, K.K (2010). Homing of stem cells to sites of inflammatory brain injury after intracerebral and intravenous administration: A longitudinal imaging study. Stem Cell Research and Therapy 1 (2) : 17. ScholarBank@NUS Repository. https://doi.org/10.1186/scrt17 1757-6512 https://scholarbank.nus.edu.sg/handle/10635/178193 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ BMC Unpaywall 20201031
institution	National University of Singapore
building	NUS Library
continent	Asia
country	Singapore Singapore
content_provider	NUS Library
collection	ScholarBank@NUS
topic	fluorescein isothiocyanate glial fibrillary acidic protein iron oxide isolectin B4 nanoparticle transcription factor Sox10 animal cell animal experiment animal model article autopsy bone marrow cell brain injury cell differentiation cell homing cell lineage cell migration cell transplantation cellular distribution controlled study corpus callosum corpus striatum encephalitis fluorescence microscopy glia cell hair follicle histopathology immunohistochemistry in situ hybridization in vivo study longitudinal study male minimally invasive procedure neural crest cell nonhuman nuclear magnetic resonance imaging phenotype priority journal rat right hemisphere stem cell Administration, Intravenous Animals Bone Marrow Cells Brain Brain Injuries Cell Differentiation Cell Movement Cell- and Tissue-Based Therapy Corpus Callosum Demyelinating Diseases Ferric Compounds Hair Follicle Lipopolysaccharides Magnetic Resonance Imaging Metal Nanoparticles Microscopy, Fluorescence Neural Crest Neurodegenerative Diseases Neuroglia Rats Rats, Sprague-Dawley SOXE Transcription Factors Stem Cell Transplantation Stem Cells Transplantation, Autologous Animalia Rattus
spellingShingle	fluorescein isothiocyanate glial fibrillary acidic protein iron oxide isolectin B4 nanoparticle transcription factor Sox10 animal cell animal experiment animal model article autopsy bone marrow cell brain injury cell differentiation cell homing cell lineage cell migration cell transplantation cellular distribution controlled study corpus callosum corpus striatum encephalitis fluorescence microscopy glia cell hair follicle histopathology immunohistochemistry in situ hybridization in vivo study longitudinal study male minimally invasive procedure neural crest cell nonhuman nuclear magnetic resonance imaging phenotype priority journal rat right hemisphere stem cell Administration, Intravenous Animals Bone Marrow Cells Brain Brain Injuries Cell Differentiation Cell Movement Cell- and Tissue-Based Therapy Corpus Callosum Demyelinating Diseases Ferric Compounds Hair Follicle Lipopolysaccharides Magnetic Resonance Imaging Metal Nanoparticles Microscopy, Fluorescence Neural Crest Neurodegenerative Diseases Neuroglia Rats Rats, Sprague-Dawley SOXE Transcription Factors Stem Cell Transplantation Stem Cells Transplantation, Autologous Animalia Rattus Jackson, J.S Golding, J.P Chapon, C Jones, W.A Bhakoo, K.K Homing of stem cells to sites of inflammatory brain injury after intracerebral and intravenous administration: A longitudinal imaging study
description	10.1186/scrt17
author2	ORTHOPAEDIC SURGERY
author_facet	ORTHOPAEDIC SURGERY Jackson, J.S Golding, J.P Chapon, C Jones, W.A Bhakoo, K.K
format	Article
author	Jackson, J.S Golding, J.P Chapon, C Jones, W.A Bhakoo, K.K
author_sort	Jackson, J.S
title	Homing of stem cells to sites of inflammatory brain injury after intracerebral and intravenous administration: A longitudinal imaging study
title_short	Homing of stem cells to sites of inflammatory brain injury after intracerebral and intravenous administration: A longitudinal imaging study
title_full	Homing of stem cells to sites of inflammatory brain injury after intracerebral and intravenous administration: A longitudinal imaging study
title_fullStr	Homing of stem cells to sites of inflammatory brain injury after intracerebral and intravenous administration: A longitudinal imaging study
title_full_unstemmed	Homing of stem cells to sites of inflammatory brain injury after intracerebral and intravenous administration: A longitudinal imaging study
title_sort	homing of stem cells to sites of inflammatory brain injury after intracerebral and intravenous administration: a longitudinal imaging study
publisher	BMC
publishDate	2020
url	https://scholarbank.nus.edu.sg/handle/10635/178193
_version_	1800914481212030976

Homing of stem cells to sites of inflammatory brain injury after intracerebral and intravenous administration: A longitudinal imaging study

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