Neuroregeneration and functional recovery after stroke: advancing neural stem cell therapy toward clinical application

Stroke is a main cause of death and disability worldwide. The ability of the brain to self-repair in the acute and chronic phases after stroke is minimal; however, promising stem cell-based interventions are emerging that may give substantial and possibly complete recovery of brain function after st...

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Published in	Neural regeneration research Vol. 16; no. 1; pp. 80 - 92
Main Authors	Jiao, Yang, Liu, Yu-Wan, Chen, Wei-Gong, Liu, Jing
Format	Journal Article
Language	English
Published	India Wolters Kluwer India Pvt. Ltd 01.01.2021 Medknow Publications and Media Pvt. Ltd Medknow Publications & Media Pvt. Ltd Stem Cell Clinical Research Center,National Joint Engineering Laboratory,Regenerative Medicine Center,The First Affiliated Hospital of Dalian Medical University,Dalian,Liaoning Province,China Dalian Innovation Institute of Stem Cells and Precision Medicine,Dalian,Liaoning Province,China%Stem Cell Clinical Research Center,National Joint Engineering Laboratory,Regenerative Medicine Center,The First Affiliated Hospital of Dalian Medical University,Dalian,Liaoning Province,China Wolters Kluwer - Medknow Wolters Kluwer Medknow Publications
Subjects	Brain research brain; central nervous system; cognitive impairment; neurological function; plasticity; recovery; regeneration; stem cells; stroke Care and treatment Nervous system Neurological research Patient outcomes Regeneration Review Stem cells Stroke Stroke (Disease) Transplantation China stem cells neurological function regeneration plasticity cognitive impairment recovery brain stroke central nervous system
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Abstract	Stroke is a main cause of death and disability worldwide. The ability of the brain to self-repair in the acute and chronic phases after stroke is minimal; however, promising stem cell-based interventions are emerging that may give substantial and possibly complete recovery of brain function after stroke. Many animal models and clinical trials have demonstrated that neural stem cells (NSCs) in the central nervous system can orchestrate neurological repair through nerve regeneration, neuron polarization, axon pruning, neurite outgrowth, repair of myelin, and remodeling of the microenvironment and brain networks. Compared with other types of stem cells, NSCs have unique advantages in cell replacement, paracrine action, inflammatory regulation and neuroprotection. Our review summarizes NSC origins, characteristics, therapeutic mechanisms and repair processes, then highlights current research findings and clinical evidence for NSC therapy. These results may be helpful to inform the direction of future stroke research and to guide clinical decision-making.
AbstractList	Stroke is a main cause of death and disability worldwide. The ability of the brain to self-repair in the acute and chronic phases after stroke is minimal; however, promising stem cell-based interventions are emerging that may give substantial and possibly complete recovery of brain function after stroke. Many animal models and clinical trials have demonstrated that neural stem cells (NSCs) in the central nervous system can orchestrate neurological repair through nerve regeneration, neuron polarization, axon pruning, neurite outgrowth, repair of myelin, and remodeling of the microenvironment and brain networks. Compared with other types of stem cells, NSCs have unique advantages in cell replacement, paracrine action, inflammatory regulation and neuroprotection. Our review summarizes NSC origins, characteristics, therapeutic mechanisms and repair processes, then highlights current research findings and clinical evidence for NSC therapy. These results may be helpful to inform the direction of future stroke research and to guide clinical decision-making. Stroke is a main cause of death and disability worldwide. The ability of the brain to self-repair in the acute and chronic phases after stroke is minimal; however, promising stem cell-based interventions are emerging that may give substantial and possibly complete recovery of brain function after stroke. Many animal models and clinical trials have demonstrated that neural stem cells (NSCs) in the central nervous system can orchestrate neurological repair through nerve regeneration, neuron polarization, axon pruning, neurite outgrowth, repair of myelin, and remodeling of the microenvironment and brain networks. Compared with other types of stem cells, NSCs have unique advantages in cell replacement, paracrine action, inflammatory regulation and neuroprotection. Our review summarizes NSC origins, characteristics, therapeutic mechanisms and repair processes, then highlights current research findings and clinical evidence for NSC therapy. These results may be helpful to inform the direction of future stroke research and to guide clinical decision-making.Stroke is a main cause of death and disability worldwide. The ability of the brain to self-repair in the acute and chronic phases after stroke is minimal; however, promising stem cell-based interventions are emerging that may give substantial and possibly complete recovery of brain function after stroke. Many animal models and clinical trials have demonstrated that neural stem cells (NSCs) in the central nervous system can orchestrate neurological repair through nerve regeneration, neuron polarization, axon pruning, neurite outgrowth, repair of myelin, and remodeling of the microenvironment and brain networks. Compared with other types of stem cells, NSCs have unique advantages in cell replacement, paracrine action, inflammatory regulation and neuroprotection. Our review summarizes NSC origins, characteristics, therapeutic mechanisms and repair processes, then highlights current research findings and clinical evidence for NSC therapy. These results may be helpful to inform the direction of future stroke research and to guide clinical decision-making.
Audience	Academic
Author	Liu, Yu-Wan Liu, Jing Jiao, Yang Chen, Wei-Gong
AuthorAffiliation	Stem Cell Clinical Research Center,National Joint Engineering Laboratory,Regenerative Medicine Center,The First Affiliated Hospital of Dalian Medical University,Dalian,Liaoning Province,China;Dalian Innovation Institute of Stem Cells and Precision Medicine,Dalian,Liaoning Province,China%Stem Cell Clinical Research Center,National Joint Engineering Laboratory,Regenerative Medicine Center,The First Affiliated Hospital of Dalian Medical University,Dalian,Liaoning Province,China
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/32788451$$D View this record in MEDLINE/PubMed
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Keywords	stem cells neurological function regeneration plasticity cognitive impairment recovery brain stroke central nervous system
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Publisher	Wolters Kluwer India Pvt. Ltd Medknow Publications and Media Pvt. Ltd Medknow Publications & Media Pvt. Ltd Stem Cell Clinical Research Center,National Joint Engineering Laboratory,Regenerative Medicine Center,The First Affiliated Hospital of Dalian Medical University,Dalian,Liaoning Province,China Dalian Innovation Institute of Stem Cells and Precision Medicine,Dalian,Liaoning Province,China%Stem Cell Clinical Research Center,National Joint Engineering Laboratory,Regenerative Medicine Center,The First Affiliated Hospital of Dalian Medical University,Dalian,Liaoning Province,China Wolters Kluwer - Medknow Wolters Kluwer Medknow Publications
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Snippet	Stroke is a main cause of death and disability worldwide. The ability of the brain to self-repair in the acute and chronic phases after stroke is minimal;...
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SubjectTerms	Brain research brain; central nervous system; cognitive impairment; neurological function; plasticity; recovery; regeneration; stem cells; stroke Care and treatment Nervous system Neurological research Patient outcomes Regeneration Review Stem cells Stroke Stroke (Disease) Transplantation
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Title	Neuroregeneration and functional recovery after stroke: advancing neural stem cell therapy toward clinical application
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