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Microvesicles as Mediators of Tissue Regeneration
Keith Sabin
,
Nobuaki Kikyo
Genetics, Cell Biology and Development (TMED)
Transplant and Cellular Therapy
Research output
:
Chapter in Book/Report/Conference proceeding
›
Chapter
1
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Scopus citations
Overview
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Medicine and Dentistry
Mediator
100%
Stem Cell
100%
Tissue Regeneration
100%
In Vitro
33%
Serositis
33%
Programmed Cell Death
33%
Gene Expression
33%
microRNA
33%
Secretion (Process)
33%
Mesenchymal Stem Cell
33%
Cell Proliferation
33%
Medicine
33%
Host Cell
33%
Clinical Medicine
33%
Angiogenesis
33%
Mitochondrial Membrane Transport Protein
33%
Tissue Repair
33%
Messenger RNA
33%
Diseases
33%
Immunology and Microbiology
Stem Cell
100%
Mediator
100%
Tissue Regeneration
100%
Inflammation Response
33%
Tissue Repair
33%
Secretion (Process)
33%
Host Cell
33%
Cell Proliferation
33%
Gene Expression
33%
Mesenchymal Stem Cell
33%
Body Fluid
33%
Angiogenesis
33%
Programmed Cell Death
33%
In Vitro
33%
Pharmacology, Toxicology and Pharmaceutical Science
Tissue Repair
100%
microRNA
100%
Carrier Protein
100%
Inflammation
100%
Messenger RNA
100%
Diseases
100%
Keyphrases
Tissue Regeneration
100%
Microvesicles
100%
Stem Cells
50%
Regenerative Medicine
33%
Gene Expression
16%
Cell Proliferation
16%
Tissue Repair
16%
Angiogenesis
16%
MicroRNA
16%
In Vitro Study
16%
Apoptosis
16%
Host Cell
16%
Mesenchymal Stem Cells
16%
Inflammatory Response
16%
Clinical Medicine
16%
Soluble Factors
16%
Transfer Protein
16%
Recipient Cells
16%
Promising Applications
16%
Body Fluids
16%
Gene Differentiation
16%
Damaged Tissue
16%
Biochemistry, Genetics and Molecular Biology
Microvesicles
100%
Mediator
100%
Tissue Regeneration
100%
Stem Cell
66%
Animal Models
16%
MicroRNA
16%
In Vitro Study
16%
Transport Protein
16%
Gene Expression
16%
Secretion (Process)
16%
Cell Proliferation
16%
Tissue Repair
16%
Angiogenesis
16%
Messenger RNA
16%
Programmed Cell Death
16%
Neuroscience
Stem Cell
100%
MicroRNA
33%
Mesenchymal Stem Cell
33%
In Vitro
33%
Gene Expression
33%
Cell Proliferation
33%
Transport Protein
33%
Angiogenesis
33%
Messenger RNA
33%
Programmed Cell Death
33%