Medicine and Dentistry
Anterior Cruciate Ligament Tear
100%
Deterioration
100%
Cell Expansion
100%
Fibrogenesis
100%
Myostatin
100%
Skeletal Muscle
100%
Limb
42%
Anterior Cruciate Ligament Injury
42%
Fibroblast
42%
Therapeutic Procedure
28%
Cells
28%
Analysis
28%
Injury
28%
Extracellular Matrix
28%
Laboratory
14%
Specimen
14%
Regulatory Mechanism
14%
Gene
14%
In Vitro
14%
Young Adult
14%
Fibrosis
14%
Receptor
14%
Study Design
14%
Fibronectin
14%
Muscle Biopsy
14%
Albendazole
14%
Glycine Dehydrogenase (Decarboxylating)
14%
Muscle Atrophy
14%
Collagen
14%
Collagen Type 1
14%
Procollagen
14%
Cancer Growth Factor
14%
Activin
14%
Therapeutics
14%
Nursing and Health Professions
Deterioration
100%
Cell Expansion
100%
Myostatin
100%
Anterior Cruciate Ligament Injury
42%
Analysis
28%
Injury
28%
Procedures
14%
Turnover Rate
14%
Laboratory
14%
Young Adult
14%
Return To Sport
14%
Muscle Atrophy
14%
Receptor
14%
Albendazole
14%
Collagen
14%
Fibronectin
14%
Glycine Dehydrogenase (Decarboxylating)
14%
Collagen Type 1
14%
Procollagen
14%
Muscle Biopsy
14%
Fibrosis
14%
Activin
14%
Cancer Growth Factor
14%
Biochemistry, Genetics and Molecular Biology
Skeletal Muscle
100%
Cell Expansion
100%
Fibrogenesis
100%
Myostatin
100%
Fibroblast
42%
Collagen
28%
Protein
14%
Study Design
14%
Gene
14%
Activin
14%
Regulatory Mechanism
14%
Cancer Growth Factor
14%
Fibronectin
14%
Neuroscience
Myostatin
100%
Skeletal Muscle
100%
Cell Expansion
100%
Fibroblast
42%
Extracellular Matrix
28%
Gene
14%
In Vitro
14%
Procollagen
14%
Fibronectin
14%
Glycine Dehydrogenase (Decarboxylating)
14%
Collagen Type 1
14%
Collagen
14%
Muscle Atrophy
14%
Activin
14%
Receptor
14%
Cancer Growth Factor
14%