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Low intensity laser therapy accelerates muscle regeneration in aged rats
Fatma Vatansever
, Natalia C. Rodrigues
, Livia L. Assis
, Sabrina S. Peviani
, Joao L. Durigan
, Fernando M.A. Moreira
,
Michael R. Hamblin
, Nivaldo A. Parizotto
Massachusetts General Hospital
Harvard University
Universidade Federal de São Carlos
Harvard-MIT Division of Health Sciences and Technology
Research output
:
Contribution to journal
›
Article
›
peer-review
27
Citations (Scopus)
Overview
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Neuroscience
Vascular Endothelial Growth Factor
100%
MyoD
100%
Myogenic Regulatory Factors
100%
Central Nervous System
50%
Real-Time Polymerase Chain Reaction
50%
Staining Technique
50%
Transcription Factors
50%
Laser Application
50%
Gene Expression
50%
Muscle Disorder
50%
Haematoxylin
50%
Skeletal Muscle
50%
Myoblast
50%
Peripheral Nervous System
50%
Biochemistry, Genetics and Molecular Biology
Laser
100%
Muscle Regeneration
100%
Vascular Endothelial Growth Factor
66%
MyoD
66%
Myogenic Regulatory Factors
66%
Messenger RNA
33%
Regeneration
33%
Real-Time Polymerase Chain Reaction
33%
Transcription Factors
33%
Maturation
33%
Wistar Rat
33%
Gene Expression Level
33%
Eosin
33%
Skeletal Muscle
33%
Perfusion
33%
Blood Cell Count
33%
Keyphrases
Aged Rats
100%
Cryoinjury
60%
Myogenic Regulatory Factors
40%
VEGF Gene
40%
Satellite Cells
40%
Blood Count
20%
Skeletal Disorders
20%
Atrophy
20%
MyoD
20%
MyoD Gene
20%
Hypoperfusion
20%
Reparative Changes
20%
Daily Activities
20%
Elderly People
20%
Specific Transcription Factor
20%
Muscle Weakness
20%
Young Rats
20%
Myoblast
20%
Sarcopenia
20%
Pharmacology, Toxicology and Pharmaceutical Science
Cold Injury
100%
Vasculotropin
66%
Myogenic Factor
66%
Tolonium Chloride
33%
Wistar Rat
33%
Injury
33%
Muscle Disease
33%
Transcription Factors
33%
Haematoxylin
33%
Eosin
33%
Muscle Weakness
33%
Sarcopenia
33%