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Bone Plasticity in Response to Exercise Is Sex-Dependent in Rats
Wagner S. Vicente
, Luciene M. dos Reis
, Rafael G. Graciolli
, Fabiana G. Graciolli
, Wagner V. Dominguez
, Charles C. Wang
,
Tatiana L. Fonseca
, Ana P. Velosa
, Hamilton Roschel
, Walcy R. Teodoro
, Bruno Gualano
, Vanda Jorgetti
Research output
:
Contribution to journal
›
Article
›
peer-review
15
Link opens in a new tab
Scopus citations
Overview
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Keyphrases
MRNA Expression
100%
Response Exercise
100%
Male Rats
100%
Sex-dependent
100%
Female Rats
50%
Sexual Dimorphism
50%
Sex Effect
50%
Resilience
50%
Training Effect
50%
Bone Structure
50%
Histomorphometric Analysis
50%
COL-I
50%
Tartrate-resistant Acid Phosphatase
50%
Sex Comparison
50%
Quantitative PCR
25%
Bone Formation
25%
Bone Resorption
25%
Molecular Signaling
25%
Wistar Rats
25%
Type I Collagen
25%
Young Males
25%
Young Female
25%
Femur
25%
Stiffness
25%
Osteocyte
25%
Force Loading
25%
Maximal Speed
25%
Bone Remodeling
25%
Pearson Correlation Analysis
25%
Mechanical Testing
25%
Structure Formation
25%
Mineral Apposition Rate
25%
Female Wistar Rats
25%
Bone Formation Rate
25%
Maximum Speed
25%
Differential Adaptation
25%
Submaximal Test
25%
Maximal Force
25%
Trabecular Thickness
25%
Speed Test
25%
Training Load
25%
Fracture Load
25%
Immunology and Microbiology
Real-Time Polymerase Chain Reaction
100%
Ossification
100%
Bone Structure
100%
Sex Differences
100%
Phosphatase
100%
Wistar Rat
50%
Osteolysis
50%
Rigidity
50%
Bone Remodeling
50%
Osteocyte
50%
Mechanical Stimulus Test
50%
Medicine and Dentistry
Messenger RNA
100%
Real-Time Polymerase Chain Reaction
50%
Ossification
50%
Acid Phosphatase Tartrate Resistant Isoenzyme
50%
Bone Structure
50%
Sex Differences
50%
Osteolysis
25%
Collagen Type 1
25%
Exercise Test
25%
Osteocyte
25%
Osteoplasty
25%
Bone Remodeling
25%
Mechanical Stimulus Test
25%
Biochemistry, Genetics and Molecular Biology
Messenger RNA
100%
Real-Time Polymerase Chain Reaction
50%
Tartrate-Resistant Acid Phosphatase
50%
Sex Differences
50%
Type I Collagen
25%
Wistar Rat
25%
Ossification
25%
Rigidity
25%
Bone Remodeling
25%
Osteocyte
25%
Mechanical Stimulus Test
25%
Neuroscience
Messenger RNA
100%
Female Rats
50%
Real-Time Polymerase Chain Reaction
50%
Acid Phosphatase Tartrate Resistant Isoenzyme
50%
Collagen Type 1
25%