1R09 Relationship between ground reaction force and bone hypertrophy in rats performing a jumping exercise
スポンサーリンク
概要
著者
-
Honda Akiko
Laboratory For Exercise Physiology And Biomechanics School Of Health And Sport Sciences Chukyo Unive
-
Nagasawa Seigo
Laboratory For Exercise Physiology And Biomechanics School Of Health And Sport Sciences Chukyo Unive
-
Nagasawa Seigo
School Of Health And Sport Sciences Chukyo University
-
Umemura Yoshihisa
Laboratory For Exercise Physiology And Biomechanics School Of Health And Sport Sciences Chukyo Unive
-
Umemura Yoshihisa
School Of Health And Sport Sciences Chukyo University
-
SOGO Naota
School of International Liberal Studies, Chukyo University
-
HONDA Akiko
School of Health and Sport Sciences, Chukyo University
-
SATO Haruka
School of Health and Sport Sciences, Chukyo University
-
Sogo Naota
School Of International Liberal Studies Chukyo University
-
Sato Haruka
School Of Health And Sport Sciences Chukyo University
関連論文
- A time course of bone response to jump exercise in C57BL/6J mice
- Microarray analysis of the liver in metallothionein-III null mice treated with cadmium
- Resistance of metallothionein-III null mice to cadmium-induced acute hepatotoxicity
- DNA microarray analysis of transcriptional responses of mouse spinal cords to physical exercise(Toxicogenomics/proteomics Report)
- DNA microarray gene expression analysis of human vascular endothelial cells exposed to arsenite
- A Few Separated Jump Training Sessions Three Times Per Week Increase Bone Strength in Rats
- DNA microarray analysis of human coronary artery endothelial cells exposed to cadmium
- DNA microarray analysis of normal rat kidney epithelial cells treated with cadmium
- Effects of low-repetition jump exercise on osteogenic response in rats
- (E60911) Effect of High-Impact Training on Bones in Ovariectomized Rats
- High-impact exercise frequency per week or day for osteogenic response in rats
- Varying Interval between Loading Within 24 hours did not Influence on the Osteogenic Response to Jump Exercise in Rats
- 1R09 Relationship between ground reaction force and bone hypertrophy in rats performing a jumping exercise
- Effect of dental amalgam on gene expression profiles in rat cerebrum, cerebellum, liver and kidney
- Non-uniform decay in jumping exercise-induced bone gains following 12 and 24 weeks of cessation of exercise in rats
- Distribution of mercury in metallothionein-null mice after exposure to mercury vapor : amount of metallothionein isoform does not affect accumulation of mercury in the brain
- Bone Hypertrophy in Rats : Effects of Jump Number and Height
- Emergence of delayed behavioral effects in offspring mice exposed to low levels of mercury vapor during the lactation period
- DNA microarray analysis of hepatic gene expression in mice exposed to cadmium for 30 days