Educe University Faculty Information

Present specialized field
Academic background
Business career
Book and thesis
Developed teaching materials, textbooks, reference books

（Last updated : 2026-02-13 15:36:26）

OGATA Tomonori
Hiroshima shudo University The Faculty of Human Environmental Studies

Professor

■ Present specialized field

●Specialized field
Exercise physiology, Sports science, Applied health science
●Keyword
●The main research themes
●Capable of joint research and research consultation content

■ Academic background

1.	～2001/03	Kumamoto University Faculty of Education Graduated
2.	2001/04～2006/03	University of Tsukuba 〔Doctoral course〕 Completed

■ Business career

1.	2010/04～2012/03	Hiroshima shudo University The Faculty of Human Environmental Studies Assistant Professor
2.	2012/04～2017/03	Hiroshima shudo University The Faculty of Human Environmental Studies Associate Professor
3.	2017/04～	Hiroshima shudo University The Faculty of Human Environmental Studies Professor

■ Book and thesis

1.	Book	Basic Biology and Current Understanding of Skeletal Muscle: Functional Role of Heat Shock Proteins in Skeletal Muscle (Collaboration) 2013/09
2.	Book	Current Research Trends in Skeletal Muscle.　7. The role of heat shock proteins in skeletal muscle (Collaboration) 2012/05
3.	Thesis	Classical-simple-chemical system for 5’-hydroxymethylfurfural recovery formed during the hydrothermal treatment of saccharide materials. (Collaboration) 2025/06
4.	Thesis	Heat stress has no effects on activation of MAPK proteins (Collaboration) 2022/09
5.	Thesis	Functions and Availability of HSP72 in Skeletal Muscle (Single) 2021/02
6.	Thesis	Environmentally friendly, hydrothermal treatment of mixed fabric wastes containing polyester, cotton, and wool fibers (Collaboration) 2020/06
7.	Thesis	Production of 5′-hydroxymethylfurfural by the hydrothermal treatment of cotton fabric wastes using a pilot-plant scale flow reactor. (Collaboration) 2020/06
8.	Thesis	Phosphorylated ERK1/2 protein levels are closely associated with the fast fiber phenotypes in rat hindlimb skeletal muscles (Collaboration) 2019/05
9.	Thesis	Heat stress effects on the myosin heavy chain phenotype of rat soleus fibers during the early stages of regeneration. (Collaboration) 2015/12
10.	Thesis	Skeletal muscle fiber plasticity: Heat shock proteins and satellite cell activation. (Collaboration) 2012/09
11.	Thesis	The role of autophagy in skeletal muscle homeostasis (Single) 2012/05
12.	Thesis	Effects of Genetic Variations in HIF-1α on Physiological Response to Hypoxia (Collaboration) 2011/11
13.	Thesis	Fasting-related autophagic response in slow- and fast-twitch skeletal muscle. (Collaboration) 2010/03
14.	Thesis	Differential cell death regulations between adult-unloaded and aged rat soleus muscle. (Collaboration) 2009/05
15.	Thesis	Prolonged exercise training induces long-term enhancement of HSP70 expression in rat plantaris muscle (Collaboration) 2009/05
16.	Thesis	Cellular adaptations in soleus muscle during recovery after hindlimb unloading. (Collaboration) 2008/04
17.	Thesis	Effects of T3 treatment on HSP72 and calcineurin content of functionally overloaded rat plantaris muscle. (Collaboration) 2005/06
18.	Thesis	Calcineurin and heat shock protein 72 in functionally overloaded rat plantaris muscle. (Collaboration) 2005/05
19.	Thesis	Calcineurin and heat-shock proteins modulation in clenbuterol-induced hypertrophied rat skeletal muscles. (Collaboration) 2004/12
20.	Thesis	Endogenous expression and developmental changes ofHSP72 in rat skeletal muscles. (Collaboration) 2003/09
21.	Thesis	Clenbuterol induces　expression of multiple　myosin heavy chain isoforms in rat soleus fibres. (Collaboration) 2002/08
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■ Developed teaching materials, textbooks, reference books

1.	2020/04 Contribution Type : 単著
2.	2021/04 Contribution Type : 単著
3.	2023/09 Contribution Type : 単著
4.	2024/12 Contribution Type : 単著