SOYA Hideaki
- Articles
- Brain glycogen decreases during prolonged exercise
Matsui Takashi; Soya Shingo; Okamoto Masahiro; Yukio Ich...
The Journal of Physiology/589(13)/pp.3383-3393, 2011-01 - 低強度運動は発育期ラットの海馬神経新生を促進する
岡本 正洋; 三輪 ゆうり; 征矢 英昭
いばらき健康・スポーツ科学/21/pp.9-17, 2012-08 - Voluntary resistance running with short distance enhances spatial memory related to hippocampal BDNF signaling
Lee Min Chul; Okamoto Masahiro; Liu Yu Fan; Inoue Koshir...
Journal of applied physiology/113(8)/pp.1260-1206, 2012-10 - Hyper-hippocampal glycogen induced by glycogen loading with exercise.
征矢 茉莉子; 松井 崇; 荒井 サブリナ; 麻見 直美; Soya Hideaki
Scientific Reports/pp.1285-1285, 2018-01 - Hypoxia-induced lowered executive function depends on arterial oxygen desaturation
Ochi Genta; Kanazawa Yusuke; Hyodo Kazuki; Suwabe Kazuya...
The Journal of Physiological Sciences/68(6)/pp.847-853, 2018-03 - Neural basis for reduced executive performance with hypoxic exercise.
Soya Hideaki
NeuroImage/pp.75-83, 2018-01 - Hypoxia-induced lowered executive function depends on arterial oxygen desaturation
Ochi Genta; Kanazawa Yusuke; Hyodo Kazuki; Suwabe Kazuya...
The journal of physiological sciences : JPS/68(6)/pp.847-853, 2018-11 - 運動は高齢者の意志力を高めるか ー実行機能に着目してー
兵頭 和樹; 征矢 英昭
Japanese Journal of Physical Fitness and Sports Medicine/67(1)/pp.60-60, 2018 - 意志力(ウイルパワー)の脳機構と身体運動
征矢 英昭; 西島 壮
Japanese Journal of Physical Fitness and Sports Medicine/67(1)/pp.57-57, 2018 - 児童期:「体力と認知機能をともに高めるSPARTS体操プログラム:学校体育支援」
征矢 英昭; 菊池 章人
Japanese Journal of Physical Fitness and Sports Medicine/67(1)/pp.9-9, 2018 - Neural basis for reduced executive performance with hypoxic exercise
Ochi Genta; Yamada Yuhki; Hyodo Kazuki; Suwabe Kazuya...
NeuroImage/171/pp.75-83, 2018-05 - Astrocytic glycogen-derived lactate fuels the brain during exhaustive exercise to maintain endurance capacity
Matsui Takashi; Omuro Hideki; liu Yu-Fan; Soya Mariko; Sh...
Proceedings of the National Academy of Sciences/pp.6358-6363, 2017-07 - Aerobic fitness associates with mnemonic discrimination as a mediator of physical activity effects:evidence for memory flexibility in young adults
Suwabe Kazuya; Hyodo Kazuki; byun kyeongho; Ochi GEnta; F...
Scientific Reports, 2017-07 - A transferable high-intensity intermittent exercise improves executive performance in association with dorsolateral prefrontal activation in young adults
Kujach Sylwester; Byun Kyeongho; Hyodo Kazuki; Suwabe ...
NeuroImage/169/pp.117-125, 2017-12 - 海馬の認知機能を高める運動効果とその分子機構
Soya Hideaki; 諏訪部 和也; 征矢 茉莉子
日本神経精神薬理学雑誌=Japanese Journal of Neuropsychopharmacology/pp.115-121, 2017-08 - 体と病気の化学知識 日頃の不調や病気を正しく理解する
Soya Hideaki
Newton別冊/pp.116-117, 2017-9 - 日向涼子 世界一の坂道への挑戦 メンタルを強くして結果を出す!
Soya Hideaki
BiCYCLE CLUB/pp.120-125, 2017-10 - ストレッサーとしての怒り(アンガー)とスポーツ
Soya Hideaki
体育の科学/67(8)/pp.514-515, 2017-08 - Astrocytic glycogen-derived lactate fuels the brain during exhaustive exercise to maintain endurance capacity
Matsui Takashi; Omuro Hideki; 劉宇帆; 征矢茉莉子; Shima Takeru; McE...
Proceedings of the National Academy of Sciences of the United States of America/114(24)/pp.6358-6363, 2017-06 - Exercise and cerebrovascular plasticity
Nishijima T; Torres-Aleman I; Soya H
Progress in brain research/225/pp.243-268, 2016-04 - Differential effects of type 2 diabetes on brain glycometabolism in rats: focus on glycogen and monocarboxylate transporter 2
Shima Takeru; Jesmin Subrina; Matsui Takashi; Soya Ma...
The journal of physiological sciences : JPS/68(1)/pp.69-75, 2016-12 - Possible mild exercise effects enhancing hippocampal plasticity : To develop an effective exercise regimen enhancing cognitive functions
征矢 英昭; 岡本 正洋; 征矢 茉莉子; 島 孟留; 陸 彰洙
Japanese Journal of Biological Psychiatry/26(1)/pp.59-63, 2015 - 小学校体育への「2分半スタミナ体操」導入による児童の体力向上効果
菊池 章人; 征矢 英昭
Japan Society of Physical Education, Health and Sport Sciences Conference Proceedings/67(0)/pp.155_2-155_2, 2016 - 運動による高意志力(Will-power)とパフォーマンス
征矢 英昭
Japan Society of Physical Education, Health and Sport Sciences Conference Proceedings/67(0)/pp.21_2-21_2, 2016 - 運動とアスタキサンチン摂取で高める海馬機能:脳フィットネス効果の最大化を目指して
陸 暲洙; 征矢 英昭
Japanese Journal of Physical Fitness and Sports Medicine/66(1)/pp.62-62, 2017 - more...
- Brain glycogen decreases during prolonged exercise