Inami, Takayuki

写真a

Affiliation

Research Centers and Institutes, Institute of Physical Education (Hiyoshi)

Position

Assistant Professor/Senior Assistant Professor

Related Websites

Contact Address

横浜市港北区日吉4-1-1

Telephone No.

045-566-1068

Career 【 Display / hide

  • 2004.04
    -
    2013.07

    Aichi Medical University

  • 2013.08
    -
    2014.08

    Edith Cowan University (Australia)

  • 2014.09
    -
    2017.03

    Waseda University

  • 2017.04
    -
    Present

    Keio University, Institute of Physical Education

Academic Background 【 Display / hide

  • 2007.04
    -
    2009.03

    中京大学大学院, 体育学研究科(現スポーツ科学研究科)博士前期課程(健康科学系)

    Graduate School, Completed, Master's course

  • 2009.04
    -
    2011.09

    中京大学大学院, 体育学研究科(現スポーツ科学研究科)博士後期課程(健康科学系)

    Graduate School, Completed, Doctoral course

Academic Degrees 【 Display / hide

  • 博士(体育学)※早期修了, 中京大学, Coursework, 2011.09

Licenses and Qualifications 【 Display / hide

  • 中学校教諭1種免許(保健体育), 2004.03

  • 高等学校教諭1種免許(保健体育), 2004.03

  • 中学校教諭専修免許(保健体育), 2009.03

  • 高等学校教諭専修免許(保健体育), 2009.03

  • 日本キャンプ協会キャンプインストラクター(NCAJ), 2017.04

 

Research Areas 【 Display / hide

  • Life Science / Sports sciences

  • Life Science / Nutrition science and health science

  • Life Science / Orthopedics (Sports injury)

  • Life Science / Rehabilitation science

  • Life Science / Physical education, and physical and health education

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Research Keywords 【 Display / hide

  • アスレティックトレーニング

  • スポーツ傷害

  • 妊婦スポーツ

  • 筋生理学

  • 運動器

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Books 【 Display / hide

  • ケガをしないカラダづくり

    広瀬統一、泉重樹、福田崇、稲見崇孝, 東洋館出版株式会社, 2023.11

  • ゆ〜っくり座って健康に!60歳からはじめるエキセントリック体操

    野坂和則、稲見崇孝、桂良寛, 東洋館出版, 2022.02

  • Concurrent Aerobic and Strength Training: Scientific Basics and Practical Applications

    Moritz Schumann, Bent R. Rønnestad, 稲見崇孝 (監修, 翻訳),ほか3名, 東洋館出版, 2021.02,  Page: 544

  • メディカルストレッチング 筋学からみた関節疾患の運動療法

    INAMI Takayuki, 金原出版(東京), 2014.01

    Scope: ストレッチングの生理学

Papers 【 Display / hide

  • Relationships between Changes in Muscle Shear Modulus, Urinary Titin N- Terminal Fragment, and Maximum Voluntary Contraction Torque after Eccentric Exercise of the Elbow Flexors

    Inami T., Yamaguchi S., Nishioka T., Ishida H., Morito A., Yamada S., Nagata N., Murayama M.

    Journal of sports science & medicine (Journal of sports science & medicine)  22 ( 4 ) 797 - 805 2023.12

     View Summary

    The study aimed to investigate the relationships between the shear modulus of the biceps brachii (BB) and brachialis muscle (BA) and the total of the two (BB+BA), and urinary titin N-terminal fragment (UTF), maximum voluntary isometric contraction (MVC), and other indirect markers. Fifteen healthy men performed five sets of 10 eccentric contractions using a dumbbell corresponding to 50% of MVC at 90° measured at baseline. The elbow joint of the left arm was extended from 90° to 180° (180° = full extension) in 5 s in the exercise, and was returned with support from the examiner to prevent concentric contraction. Shear modulus of BB and BA were measured by ultrasound shear wave elastography, and UTF, MVC, and range of motion of the elbow joint (ROM) were recorded before; immediately after; and 1, 24, 48, 72, 96, and 168 h after the exercise. After calculating the shear modulus of BB and BA, two values were added (BB+BA). The shear modulus peaked at 48 h, UTF peaked at 96 h, MVC and ROM changed largest at immediately, and muscle soreness peaked at 48 h post-exercise. Significant (p < 0.05) relationships were found between changes in BB shear modulus and BA shear modulus (r = 0.874), BB+BA shear modulus (r = 0.977), UTF (r = 0.681), and MVC (r = -0.538). Significant (p < 0.05) relationships were also observed between changes in BA shear modulus and BB+BA shear modulus (r = 0.957), UTF (r = 0.682), MVC (r = -0.522), and ROM (r = -0.600). Moreover, significant (p < 0.05) relationships were observed between changes in BB+BA shear modulus and UTF (r = 0.703), MVC (r = -0.549), and ROM (r = -0.547). These results indicate that shear modulus of each muscle (i.e., BB and BA) provide more precise information about muscle damage than UTF, MVC and ROM.

  • The Effect of Contrast Water Therapy on Dehydration during Endurance Training Camps in Moderate-Altitude Environments

    Inami T., Yamaguchi S., Nishioka T., Chida K., Hoshina K., Ito O., Hashimoto T., Murayama M.

    Sports (Sports)  11 ( 12 )  2023.12

     View Summary

    The effects of contrast water therapy (CWT) on dehydration at moderate altitudes during training camps remain unknown. We hypothesized that CWT reduces dehydration resulting from training at moderate altitudes and improves performance, akin to conditions at sea level. A 13-day endurance training camp was held at a moderate altitude of 1100 m and included 22 university athletes, who were divided into two groups (CWT group, n = 12; control (CON) group, n = 10). The sample size was calculated based on an α level of 0.05, power (1 β) of 0.8, and effect size of 0.25 based on two-way ANOVA. Longitudinal changes over 13 days were compared using a two-group comparison model. Additionally, 16 athletes participated in an additional performance verification analysis. Subjective fatigue, body mass, and water content (total body water (TBW), extracellular water (ECW), and intracellular water) were measured using bioimpedance analysis every morning, and the titin N-terminal fragment in urine (UTF) was measured as an index of muscle damage. For performance verification, 10 consecutive jump performances (with the reactive strength index (RSI) as an indicator) were evaluated as neuromuscular function indices. The results indicated that the UTF did not significantly differ between the two groups. Moreover, the ECW/TBW values, indicative of dehydration, on days 4 and 5 in the CWT group were significantly lower than those in the CON group. However, there was no significant difference in RSI between the two groups. Therefore, although CWT reduces dehydration in the early stages of the training camp, it may not affect performance.

  • Relationship between Body Center of Mass Velocity and Lower Limb Joint Angles during Advance Lunge in Skilled Male University Fencers

    Chida K., Inami T., Yamaguchi S., Yoshida Y., Kohtake N.

    Biomechanics (Switzerland) (Biomechanics (Switzerland))  3 ( 3 ) 377 - 388 2023.09

     View Summary

    We investigated the influence of advance lunging in fencing from the perspective of velocity and lower limb joint angles to identify how the joint angles contribute to the peak velocity in a lunge with advance (LWA). Fourteen skilled athletes (age: 19.6 ± 0.9 years, height: 171.2 cm ± 5.2 cm, weight: 63.7 kg ± 5.3 kg, and fencing experience: 9.7 ± 3.1 years) participated by performing two types of attacking movements, and data were collected with a 3D movement analysis system. A correlation between the peak velocity of the body center of mass (CoM) in an advance lunge and several joint angle variables (rear hip peak flexion angle (r = 0.63), rear ankle peak dorsiflexion angle (r = −0.66), rear ankle range of motion (r = −0.59), and front hip peak extension angle (r = 0.54)) was revealed. In addition, the joint angle variables that significantly predicted peak CoM velocity during an LWA were the rear knee peak flexion angle (β = 0.542), rear knee peak extension angle (β = −0.537), and front knee peak extension angle (β = −0.460). Our findings suggest that the rear leg hip joint, rear leg ankle joint, and front leg hip joint may control the acceleration generated by an LWA. Furthermore, more flexion of the rear leg knee joint in the early phase of the lunge and greater extension of the rear and front leg knee joints at the end of the lunge phase may help increase peak velocity.

  • Chrono-exercise: Time-of-day-dependent physiological responses to exercise

    Kim H.K., Radak Z., Takahashi M., Inami T., Shibata S.

    Sports Medicine and Health Science (Sports Medicine and Health Science)  5 ( 1 ) 50 - 58 2023.03

     View Summary

    Exercise is an effective strategy to prevent and improve obesity and related metabolic diseases. Exercise increases the metabolic demand in the body. Although many of the metabolic health benefits of exercise depend on skeletal muscle adaptations, exercise exerts many of its metabolic effects through the liver, adipose tissue, and pancreas. Therefore, exercise is the physiological state in which inter-organ signaling is most important. By contrast, circadian rhythms in mammals are associated with the regulation of several physiological and biological functions, including body temperature, sleep-wake cycle, physical activity, hormone secretion, and metabolism, which are controlled by clock genes. Glucose and lipid tolerance reportedly exhibit diurnal variations, being lower in the evening than in the morning. Therefore, the effects of exercise on substrate metabolism at different times of the day may differ. In this review, the importance of exercise timing considerations will be outlined, incorporating a chrono-exercise perspective.

  • Damage and recovery of the intrinsic and extrinsic foot muscles from running a full marathon

    Fukano M., Nakagawa K., Higashihara A., Inami T., Narita T.

    Scandinavian Journal of Medicine and Science in Sports (Scandinavian Journal of Medicine and Science in Sports)  33 ( 8 ) 1486 - 1493 2023

    ISSN  09057188

     View Summary

    Purpose: To investigate the effects of full marathon running on intrinsic and extrinsic foot muscle damage and to determine the relationship with the height change of the longitudinal foot arch following full marathon completion. Methods: Magnetic resonance imaging-measured transverse relaxation time (T2) of the abductor hallucis (ABH), flexor digitorum brevis (FDB) and quadratus plantae (QP), flexor digitorum longus (FDL), tibialis posterior (TP), and flexor hallucis longus (FHL) from 22 collegiate runners were assessed before and 1, 3, and 8 days after full marathon running. The three-dimensional foot posture of 10 of the 22 runners was further obtained using a foot scanner system before and 1, 3, and 8 days after the marathon. Results: Marathon-induced increases in T2 were observed in the QP, FDL, TP, and FHL 1 day after the marathon (+7.5%, +4.7%, +6.7%, and +5.9%, respectively), with the increased T2 of TP persisting until 3 days after the marathon (+4.6%). T2 changes of FDL and FHL from pre-marathon to DAY 1 showed direct correlations with the corresponding change in the arch height ratio (r = 0.823, p = 0.003, and r = 0.658, p = 0.038). Conclusion: The damage and recovery response from a full marathon differed among muscles; QP, FDL, TP, and FHL increased T2 after the marathon, whereas ABH and FDB did not. In addition, T2 changes in FDL and FHL and the arch height ratio change were correlated. Our results suggest that the extrinsic foot muscles could be more susceptible to damage than the intrinsic during marathon running.

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Papers, etc., Registered in KOARA 【 Display / hide

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Reviews, Commentaries, etc. 【 Display / hide

  • Localized-bioelectrical impedance vector analysis on mechanical property changes after muscle injury and damage

    Inami T., Yamaguchi S., Kim H.K., Murayama M.

    Journal of Sports Medicine and Physical Fitness (Journal of Sports Medicine and Physical Fitness)  63 ( 3 ) 509 - 510 2023.03

    ISSN  00224707

  • Body composition of collegiate kendo players

    Yoshida Y., Inami T., Takase T.

    Journal of Sports Medicine and Physical Fitness (Journal of Sports Medicine and Physical Fitness)  61 ( 10 ) 1430 - 1431 2021.10

    ISSN  00224707

  • 選ばれる価値を育てる

    稲見崇孝

    日本臨床スポーツ医学会誌 28   136 - 136 2020.08

    Article, review, commentary, editorial, etc. (other), Single Work

  • 英国代表チーム事前キャンプにおけるスポーツボランティア「KEIO 2020 project」の取り組み

    稲見崇孝, 福士徳文, 東原綾子, 永田直也, 坂井利彰, 須田芳正, 村松憲, 村山光義, 石手靖, 小山亜希子, 中川一紀

    SFC Journal 20 ( 1 ) 162 - 182 2020.08

    Rapid communication, short report, research note, etc. (bulletin of university, research institution), Joint Work

  • 筋の「硬さ」の測定:超音波エラストグラフィ

    稲見崇孝

    ペインクリニック 41 ( 5 ) 601 - 608 2020.05

    Article, review, commentary, editorial, etc. (trade magazine, newspaper, online media), Single Work

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Presentations 【 Display / hide

  • 骨格筋の非侵襲的質的評価と生体内位置情報の取得

    稲見崇孝

    第64回日本顎口腔機能学会 第62回学術大会優秀賞受賞者企画シンポジウム, 

    2020.12

    Symposium, workshop panel (nominated)

  • "現代実学”獲得への道 -2020英国チーム受入れを通じて-

    稲見崇孝

    慶應義塾大学日吉キャンパス公開講座, 

    2019.09

    Public lecture, seminar, tutorial, course, or other speech

  • 連続投球が肩関節内旋可動域と外旋筋群および関節包のstiffnessに与える影響

    笹川郁、稲見崇孝、東原綾子、吉村茜、我妻浩二、岩本航、広瀬統一

    第74回日本体力医学会大会 (つくば国際会議場) , 

    2019.09

    Oral presentation (general)

  • Muscle condition changes during a training camp for junior elite divers

    Inami, T., Narita, T., Yoshimura, A., Yonezu, T., Yamazaki, E., Orikasa, Y., Tezuka, T., Sugiyama, H., Ohtani, M., Hirose, N., Murayama, M.

    24th Annual Congress of the European College of Sport Science (Prague) , 

    2019.07

    Poster presentation

  • An increasing knee varus angle is a risk factor for lateral ankle sprain during single leg landing -16 months cohort study-

    Mineta, S., Inami, T., Hoshiba, T., Higashihara, A., Hirose, N.

    24th Annual Congress of the European College of Sport Science (Prague) , 

    2019.07

    Oral presentation (general)

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Research Projects of Competitive Funds, etc. 【 Display / hide

  • Evidence of exercise-induced muscle damage evaluation by localized-bioelectrical impedance vector analysis

    2023.04
    -
    2026.03

    基盤研究(C), Principal investigator

  • 硬化した筋の回復を加速させる方策 アスリートへの実践的研究

    2018.04
    -
    2021.03

    Grant-in-Aid for Scientific Research, Research grant, Principal investigator

  • 水泳飛込競技選手における合宿中のハムストリングstiffness変化 筋内部位差の検討

    2018.04
    -
    2019.03

    個人研究A, Keio Gijuku Academic Development Funds, Research grant, Principal investigator

  • フルマラソン後に材質変化する筋を特定する

    2017.04
    -
    2018.03

    慶應義塾大学, 学事振興資金, Research grant, Principal investigator

  • 水泳飛込競技におけるジュニア合宿中の身体後面筋柔軟性の経時変化と従来指標との関係

    2017.04
    -
    2018.03

    浅野均一記念研究奨励基金, 平成29年度研究奨励金, Research grant, Principal investigator

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Works 【 Display / hide

  • 読売市民講座 スポーツの見方・楽しみ方 スポーツインテグレーション スポーツをすべての人に 『人の可能性について 室伏重信氏』 トークショー(コーディネーター)

    稲見崇孝

    慶應義塾大学 日吉キャンパス, 

    2017.06

    Other, Single

Awards 【 Display / hide

  • For clinical relevance in fascia research 2nd prize

    Yoshimura, A., Inami, T., Schleip, R., Mineta, S., Shudo, K., Hirose, N., 2018.11, International Fascia Reseach Congress, Study on the mechanism of the increase of range of motion by foam rolling

    Type of Award: International academic award (Japan or overseas),  Country: Germany

  • Orthopaedic Society for Sports Medicine Excellent Thesis Award (Incentive Thesis Award for Junior Researchers 2009; 1st author)

    2010.09, 日本整形外科スポーツ医学会, Amount of displacement of the gastrocnemius muscle-tendon junction following retention of passive dorsiflexion of the ankle joint: investigation using different knee joint angles

  • 平成20年日本運動器リハビリテーション学会奨励賞

    2008.07, 日本運動器リハビリテーション学会, 膝教室における大腿四頭筋機能訓練法

Other 【 Display / hide

  • 2018年

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    【2020 Hope Lights Our Way】チームプレーのボランティア, 大類なをみ, 稲見崇孝. Sportsmedicine, 206: 44-45, 2018.

  • 2018年

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    【2020 Hope Lights Our Way】私の見据える”2020” 久保田あみ, 稲見崇孝. Sportsmedicine, 205: 24-25, 2018.

  • 2018年

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    【報告書】KEIOスポーツレガシー 〜東京2020オリンピック英国サポートを通じた”生きる力”を備えた人間育成プロジェクト【KEIO 2020 project】〜. 稲見崇孝. 2017年度慶應義塾大学体育研究所基盤研究シンポジウム『オリンピック教育とスポーツボランティア〜東京2020に向けた大学・教員・学生の関わり〜』

  • 2017年

     View Details

    【報告書】日本水泳連盟飛込委員会報告 平成28年度飛込ナショナルジュニア合宿における科学サポート 平成28年度飛込科学サポート. 折笠佑太, 成田崇矢, 小野田圭祐, 大谷真喜子, 稲見崇孝, 野村孝路, 瓶子勇治郎, 徳本奈保美, 内藤直樹, 茶木康寛, 安田千万樹, 金岡恒治. 日本水泳水中運動科学

  • 2015年

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    【報告書】なぜ多関節筋トレーニングは二関節筋を肥大させないのか:筋活動レベルの変化様相からの検討. 江間涼一, 稲見崇孝, 川上泰雄. デサント研究助成報告書

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Courses Taught 【 Display / hide

  • SEMINAR ON PHYSICAL EDUCATION

    2023

  • PHYSICAL ACTIVITY A (FITNESS & TRAINING)

    2023

  • LECTURE ON PHYSICAL EDUCATION 2

    2023

  • LECTURE ON PHYSICAL EDUCATION 1

    2023

  • EXERCISE PHYSIOLOGY

    2023

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Courses Previously Taught 【 Display / hide

  • ハイパフォーマンスとトレーニング科学

    慶應義塾大学

    2020.04
    -
    2021.03

    Autumn Semester, Lecture, Within own faculty

  • メガスポーツ・イベント論

    慶應義塾大学

    2020.04
    -
    2021.03

    Spring Semester, Lecture, Within own faculty

  • スポーツ科学の基礎と応用

    慶應義塾大学体育研究所

    2019.04
    -
    2020.03

    Full academic year, Lecture, Within own faculty

  • フィットネストレーニング

    Keio University

    2018.04
    -
    2019.03

    Full academic year, Seminar, Within own faculty, 3h, 60people

  • オリンピック・パラリンピック論

    Keio University

    2018.04
    -
    2019.03

    Full academic year, Lecture, Within own faculty, 1h, 50people

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Social Activities 【 Display / hide

  • The Journal of Sports Medicine and Physical Fitness査読者(定期)

    2015.01
    -
    Present
  • 公益財団法人愛知県健康づくり振興事業団 腰痛・骨粗鬆症教室 講師

    2008.04
    -
    2013.08
  • 中部電力株式会社防災警備部 健康・体力づくりアドバイザー

    2006.01
    -
    2013.07
  • 公益財団法人 愛知県理学療法士協会 健康福祉部スポーツ障害講座 講師

    2005.01
    -
    Present

Memberships in Academic Societies 【 Display / hide

  • 日本バイオメカニクス学会, 

    2015.09
    -
    Present
  • 日本体育学会, 

    2015.09
    -
    Present
  • European College of Sport Science, 

    2014.01
    -
    Present
  • 日本整形外科超音波学会, 

    2012.07
    -
    Present
  • 日本トレーニング科学会, 

    2011.10
    -
    Present

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Committee Experiences 【 Display / hide

  • 2020.09
    -
    Present

    評議員, 日本体力医学会

  • 2017.10
    -
    2018.10

    実行委員, 日本バイオメカニクス学会

  • 2016.02
    -
    2018.02

    飛込競技ナショナルジュニア 科学サポート, 日本水泳連盟

  • 2006.01
    -
    2013.06

    健康・体力づくりアドバイザー, 中部電力株式会社防災警備部