Trail Making Testを用いた認知機能の違いが非予測的なカッティング動作に与える影響
【目的】Trail Making Test(以下,TMT)で評価した認知機能の違いが非予測的なカッティング動作中の下肢関節角度,関節モーメントおよび下肢筋活動に与える影響を検討することを目的とした。【方法】対象者は大学生女性アスリート15名とし,非予測的なカッティング動作中の下肢関節角度,関節モーメント,筋活動を測定した。認知機能はTMT-BからTMT-Aの所要時間を引いた⊿TMTで評価し,対象者をLow群とHigh群の2群に分けた。カッティング動作中の接地期前半30 %の区間中での,各パラメータの最大値と区間内での関節角度変化量を分析対象とし,群間比較に対応のないt検定を用いた。なお,有意水...
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| Published in | スポーツ理学療法学 Vol. 3; no. 1; pp. 97 - 105 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | Japanese |
| Published |
一般社団法人 日本スポーツ理学療法学会
2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2758-4356 |
| DOI | 10.57495/jjspt.3.1_97 |
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| Abstract | 【目的】Trail Making Test(以下,TMT)で評価した認知機能の違いが非予測的なカッティング動作中の下肢関節角度,関節モーメントおよび下肢筋活動に与える影響を検討することを目的とした。【方法】対象者は大学生女性アスリート15名とし,非予測的なカッティング動作中の下肢関節角度,関節モーメント,筋活動を測定した。認知機能はTMT-BからTMT-Aの所要時間を引いた⊿TMTで評価し,対象者をLow群とHigh群の2群に分けた。カッティング動作中の接地期前半30 %の区間中での,各パラメータの最大値と区間内での関節角度変化量を分析対象とし,群間比較に対応のないt検定を用いた。なお,有意水準は5 %とした。【結果】膝関節外反角度の最大値(p=0.024),膝関節外反角度変化量(p=0.002)はLow群が有意に大きく,足関節背屈角度変化量(p=0.019)はHigh群が有意に大きかった。【結論】TMTで評価した認知機能の低さは,膝関節外反角度の増大といった運動特性に関連することが明らかとなった。 |
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| AbstractList | 【目的】Trail Making Test(以下,TMT)で評価した認知機能の違いが非予測的なカッティング動作中の下肢関節角度,関節モーメントおよび下肢筋活動に与える影響を検討することを目的とした。【方法】対象者は大学生女性アスリート15名とし,非予測的なカッティング動作中の下肢関節角度,関節モーメント,筋活動を測定した。認知機能はTMT-BからTMT-Aの所要時間を引いた⊿TMTで評価し,対象者をLow群とHigh群の2群に分けた。カッティング動作中の接地期前半30 %の区間中での,各パラメータの最大値と区間内での関節角度変化量を分析対象とし,群間比較に対応のないt検定を用いた。なお,有意水準は5 %とした。【結果】膝関節外反角度の最大値(p=0.024),膝関節外反角度変化量(p=0.002)はLow群が有意に大きく,足関節背屈角度変化量(p=0.019)はHigh群が有意に大きかった。【結論】TMTで評価した認知機能の低さは,膝関節外反角度の増大といった運動特性に関連することが明らかとなった。 |
| Author | 柴田, 聡 竹村, 雅裕 |
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| Copyright | 2025 一般社団法人 日本スポーツ理学療法学会 |
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| References | 25) Brown SR, Brughelli M, Hume PA: Knee mechanics during planned and unplanned sidestepping: a systematic review and meta-analysis. Sports Med. 2014; 44(11): 1573‒1588. 5) Miller BT, Clapp WC: From Vision to Decision: The Role of Visual Attention in Elite Sports Performance. Eye Contact Lens. 2011; 37(3): 131‒139. 18) Giovagnoli AR, Del Pesce M, Mascheroni S, et al.: Trail Making Test: Normative values from287 normal adult controls. Ital J Neurol Sci. 1996; 17(4): 305‒309. 9) Monfort SM, Pradarelli JJ, Grooms DR, et al.: Visual-Spatial Memory Deficits Are Related to Increased Knee Valgus Angle During a Sport-Specific Sidestep Cut. Am J Sports Med. 2019; 47(6): 1488‒1495. 15) 広田千賀,渡辺美鈴,谷本芳美,他:地域高齢者を対象としたTrail Making Testの意義—身体機能とTrail Making Testの成績についての横断分析から—.日老医誌.2008;45(6):647‒654 7) リチャード・A・シュミット:注意と人間のパフォーマンス.pp. 30‒40;調枝孝治監訳,リチャード・A・シュミット著: 運動学習とパフォーマンス.1994,大修館書店,東京 1) Shultz SJ, Schmitz RJ, Benjaminse A, et al.: ACL Research Retreat VII: An Update on Anterior Cruciate Ligament Injury Risk Factor Identification, Screening, and Prevention. J Athl Train. 2015; 50(10): 1076‒1093. 29) Nedergaard NJ, Dalbo S, Petersen SV, et al.: Biomechanical and neuromuscular comparison of single- and multi-planar jump tests and a side-cutting maneuver: Implications for ACL injury risk assessment. Knee. 2020; 27: 324‒333. 6) McCulloch K: Attention and dual-task conditions: physical therapy implications for individuals with acquired brain injury. J Neurol Phys Ther. 2007; 31(3): 104‒118. 8) Herman CD, Barth JD: Drop-jump landing varies with baseline neurocognition -Implications for anterior cruciate ligament injury risk and prevention. Am J Sports Med. 2016; 44(9): 2347‒2353. 3) Olsen OEE, Myklebust G, Engebretsen L, et al.: Injury mechanisms for anterior cruciate ligament injuries in team handball: A systematic video analysis. Am J Sports Med. 2004; 32(4): 1002‒1012. 27) Lima YL, Ferreira VMLM, de Paula Lima PO, et al.: The association of ankle dorsiflexion and dynamic knee valgus: A systematic review and meta-analysis. Phys Ther Sport. 2018; 29: 61‒69. 30) Hewett TE, Myer GD, Ford KR, et al. Biomechanical measures of neuromuscular control and valgus loading of the knee predict anterior cruciate ligament injury risk in female athletes: a prospective study. Am J Sports Med. 2005; 33(4): 492‒501. 20) Moses B, Orchard J, Orchard J: Systematic Review: Annual Incidence of ACL Injury and Surgery in Various Populations. Res Sports Med. 2012; 20(3‒4): 157‒179. 22) McLean SG, Samorezov JE: Fatigue-induced ACL injury risk stems from a degradation in central control. Med Sci Sports Exerc. 2009; 41(8): 1661‒1672. 33) Weir G: Anterior cruciate ligament injury prevention in sport: biomechanically informed approaches. Sports Biomech. 2021; 29: 1‒21. 13) Lezak MD, Howieson DB, Bigler ED, et al.: Neuropsychological Assessment, 5th Edn. In: Oxford University Press. Oxford University Press.; 2012. 4) Besier TF, Lloyd DG, Ackland TR, et al.: Anticipatory effects on knee joint loading during running and cutting maneuvers. Med Sci Sports Exerc. 2001; 33(7): 1176‒1181. 17) Drane DL, Yuspeh RL, Huthwaite JS, et al.: Demographic characteristics and normative observations for derived-trail making test indices. Neuropsychiatry Neuropsychol Behav Neurol. 2002; 15(1): 39‒43. 2) Swanik CB, Covassin T, Stearne DJ, et al.: The relationship between neurocognitive function and noncontact anterior cruciate ligament injuries. Am J Sports Med. 2007; 35(6): 943‒948. 14) 鹿島晴雄,半田貴士,加藤元一郎,他:注意障害と前頭葉損傷.神研の進歩.1986;30(10):847‒848 11) Register-Mihalik JK, Kontos DL, Guskiewicz KM, et al.: Age-related differences and reliability on computerized and paper-and-pencil neurocognitive assessment batteries. J Athl Train. 2012; 47(3): 297‒305. 31) Della Villa F, Buckthorpe M, Grassi A, et al.: Systematic video analysis of ACL injuries in professional male football (soccer): injury mechanisms, situational patterns and biomechanics study on 134 consecutive cases. Br J Sports Med. 2020; 54(23): 1423‒1432. 34) Lee MJC, Lloyd DG, Lay BS, et al: Effects of different visual stimuli on postures and knee moments during sidestepping. Med Sci Sports Exerc. 2013; 45: 1740‒1748. 28) Kristianslund E, Krosshaug T: Comparison of Drop Jumps and Sport-Specific Sidestep Cutting: Implications for Anterior Cruciate Ligament Injury Risk Screening. Am J Sports Med. 2013; 41(3): 684‒688. 23) Kipp K, Brown TN, McLean SG, et al.: Decision making and experience level influence frontal plane knee joint biomechanics during a cutting maneuver. J Appl Biomech. 2013; 29(6): 756‒762. 19) Beynnon BD, Vacel PM, Newell MK, et al.: The Effects of Level of Competition, Sport, and Sex on the Incidence of First-Time Noncontact Anterior Cruciate Ligament Injury. Am J Sports Med. 2014; 42(8): 1806‒1812. 32) Voss MW, Kramer AF, Basak C, et al.: Are expert athletes ‘expert’ in the cognitive laboratory? A meta-analytic review of cognition and sport expertise. Appl Cogn Psychol. 2010; 24(6): 812‒826. 10) Shibata S, Takemura M, Miyakawa S: The influence of differences in neurocognitive function on lower limb kinematics, kinetics, and muscle activity during an unanticipated cutting motion. Phys Ther Res. 2018; 21(2): 44‒52. 21) Chia l, De Oliveila Silva, Whalan M, et al.: Non-contact Anterior Cruciate Ligament Injury Epidemiology in Team-Ball Sports: A Systematic Review with Meta-analysis by Sex, Age, Sport, Participation Level, and Exposure Type. Sports Med. 2022; 52: 2447‒2467. 16) Arbuthnott K, Frank J: Trail making test, part B as a measure of executive control: validation using a set-switching paradigm. J Clin Exp Neuropsychol. 2000; 22(4) :518‒28. 12) Randolph C, McCrea M, Barr WB: Is neuropsychological testing useful in the management of sport-related concussion? J Athl Train. 2005; 40(3): 139‒152. 24) Kadaba MP, Ramakrishnan HK, Wootten ME: Measurement of lower extremity kinematics during level walking. J Orthop. Res. 1990; 8(3): 383‒392. 26) Besier TF, Lloyd DG, Cochrane JL, et al.: External loading of the knee joint during running and cutting maneuvers. Med Sci Sports Exerc. 2001; 33(7): 1168‒1175. |
| References_xml | – reference: 30) Hewett TE, Myer GD, Ford KR, et al. Biomechanical measures of neuromuscular control and valgus loading of the knee predict anterior cruciate ligament injury risk in female athletes: a prospective study. Am J Sports Med. 2005; 33(4): 492‒501. – reference: 5) Miller BT, Clapp WC: From Vision to Decision: The Role of Visual Attention in Elite Sports Performance. Eye Contact Lens. 2011; 37(3): 131‒139. – reference: 17) Drane DL, Yuspeh RL, Huthwaite JS, et al.: Demographic characteristics and normative observations for derived-trail making test indices. Neuropsychiatry Neuropsychol Behav Neurol. 2002; 15(1): 39‒43. – reference: 25) Brown SR, Brughelli M, Hume PA: Knee mechanics during planned and unplanned sidestepping: a systematic review and meta-analysis. Sports Med. 2014; 44(11): 1573‒1588. – reference: 3) Olsen OEE, Myklebust G, Engebretsen L, et al.: Injury mechanisms for anterior cruciate ligament injuries in team handball: A systematic video analysis. Am J Sports Med. 2004; 32(4): 1002‒1012. – reference: 16) Arbuthnott K, Frank J: Trail making test, part B as a measure of executive control: validation using a set-switching paradigm. J Clin Exp Neuropsychol. 2000; 22(4) :518‒28. – reference: 12) Randolph C, McCrea M, Barr WB: Is neuropsychological testing useful in the management of sport-related concussion? J Athl Train. 2005; 40(3): 139‒152. – reference: 34) Lee MJC, Lloyd DG, Lay BS, et al: Effects of different visual stimuli on postures and knee moments during sidestepping. Med Sci Sports Exerc. 2013; 45: 1740‒1748. – reference: 14) 鹿島晴雄,半田貴士,加藤元一郎,他:注意障害と前頭葉損傷.神研の進歩.1986;30(10):847‒848. – reference: 11) Register-Mihalik JK, Kontos DL, Guskiewicz KM, et al.: Age-related differences and reliability on computerized and paper-and-pencil neurocognitive assessment batteries. J Athl Train. 2012; 47(3): 297‒305. – reference: 27) Lima YL, Ferreira VMLM, de Paula Lima PO, et al.: The association of ankle dorsiflexion and dynamic knee valgus: A systematic review and meta-analysis. Phys Ther Sport. 2018; 29: 61‒69. – reference: 19) Beynnon BD, Vacel PM, Newell MK, et al.: The Effects of Level of Competition, Sport, and Sex on the Incidence of First-Time Noncontact Anterior Cruciate Ligament Injury. Am J Sports Med. 2014; 42(8): 1806‒1812. – reference: 24) Kadaba MP, Ramakrishnan HK, Wootten ME: Measurement of lower extremity kinematics during level walking. J Orthop. Res. 1990; 8(3): 383‒392. – reference: 4) Besier TF, Lloyd DG, Ackland TR, et al.: Anticipatory effects on knee joint loading during running and cutting maneuvers. Med Sci Sports Exerc. 2001; 33(7): 1176‒1181. – reference: 26) Besier TF, Lloyd DG, Cochrane JL, et al.: External loading of the knee joint during running and cutting maneuvers. Med Sci Sports Exerc. 2001; 33(7): 1168‒1175. – reference: 29) Nedergaard NJ, Dalbo S, Petersen SV, et al.: Biomechanical and neuromuscular comparison of single- and multi-planar jump tests and a side-cutting maneuver: Implications for ACL injury risk assessment. Knee. 2020; 27: 324‒333. – reference: 32) Voss MW, Kramer AF, Basak C, et al.: Are expert athletes ‘expert’ in the cognitive laboratory? A meta-analytic review of cognition and sport expertise. Appl Cogn Psychol. 2010; 24(6): 812‒826. – reference: 6) McCulloch K: Attention and dual-task conditions: physical therapy implications for individuals with acquired brain injury. J Neurol Phys Ther. 2007; 31(3): 104‒118. – reference: 33) Weir G: Anterior cruciate ligament injury prevention in sport: biomechanically informed approaches. Sports Biomech. 2021; 29: 1‒21. – reference: 1) Shultz SJ, Schmitz RJ, Benjaminse A, et al.: ACL Research Retreat VII: An Update on Anterior Cruciate Ligament Injury Risk Factor Identification, Screening, and Prevention. J Athl Train. 2015; 50(10): 1076‒1093. – reference: 7) リチャード・A・シュミット:注意と人間のパフォーマンス.pp. 30‒40;調枝孝治監訳,リチャード・A・シュミット著: 運動学習とパフォーマンス.1994,大修館書店,東京. – reference: 28) Kristianslund E, Krosshaug T: Comparison of Drop Jumps and Sport-Specific Sidestep Cutting: Implications for Anterior Cruciate Ligament Injury Risk Screening. Am J Sports Med. 2013; 41(3): 684‒688. – reference: 20) Moses B, Orchard J, Orchard J: Systematic Review: Annual Incidence of ACL Injury and Surgery in Various Populations. Res Sports Med. 2012; 20(3‒4): 157‒179. – reference: 21) Chia l, De Oliveila Silva, Whalan M, et al.: Non-contact Anterior Cruciate Ligament Injury Epidemiology in Team-Ball Sports: A Systematic Review with Meta-analysis by Sex, Age, Sport, Participation Level, and Exposure Type. Sports Med. 2022; 52: 2447‒2467. – reference: 23) Kipp K, Brown TN, McLean SG, et al.: Decision making and experience level influence frontal plane knee joint biomechanics during a cutting maneuver. J Appl Biomech. 2013; 29(6): 756‒762. – reference: 2) Swanik CB, Covassin T, Stearne DJ, et al.: The relationship between neurocognitive function and noncontact anterior cruciate ligament injuries. Am J Sports Med. 2007; 35(6): 943‒948. – reference: 13) Lezak MD, Howieson DB, Bigler ED, et al.: Neuropsychological Assessment, 5th Edn. In: Oxford University Press. Oxford University Press.; 2012. – reference: 31) Della Villa F, Buckthorpe M, Grassi A, et al.: Systematic video analysis of ACL injuries in professional male football (soccer): injury mechanisms, situational patterns and biomechanics study on 134 consecutive cases. Br J Sports Med. 2020; 54(23): 1423‒1432. – reference: 8) Herman CD, Barth JD: Drop-jump landing varies with baseline neurocognition -Implications for anterior cruciate ligament injury risk and prevention. Am J Sports Med. 2016; 44(9): 2347‒2353. – reference: 18) Giovagnoli AR, Del Pesce M, Mascheroni S, et al.: Trail Making Test: Normative values from287 normal adult controls. Ital J Neurol Sci. 1996; 17(4): 305‒309. – reference: 9) Monfort SM, Pradarelli JJ, Grooms DR, et al.: Visual-Spatial Memory Deficits Are Related to Increased Knee Valgus Angle During a Sport-Specific Sidestep Cut. Am J Sports Med. 2019; 47(6): 1488‒1495. – reference: 22) McLean SG, Samorezov JE: Fatigue-induced ACL injury risk stems from a degradation in central control. Med Sci Sports Exerc. 2009; 41(8): 1661‒1672. – reference: 10) Shibata S, Takemura M, Miyakawa S: The influence of differences in neurocognitive function on lower limb kinematics, kinetics, and muscle activity during an unanticipated cutting motion. Phys Ther Res. 2018; 21(2): 44‒52. – reference: 15) 広田千賀,渡辺美鈴,谷本芳美,他:地域高齢者を対象としたTrail Making Testの意義—身体機能とTrail Making Testの成績についての横断分析から—.日老医誌.2008;45(6):647‒654. |
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| Title | Trail Making Testを用いた認知機能の違いが非予測的なカッティング動作に与える影響 |
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