近赤外分光法によるヘリコプターテストパイロットの前頭前野酸素化状態のモニタリング:飛行中の認知的負荷に及ぼす自動飛行コントロールシステムの影響について
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| Published in | 航空医学実験隊報告 Vol. 61; no. 3; pp. 25 - 31 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
航空医学実験隊
2021
|
| Online Access | Get full text |
| ISSN | 0023-2858 2432-4809 |
| DOI | 10.20846/jasdfaml.61.3_25 |
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| Author | 藏本, 浩一郎 宮本, 吉教 菊川, あずさ 小林, 朝夫 |
|---|---|
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| DOI | 10.20846/jasdfaml.61.3_25 |
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| EndPage | 31 |
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| References | Kobayashi A, Kikukawa A, Kimura M, Inui T, Miyamoto Y. Cerebral near-infrared spectroscopy to evaluate anti-G straining maneuvers in centrifuge training. Aviat Space Environ Med. 2012; 83: 790-794. Causse M, Chua Z, Peysakhovich V, Del Campo ND, Matton N. Mental workload and neural efficiency quantified in the prefrontal cortex using fNIRS. Sci Rep. 2017; 7: 5222. https://www.nature.com/articles/s41598-017-05378-x (accessed 2021-2-24) Kobayashi A, Kikukawa A, Onozawa A. Effect of muscle tensing on cerebral oxygen status during sustained high +Gz. Aviat Space Environ Med. 2002; 73: 597-600. Galoyan T, Betts K, Abramian H, Reddy P, Izzetoglu K, Shewokis PA. Examining mental workload in a spatial navigation transfer game via functional near infrared spectroscopy.BrainSci.2021;11:45.https://www. mdpi.com/2076-3425/11/1/45 (accessed 2021-02-24). 溝端裕亮, 大類伸浩, 藏本浩一郎, 峰 政貴, 藤田真敬, 菊川あずさ, 柏崎利昌, 小林朝夫. 飛行中脳内酸素化状態モニタリングのための NIRS (Near infrared spectroscopy) センサー埋込型航空ヘルメットの開発の試み. 医実報告. 2019; 59: 23-30. Takeuchi Y. Change in blood volume of the brain during a simulated aircraft landing task. J Occup Health. 2000; 42: 60-65. Bagshaw M. Chapter 48 The flight deck and cockpit. In Gradwell DP, Rainford DJ. Ed. Ernsting’s aviation and space medicine. CRC Press Raton, 2016. Mandrick K, and Peysakhovich V, Rémy F, Lepron E, Causse M. Neural and psychophysiological correlates of human performance under stress and high mental workload. Biol Psychol. 2016; 121: 62-73. Quaresima V, Ferrari M. A mini-review on functional near-infrared spectroscopy (fNIRS): Where do we stand, and where should we go? Photonics. 2019; 6: 87. https://www.mdpi.com/2304-6732/6/3/87 (accessed 2021-2-24) Kobayashi A, Miyamoto Y. In-flight cerebral oxygen status: continuous monitoring by near-infrared spectroscopy. Aviat Space Environ Med. 2000; 71: 177-183. Kikukawa A, Kobayashi A, Miyamoto Y. Monitoring of pre-frontal oxygen status in helicopter pilots using near-infrared spectrophotometers. Dynamic Medicine. 2008; 7: 1-10.https://dynamicmed.biomedcentral. com/articles/10.1186/1476-5918-7-10 (accessed 2021-2-24). Bastow TJ. Understanding near infrared spectroscopy and its application to skeletal muscle research. J Appl Physiol. 2019; 126: 1360-1376. Kobayashi A, Tong A, Kikukawa A. Pilot cerebral oxygen status during air-to-air combat maneuvering. Aviat Space Environ Med. 2002; 73: 919-924. Liang LY, Shewokis PA, Getchell N. Brain activation in the prefrontal cortex during motor and cognitive tasks in adults. J Behav Brain Sci. 2016; 6: 463-474. 宮本吉教, 小林朝夫, 菊川あずさ. 航空医学実験隊における近赤外分光法による脳内酸素状態の研究について. 医実報告. 2006; 46: 33-42. Magno PJ. Understanding Helicopter Automatic Flight Control Systems (AFCS). Helicopter maintenance magazine.2014; 06-01-2014.https:// helicoptermaintenancemagazine.com/article/understanding-helicopter-automatic-flight-control-systems-afcs (accessed 2021-02-24). Paulson OB, Hasselbalch SG, Rostrup E, Knudsen GM, Pelligrino D. Cerebral blood flow response to functional activation. J Cereb Blood Flow Metab. 2010; 30: 2-14. 酒谷 薫 (監修), 岡田英史 (編集), 星 詳子 (編集), 宮井一郎 (編集), 渡辺英寿 (編集). NIRS-基礎と臨床. 2012. 新興医学出版社. 東京. Pinti P, Tachtsidis I, Hamilton A, Hirsch J, Aichelburg C, Gilbert S, Burgess PW. The present and future use of functional near-infrared spectroscopy (fNIRS) for cognitive neuroscience. Ann NY Acad Sci. 2020; 1464: 5-29. U.S. Department of Transportation Federal Aviation Administration. Helicopter flying handbook 2019. FAA-H-8083-21B. Chapter 1 Introduction to the helicopter. https://www.faa.gov/regulations_policies/handbooks_manuals/aviation/helicopter_flying_handbook/(accessed 2021-2-24). |
| References_xml | – reference: Causse M, Chua Z, Peysakhovich V, Del Campo ND, Matton N. Mental workload and neural efficiency quantified in the prefrontal cortex using fNIRS. Sci Rep. 2017; 7: 5222. https://www.nature.com/articles/s41598-017-05378-x (accessed 2021-2-24) – reference: Magno PJ. Understanding Helicopter Automatic Flight Control Systems (AFCS). Helicopter maintenance magazine.2014; 06-01-2014.https:// helicoptermaintenancemagazine.com/article/understanding-helicopter-automatic-flight-control-systems-afcs (accessed 2021-02-24). – reference: Galoyan T, Betts K, Abramian H, Reddy P, Izzetoglu K, Shewokis PA. Examining mental workload in a spatial navigation transfer game via functional near infrared spectroscopy.BrainSci.2021;11:45.https://www. mdpi.com/2076-3425/11/1/45 (accessed 2021-02-24). – reference: Paulson OB, Hasselbalch SG, Rostrup E, Knudsen GM, Pelligrino D. Cerebral blood flow response to functional activation. J Cereb Blood Flow Metab. 2010; 30: 2-14. – reference: 溝端裕亮, 大類伸浩, 藏本浩一郎, 峰 政貴, 藤田真敬, 菊川あずさ, 柏崎利昌, 小林朝夫. 飛行中脳内酸素化状態モニタリングのための NIRS (Near infrared spectroscopy) センサー埋込型航空ヘルメットの開発の試み. 医実報告. 2019; 59: 23-30. – reference: Bastow TJ. Understanding near infrared spectroscopy and its application to skeletal muscle research. J Appl Physiol. 2019; 126: 1360-1376. – reference: Liang LY, Shewokis PA, Getchell N. Brain activation in the prefrontal cortex during motor and cognitive tasks in adults. J Behav Brain Sci. 2016; 6: 463-474. – reference: Kobayashi A, Tong A, Kikukawa A. Pilot cerebral oxygen status during air-to-air combat maneuvering. Aviat Space Environ Med. 2002; 73: 919-924. – reference: Kobayashi A, Miyamoto Y. In-flight cerebral oxygen status: continuous monitoring by near-infrared spectroscopy. Aviat Space Environ Med. 2000; 71: 177-183. – reference: Kobayashi A, Kikukawa A, Kimura M, Inui T, Miyamoto Y. Cerebral near-infrared spectroscopy to evaluate anti-G straining maneuvers in centrifuge training. Aviat Space Environ Med. 2012; 83: 790-794. – reference: Pinti P, Tachtsidis I, Hamilton A, Hirsch J, Aichelburg C, Gilbert S, Burgess PW. The present and future use of functional near-infrared spectroscopy (fNIRS) for cognitive neuroscience. Ann NY Acad Sci. 2020; 1464: 5-29. – reference: Quaresima V, Ferrari M. A mini-review on functional near-infrared spectroscopy (fNIRS): Where do we stand, and where should we go? Photonics. 2019; 6: 87. https://www.mdpi.com/2304-6732/6/3/87 (accessed 2021-2-24) – reference: Mandrick K, and Peysakhovich V, Rémy F, Lepron E, Causse M. Neural and psychophysiological correlates of human performance under stress and high mental workload. Biol Psychol. 2016; 121: 62-73. – reference: 宮本吉教, 小林朝夫, 菊川あずさ. 航空医学実験隊における近赤外分光法による脳内酸素状態の研究について. 医実報告. 2006; 46: 33-42. – reference: 酒谷 薫 (監修), 岡田英史 (編集), 星 詳子 (編集), 宮井一郎 (編集), 渡辺英寿 (編集). NIRS-基礎と臨床. 2012. 新興医学出版社. 東京. – reference: Kobayashi A, Kikukawa A, Onozawa A. Effect of muscle tensing on cerebral oxygen status during sustained high +Gz. Aviat Space Environ Med. 2002; 73: 597-600. – reference: U.S. Department of Transportation Federal Aviation Administration. Helicopter flying handbook 2019. FAA-H-8083-21B. Chapter 1 Introduction to the helicopter. https://www.faa.gov/regulations_policies/handbooks_manuals/aviation/helicopter_flying_handbook/(accessed 2021-2-24). – reference: Takeuchi Y. Change in blood volume of the brain during a simulated aircraft landing task. J Occup Health. 2000; 42: 60-65. – reference: Kikukawa A, Kobayashi A, Miyamoto Y. Monitoring of pre-frontal oxygen status in helicopter pilots using near-infrared spectrophotometers. Dynamic Medicine. 2008; 7: 1-10.https://dynamicmed.biomedcentral. com/articles/10.1186/1476-5918-7-10 (accessed 2021-2-24). – reference: Bagshaw M. Chapter 48 The flight deck and cockpit. In Gradwell DP, Rainford DJ. Ed. Ernsting’s aviation and space medicine. CRC Press Raton, 2016. |
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| Title | 近赤外分光法によるヘリコプターテストパイロットの前頭前野酸素化状態のモニタリング:飛行中の認知的負荷に及ぼす自動飛行コントロールシステムの影響について |
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