Effect of Intensity of Dynamic Exercise on Pupil Diameter in Humans
スポンサーリンク
概要
- 論文の詳細を見る
To test the hypothesis that pupil diameter, which is innervated by the autonomic nervous system, increases with exercise intensity, we determined pupil diameter during incremental exercise in eight healthy subjects. The subjects performed an incremental ergometer exercise in a room illuminated at 90–100 lx. We continuously measured pupil diameter and heart rate before, during, and after the exercise. Pupil diameter increased significantly with exercise intensity (except at the lowest intensity), peaking at 113±3% (mean±SE) of the diameter during the resting baseline period. The diameter did not differ significantly between the resting baseline and recovery periods. These findings suggest that exercise enlarges pupil diameter and that the magnitude of dilation is related to exercise intensity.
- 2010-05-31
著者
-
HAYASHI Naoyuki
Institute of Health Science, Kyushu University
-
SOMEYA Nami
Institute of Health Science, Kyushu University
-
FUKUBA Yoshiyuki
Hiroshima Prefectural University
-
Someya Nami
Institute Of Health Science Kyushu University
-
Hayashi Naoyuki
Institute Of Health Science Kyushu University
-
Fukuba Yoshiyuki
Hiroshima Prefectural Univ.
関連論文
- Effect of Intensity of Dynamic Exercise on Pupil Diameter in Humans
- Ambient Temperature Affects Glabrous Skin Vasculature and Sweating Responses to Mental Task in Humans
- 2-7 Dynamics of Muscle Oxygen Consumption and Blood Flow at Exercise Onset(Proceedings of the 50th Meeting of Japan Society of Physiological Anthropology)
- Pressor Response to Static and Dynamic Knee Extensions at Equivalent Workload in Humans
- Effect of daily physical activity level on muscle volume, bone mineral density and gait characteristics in older women
- Effect of training status on oxygen uptake response to exercise onset
- Role of lower intensity part of exercise on linearity between oxygen uptake and work rate during incremental exercise in ramp function
- Blood flow in non-muscle tissues and organs during exercise: Nature of splanchnic and ocular circulation