Keisho KATAYAMA, Ph.D.

Research Center of Health, Physical Fitness and Sports,

Graduate School of Medicine: Exercise and Sports Physiology,

Nagoya University, Japan

Last update: 2024.9.5.

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Educational Background

• Ph.D. 2000, Graduate School of Medicine, Nagoya University, Nagoya, Aichi, Japan.
• M.S. 1997, Master's Program in Health and Sports Sciences, University of Tsukuba, Tsukuba, Ibaraki, Japan.
• B.S. 1995, Department of Health and Sports Science, Kawasaki University of Medical Welfare, Kurashiki, Okayama, Japan.

Academic Experience

• 2017 - present , Professor, Research Center of Health, Physical Fitness and Sports, Nagoya University, Japan.
• 2017, Visiting Professor, Department of Kinesiology, University of Texas at Arlington, USA.
• 2008 -2016 , Associate Professor, Research Center of Health, Physical Fitness and Sports, Nagoya University, Japan.
• 2005 - 2006 , Visiting Assistant Professor, Department of Pupulation Health Sciences, The John Rankin Laboratory of Pulmonary Medicine, University of Wisconsin at Madison, USA.
• 2001 -2007 , Assistant Professor, Research Center of Health, Physical Fitness and Sports, Nagoya University, Japan.
• 2001, Research Fellow of the Japan Society for the Promotion of Science, Research Center of Health, Physical Fitness and Sports, Nagoya University, Japan.

Publications (1)

• Izumi K., Yamamori K., Katayama K., Kano Y., Tanaka N., and Akima H. Intramuscular blood flow and muscle oxygenation of the vastus lateralis response to intermittent incremental muscle contractions. Exp. Physiol in press.
• Katayama K., Shiozawa K., Lee J.B., Kondo H., Seo N., Ishida K., Millar P.J., Banno R., and Ogoh S. Sympathoinhibition during cardiopulmonary baroreceptor loading is attenuated in older females. Am. J. Physiol. Regul. Integr. Comp. Physiol. 327: R88-R96, 2024.
• Shiozawa K., Saito M., Lee J.B., Seo N., Kondo H., Kashima H., Yamaoka E.M., Ishida K., Millar P.J., and Katayama K. Aging in femlaes has minimal effect on changes in celiac artery blood flow duringh dynamic light-intensity exercise. Am. J. Physiol. Regul. Integr. Comp. Physiol. 327: R14-R24, 2024.
• Katayama K., Shiozawa K., Lee J.B., Seo N., Kondo H., Saito M., Ishida K., Millar P.J., Banno R., and Ogoh S. Influence of sex on sympathetic vasomotor outflow responses to passive leg raising in young individuals. J. Physiol. Sci. 74: 19, 2024..
• Yoshiko A., Shiozawa K., Niwa S., Takahashi H., Koike T., Watanabe K., Katayama K., and Akima H. Association of skeletal muscle oxidative capacity with muscle function, sarcopenia-related exercise performance, and intramusclar adipose tissue in older adults. GeoScience 46: 2715-2727, 2024.
• Onodera S., Wada T., Ishida Y., Yoshioka A., So K., Hayashi S., Aratani Y., Matsuo K., Ishimoito Y., Takahara T., Yamaguchi H., and Katayama K. Differences between rising positions on oxygen uptake during tandem bicycle pedaling. Kawasaki J. Med. Welf. 29: 1-6, 2023.
• Sato S., Ishida K., Tanaka I.N., and Katayama K. Impact of high-intensity interval hypernea on aerobic energy release and inspiratory muscle fatigue. Respir. Physiol. Neurobiol. 104170, 2023.
• Shiozawa K., Saito M., Lee B.J., Kashima H., Endo YM., Ishida K., Millar J.P., and Katayama K. Effects of sex and menstrual cycle phase on celiac artery blood flow during dynamic moderate-intensity leg exercise in young individuals. J. Appl. Physiol 135: 956-967, 2023.
• Ogoh S., Oue A., Watanabe H., Saito S., Dora K., Ogoh N., Osuga M., Hasegawa T., and Katayama K. An evaluation of change in the physical output in female youth football players during a geme. Eur. J. Sports Sci. 2: 1-7, 2023.
• Nagamine K., Mineda D., Ishida K., Katayama K., and Kondo T. Mixed effects of moderate exercise and subsequent various food ingestion on breath acetone. J. Breath Res. 17: 016004, 2022.
• Lee J.B., Katayama K., abd Miller P.J. Upper and lower limb muscle sympathetic responses to contralateral exercise in healthy humans: a pilot study. Auton. Neurosci. 243: 103024, 2022.
• Shiozawa K., Kashima H., Mizuno S., Ishida K., and Katayama K. Blood pressure and celiac artery blood flow responses during increased inspiratory muscle work in healthy males. Exp. Physiol. 107: 1094-1104, 2022.
• Katayama K., Saito M., Ishida K., Shimizu K., Shiozawa K., Mizuno S., Ogoh S. Sympathetic vasomotor outflow low-intensity leg cycling in healthy older males. Exp. Physiol. 107: 825-833, 2022.
• Saito S., Washio T., Watanabe H., Katayama K., and Ogoh S. In fluence of cardiac output responses to the onset of exercise on cerebral blood flow. Eur. J. Appl. Physiol. 122: 1939-1948, 2022.
• Ogoh S., Saito S., Watanabe H., and Katayama K. Cerebral blood velocity and arterial pressure at the onset of exercise: potential influence of the cardiopulmonary baroreflex. Clin. Auton. Res. 32: 143-146, 2022.
• Shiozawa K., Shimizu K., Saito M., Ishida K., Mizuno S., and Katayama K. Sex differences in blood pressure and inactive limb blood flow responses during dynamic leg exercise with increased inspiratory muscle work. Nagoya J. Med. Sci. 84: 782-798, 2022.
• Mizuno S., Suzuki Y., Goto K., Takao K., Sumi D., Ishida K, Mizuno F., and Katayama K. Relationship between respiratory muscle endurance and dyspnea during high-intensity exercise in trained distance runners. Respir. Physiol. Neurobiol. 103812, 2022.
• Onodera S., Hamada H., Aratani Y., Yoshida N., Tamari Y., Wada T., Saito T., Tsuchida Y., Hayashi S., Ishimoto Y., Wakimoto T., Matuo K., Yamaguchi H., Yoshioka A., Katayama K., and Ogita F. Comparison of the heart rate and %VO2peak between the front and the rear rider in a 2-hour endurance tamdem-bicycle ride. Kawasaki J. Med. Welf. 151-155, 2021.
• Katayama K., Dominelli P.B., Foster G.E., Kipp S., Leahy M.G., Ishida K., and Sheel A.W. Respiratory modulation of sympathetic vasomotor outflow during graded leg cycling. J. Appl. Physiol. 131: 858-867, 2021.
• Shimizu K., Shiozawa K., Ishida K., Saito M., Mizuno S., Akima H., and Katayama K. Age and sex differences in blood pressure responses during hyperpnea. Exp. Physiol. 106: 736-747, 2021.
• Sheel A.W., Taylor J.L., and Katayama K. The hyperpnoea of exercise in health: Respiratory influences on neurovascular control. Exp. Physiol. 105: 1984-1989, 2020.
• Ando R., Ohya T., Kusanagi K., Koizumi J., Ohnuma H., Katayama K., and Suzuki Y. Effect of inspiratory resistive training on diaphragm shear modulus and accessory inspiratory muscle activation. Appl. Physiol. Nutr. Metab. 45: 851-856, 2020.
• Shimizu K., Shiozawa K., Ishida K., Saito M., Mizuno S., Akima H., and Katayama K. Blood pressure and limb blood flow responses during hyperpnoea are not affected by menstrual cycle phase in young women. Respir. Physiol. Nurobiol. 275: 103387, 2020.
• Yoshiko A. Katayama K., Ishida K., Ando R., Koike T., Oshida Y., and Akima H. Muscle deoxygenation and neuromuscular activation in synergistic muscles during intermittent exercise under hypoxic conditions. Sci. Rep. 10: 295, 2020.
• Katayama K., Barbosa T.C., Kaur J., Young B.E., Nandadeva D., Ogoh S. and Fadel P.J. Muscle pump-induced inhibition of sympathetic vasomotor outflow during low-intensity leg cycling is attenuated by muscle metaboreflex activation. J. Appl. Physiol. 128: 1-7, 2020.
• Ando S., Komiyama T., Sudo M., Higaki Y., Ishida K., Costello J.T., and Katayama K. The interactive effects of acute exercise and hypoxia on cognitive performance: a narrative review. Scand. J. Med. Sci. Sports 30: 384-398, 2020.
• Katayama K., Goto K., Ohya T., Iwamoto E., Takao K., Kasai N., Suimi D., Mori H., Ishida K., Shimizu K., Shiozawa K., and Suzuki Y. Effects of respiratory muscle endurance training in hypoxia on running performance. Med. Sci. Sports Exerc. 1477-1486, 2019.
• Katayama K. and Saito M. Muscle sympathetic nerve activity during exercise. J Physiol. Sci. 69: 589-598, 2019.
• Ando R., Kondo S., Katayama K., Ishida K., and Akima H. Neuromuscular activation of the knee and hip extensor muscles during high-intensity interval and moderate-intensity constant cycling. J. Electromyogr. Kinesiol. 44: 64-69, 2019.
• Katayama K., Goto K., Shimizu K., Saito M., Ishida K., Zhang L., Shiozawa K., and Sheel A.W. Effect of increased inspiratory muscle work on blood flow to inactive and active limbs during submaximal dynamic exercise. Exp. Physiol. 104: 180-188, 2019.
• Dominelli B.P., Katayama K., Vermuelen D.T., Stuckless J.R.T., Brown V.C., Foster E.G., and Sheel A.W. Work of breathing influences muscl sympathetic nerve activity during semi-recumbent cycle exercise. Acta Physiol. 225: e13212, 2019.
• Washio T., Vranish J.R., Kaur J., Young B.E., Katayama K., Fadel P.J., and Ogoh S. Acure reduction in posterior cerebral blood flow following isometric handgrip exercise augmented by lower body negative pressure. Phjysiol. Rep. 6: e13886, 2018.
• Katayama K., Kaur J., Young B.E., Barbosa T.C., Ogoh S., and Fadel P.J. High intensity muscle metaboreflex activation attenuates cardiopulmonary baroreflex-mediated inhibition of muscle sympathetic nerve activity. J. Appl. Physiol. 125: 812-819, 2018.
• Chino K., Ohya T., Katayama K., and Suzuki Y. Diaphramatic shear modulus at various submaximal inspiratory mouth pressure levels. Respir. Physiol. Neurobiol. 252-253: 52-57, 2018.
• Katayama K., Smith J.R. Goto K., Shimizu K., Saito M., Ishida K., Koike T., Iwase S., and Harms C. Elevated sympathetic vasmotor outflow in respose to increased inspiratory muscle activity during exercise is less in young women compared with men. Exp. Physiol. 103: 570-580, 2018.
• Shimizu K., Goto K., Ishida K., Saito M., Akima H., and Katayama K. Blood pressure response during normocapnic hyperpnoea is blunted in young women compared to men. Respir. Physiol. Neurobiol. 247: 52-56, 2018.
• Komiyama T., Katayama K., Sudo M., Ishida K., Higaki K., and Ando S. Cognitive function during exercise under severe hypoxia. Sci. Rep. 30: :10000. doi: 10.1038/s41598-017-10332-y. 2017
• Itoh Y., Katayama K., Iwamoto E., Goto K., Suzuki Y., Ohya T., Takao K., and Ishida K. Blunted blood pressure response during hyperpnoea in endurance runners. Respir. Physiol. Neurobiol. 230: 22-28, 2016.
• Katayama K.,Ishida K., Saito M., Koike T., and Ogoh S. Hypoxia attenuates cardiopulmonary reflex control of sympathetic nerve activity during mild dynamic leg exercise. Exp. Physiol. 101: 377-286, 2016.
• Katayama K., Yamashita S., Iwamoto E., and Ishida K. Flow-mediated dilation in the inactive limb following acute hypoxic exercise. Clin. Physiol. Func. Imaging. 36: 60-69, 2016.
• Sato K., Iemitsu M, Katayama K., Ishida K., Kanao Y, and Saito M. The responses of sex steriod hormone in different exercise intensities in endurance athletes. Exp. Physiol. 101: 168-175, 2016.
• Katayama K., Itoh Y., Saito M., Koike T., and Ishida K. Sympathetic vasomotor outflow and blood pressure increase during exercise with expiratory resistance. Physiol. Rep. 3: e12421, 2015.
• Iwamoto E., Katayama K., and Ishida K. Exercise intensity modulates brachial artery retrograde blood flow and shear rate during leg cycling in hypoxia. Physiol. Rep. 3: e12423, 2015.
• Katayama K., Suzuki Y., Hoshikawa M., Ohya T., Oriishi M., Itoh Y., and Ishida K. Hypoxia exaggerates inspiratory accessory muscle deoxygenation during hyperpnoea. Respir. Physiol. Neurobiol. 211: 1-8, 2015.
• Onodera S., Yoshioka A., Yamaguchi H., Matsumoto N., Nishimura K., Kawano H., Saito T., Arakane K., Hayashi S., Takagi Y., Wada T., Murata M., Seki K. Nose Y., Raum B. W., Katayama K., and Ogita F. Suitability of modified tandem-bicycle ergometer. J. Phy. Fit. Sports Med. 4: 249-251, 2015.
• Katayama K., Ishida K., Saito M., Koike T., Hirasawa A., and Ogoh S. Enhanced muscle pump during mild dynamic leg exercise inhibits sympathetic vasomotor outflow. Physiol. Rep. 16: e12070, 2014.
• Iwamoto E., Katayama K., Yamashita S., Oshida Y., and Ishida K. Retrograde blood flow in the inactive limb is enhanced during constant-load leg cycling in hypoxia. Eur. J. Appl. Physiol. 113: 2565-25475, 2013.
• Katayama K.,Yamashita S., Ishida K., Iwamoto E., Koike T., and Saito M. Hypoxic effects on sympathetic vasomotor outflow and blood pressure during exercise with inspiratory resistance. Am. J. Physiol. Regul. Integr. Comp. Physiol. 304: R374-R382, 2013.
• Katayama K., Fujita O., Iemitsu M., Kawano H., Iwamoto E., Saito M., and Ishida K. The effect of acute exercise in hypoxia on flow-mediated vasodilation. Eur. J. Appl. Physiol. 113: 349-357, 2013.
• Katayama, K., and Amann M. Respiratory muscle fatigue modulates the circulatory response to exercise. J. Phy. Fit. Sports Med. 1: 523-530, 2012.
• Katayama K., Iwamoto E., Ishida K., Koike T., and Saito M. Inspiratory muscle fatigue increases sympathetic vasomotor outflow and blood pressure during submaximal exercise. Am. J. Physiol. Regul. Integr. Comp. Physiol. 302: R1167-R1175, 2012.
• Iwamoto E., Katayama K., Yoshiharu Oshida, and Koji Ishida. Hypoxia augments oscillatory blood flow in brachial artery during leg cycling. Med. Sci. Sports Exerc. 44: 1035-1042, 2012.
• Katayama, K., K. Ishida, E. Iwamoto, M. Iemitsu, T. Koike, and M. Saito. Hypoxia augments muscle sympathetic neural response to leg cycling. Am. J. Physiol. Regul. Integr. Comp. Physiol. R456-R464, 2011.
• Sato, K., K. Katayama, N. Hotta, K. Ishida, and H. Akima. Aerobic exercise capacity and muscle volume after lower limb suspension with exercise countermeasure. Aviat. Space Environ. Med. 18: 1085-1091, 2010.
• Ishida, K., K. Katayama, H. Akima, S. Iwase, K. Sato, N. Hotta, and M. Miyamura. Effects of deconditioning on the initial ventilatory and circulatory responses at the onset of exercise in man. Adv. Exp. Med. Biol. 669: 319-322, 2010.
• Katayama, K., Y. Yoshitake, K. Watanabe, H. Akima, and K. Ishida. Muscle deoxygenation during sustained and intermittent isometric exercise in hypoxia. Med. Sci. Sports Exerc. 42: 1269-1278, 2010.
• Katayama, K., K. Goto, K. Ishida, and F. Ogita. Substrate utilization during exercise and recovery at moderate altitude. Metabolism 59: 959-966, 2010.
• Watanabe, K., K. Katayama, K. Ishida, and H. Akima. Electromyographic analysis of hip adductor muscles during incremental fatiguing pedaling exercise. Eur. J. Appl. Physiol. 106: 815-825, 2009.
• Sakuma, K., K. Watanabe, H. Hotta, T. Koike, K. Ishida, K. Katayama, and H. Akima. The adaptive responses in sevral mediators linked with hypertrophy and atrophy of skeletal muscle after lower limb unloading in humans. Acta Physiologica. 197: 151-159, 2009.
• Akima, H., N. Hotta, K. Sato, K. Ishida, T. Koike, and K. Katayama. Cycle ergometer exercise to counteract muscle atrophy during unilatearl lower limb suspension. Aviat. Space Environ. Med. 80: 652-656, 2009.
• Furuichi, Y., K. Masuda, H. Takakura, N. Hotta, K. Ishida, K. Katayama, S. Iwase, and H. Akima. Effect of intensive interval training during unloading on muscle deoxygenation kinetics. Int. J. Sports Med. 30: 563-568, 2009.
• Katayama, K., K. Ishida, K. Iwasaki, and M. Miyamura. Effect of two durations of short-term intermittent hypoxia on ventilatory chemosensitivity in humans. Eur. J. Appl. Physiol. 105: 815-821, 2009.
• Katayama, K., C. A. Smith, K. S. Henderson, and J. A. Dempsey. Chronic intermittent hypoxia increases the CO2 reserve in sleeping dogs. J. Appl. Physiol. 103: 1973-1978, 2007.
• Katayama, K., K. Sato, N. Hotta, K. Ishida, K. Iwasaki, and M. Miyamura. Intermittent hypoxia does not increase exercise ventilation at simulated moderate altitude. Int. J. Sports Med. 28: 480-487, 2007.
• Katayama, K., M. Amann, D. F. Pagelow, A. J. Jacques, and J. A. Dempsey. Effect of arterial oxygenation on quadriceps fatigability during isolated muscle exercise. Am. J. Physiol. Regul. Integr. Comp. Physiol. 292: R1279-R1286, 2007.
• Katayama, K.,H. Fujita, K. Sato, K. Ishida, K. Iwasaki, and M. Miyamura. Effect of a repeated series of intermittent hypoxic exposures on ventilatory response in humans. High Alt. Med. Biol. 6: 50-59, 2005.
• Akima, H., K. Katayama, K. Sato, K. Ishida, K. Masuda, H. Takada, Y. Watanabe, and S. Iwase. Intensive cycle training with artificial gravity maintains muscle size and function during bed rest. Aviat. Space Environ. Med.76: 923-929, 2005.
• Katayama, K.,K. Sato, H. Matsuo, N. Hotta, Z. Sun, K. Ishida, K. Iwasaki, and M. Miyamura. Changes in ventilatory responses to hypercapnia and hypoxia after intermittent hypoxia in humans. Respir. Physiol. Neurobiol. 146: 55-65, 2005.
• Sato, K., K. Katayama, N. Katayama, N. Hotta, K. Ishida, and M. Miyamura. Vestibulo-cardiorespiratpry responses at the onset of chair rotation in endurance runners. Jpn. J. Physiol. 55: 11-18, 2005.
• Katayama, K., K. Sato, H. Akima, K. Ishida, H. Takada, Y. Watanabe, M. Iwase, M. Miyamura, and S. Iwase. Acceleration with exercise during head-down bed rest preserves upright exercise responses. Aviat. Space Environ. Med. 75: 1029-1035, 2004.
• Sato. K., H. Matsuo, K. Katayama, K. Ishida, Y. Honda, K. Katsumata, and M. Miyamura. Ventilatory and circulatory responses at the onset of voluntary exercise and passive movement in sprinters. Eur. J. Appl.Physiol. 92: 196-203, 2004.
• Iwase, S., H. Takada, Y. Watanabe, K. Ishida, H. Akima, K. Katayama, M. Iwase, K. Hirayanagi, T. Shiozawa, T. Hamaoka, Y. Masuo, and M. A. Custaud. Effect of cetrifuge-induced artificial gracity and ergometric exercise on cardiovascular deconditioning, myatrophy, and osteoporosis induced by a-6 degree head-down bed rest. J. Gravit. Physiol. 11: 243-244, 2004.
• Katayama, K., K. Sato, H. Matsuo, K. Ishida, S. Mori, and M. Miyamura. Effects of intermittent hypoxic training and detraining on ventilatory chemosensitive adaptations in endurance athletes. Adv. Exp. Med. Biol. 551: 299-304, 2004.
• Miyamura. M., K. Ishida, K. Katayama, N. Shima, H. Matsuo, and K. Sato. Ventilatory and heart rate responses at the onset of chair rotation in man. Jpn. J. Physiol. 54: 499-503, 2004.
• Katayama, K., K. Sato, H. Matsuo, K. Ishida, K. Iwasaki, and M. Miyamura. Effect of intermittent hypoxia on oxygen uptake during submaximal exercise in endurance athletes. Eur. J. Appl. Physiol. 92: 75-83, 2004.
• Katayama, K., K. Sato, H. Akima, K. Ishida, T. Yanagiya, H. Kanehisa, H. Fukuoka, T. Fukunaga, and M. Miyamura. Ventilatory and cardiovascular responses to hypercapnia after 20 days of head-down bed rest. Aviat. Space Environ. Med. 75: 312-316, 2004
• Matsuo, H., K. Katayama, K. Ishida, T. Muramatsu, and M. Miyamura. Effects of menstrual cycle and gender on ventilation and heart rate responses at the onset of exercise. Eur. J Appl. Physiol. 90: 100-108, 2003
• Miyamura, M., K. Ishida, K. Katayama, Y. Sato, Y. Morotome, N. Shima, H. Matsuo, and K. Sato. Caridiorespiratory responses to hypoxia and hypercapnia at rest in vocalists. Jpn. J. Physiol. 53: 17-24, 2003.
• Katayama, K., H. Matsuo, K. Ishida, S. Mori, and M. Miyamura. Intermittent hypoxia improves endurance performance and submaximal exercise efficiency. High Alt. Med. Biol. 4: 291-304, 2003.
• Katayama, K., Y. Sato, N. Shima, J. Qiu, K. Ishida, S. Mori, and M. Miyamura. Enhanced chemosensitivity after intermittent hypoxic exposure does not affect exercise ventilation at sea level. Eur. J. Appl. Physiol. 87: 187-191, 2002.
• Takaishi, T., K. Ishida, K. Katayama, K. Yamazaki, T. Yamamoto, and T. Moritani. Effect of cycling experience and pedal cadence on the near-infrared spectroscopy parameters. Med. Sci. Sports Exerc. 34: 2062-2071, 2002.
• Miyamura M., K. Nishimura, K. Ishida, K. Katayama, M. Shimaoka, and S. Hiruta. Is man able to breathe once a minute for an hour ?: The effect of Yoga respiration on blood gases. Jpn. J. Physiol. 52: 313-316, 2002.
• Takaishi, T., T. Sugiura, K. Katayama, Y. Sayo, N. Shima, T. Yamamoto, and T. Moritani. Changes in blood volume and oxygenation level in a warking muscle during a crank cycle. Med. Sci. Sports Exerc. 34: 520-528, 2002.
• Shima N., K. Ishida, K. Katayama, Y. Morotome, Y. Sato, and M. Miyamura. Cross education of muscular strength during unilateral resistance training and detraining. Eur. J. Appl. Physiol. 86: 287-294, 2002.
• Katayama, K., N. Shima, Y. Sato, J. Qiu, K. Ishida, S. Mori, and M. Miyamura. Effect of intermittent hypoxia on cardiovascular adaptations and response to progressive hypoxia in humans. High Alt. Med. Biol. 2: 501-508, 2001.
• Katayama, K., Y. Sato, Y. Morotome, N. Shima, K. Ishida, S. Mori, and M. Miyamura. Intermittent hypoxia increases ventilation and SaO2 during hypoxic exercise and hypoxic chemosensitivity. J. Appl. Physiol. 90:1431-1440, 2001.
• Miyamura, M., K. Ishida, K. Katayama, Y. Sato, and N. Shima. Ventilatory and circulatory responses at the onset of rapid changes in posture. Adv. Exp. Med. Biol. 499: 357-62, 2001.
• Katayama, K., Y. Sato, Y. Morotome, N. Shima, K. Ishida, S. Mori, and M. Miyamura. Cardiovascular response to hypoxia after endurance training at altitude and sea level and detraining. J. Appl. Physiol. 88: 1221-1227, 2000.
• Sato, Y., K. Katayama, K. Ishida, and M. Miyamura. Ventilatory and circulatory responses at the onset of voluntary exercise and passive movements in children. Eur. J. Appl. Physiol. 83: 516-523, 2000.
• Ishida, K., Y. Sato, K. Katayama, and M. Miyamura. Initial ventilatory and circulatory responses to dynamic exercise are slowed in the elderly. J. Appl. Physiol. 89: 1771-1777, 2000.
• Katayama, K., Y. Sato, Y. Morotome, N. Shima, K. Ishida, S. Mori, and M. Miyamura. Ventilatory chemosensitive adaptations to intermittent hypoxic exposure with endurance training and detraining. J. Appl. Physiol. 86: 1805-1811, 1999.
• Miyachi, M. and K. Katayama. Effects of maximal interval training on arterial oxygen desaturation and ventilation during heavy exercise. Jpn. J. Physiol. 49: 401-407, 1999.
• Katayama, K., Y. Sato, K. Ishida, S. Mori, and M. Miyamura. The effects of intermittent exposure to hypoxia during endurance exercise training on the ventilatory responses to hypoxia and hypercapnia in humans. Eur. J. Appl. Physiol. 78: 189-194., 1998.
• Katayama, K. et al. Endurance exercise training increases peripheral vascular response in human fingers. Jpn. J. Physiol. 48: 365-371, 1998.
• Katayama, K. and M. Miyachi. The effect of maximal interval training for 10 weeks on arterial oxygen saturation during heavy exercise. Jpn. J. Phys. Fitness Sports Med. 45: 219-226, 1996 (Japanese).

Publications (2)

• Katayama, K. and M. Amann. Arterial oxygenation and muscle fatigue. In: Advance in neuromuscular physiology of motor skills and muscle fatigue. Ed. M. Shinohara, Research Signpost. pp 327-350, 2009.
• Katayama, K. Effect of intermittent hypoxia on hypoxic ventilatory response. In: Intermittent hypoxia. Eds. L. Xi and T. V. Serebrovskaya, Nova Science Publishers, Inc. New York, pp 281-296, 2009.
• Stickland, M., M. Amann, K. Katayama, and J. Dempsey. Pulmonary responses to exercise and limitations to human performance. In: Physiological bases of human performance during work and exercise. Eds. N. A. S. Taylor and H. Groeller.Elsevier, pp29-48, 2008.

Academic Affiliations

Regular Member

International

• American College of Sports Medicine
• International Society for Mountain Medicine

Japan

• Japanese Society of Physical Fitness and Sports Medicine
• Japan Society of Physical Education, Health and Sports Sciences

Link

• Annual Scientific Meeting of Respiratory and Exercise Physiology (Japanese)
• Research Center of Health, Physical Fitness and Sports, Nagoya University
• Graduate School of Medicine, Exercise and Sports Physiology, Nagoya University