Author:
Koryak Yu. A.,Prochiy R. R.,Knutova N. S.
Subject
Physiology (medical),Physiology
Reference100 articles.
1. Sibonga, J.D., Cavanagh, P.R., Lang, Th.F., et al., Adaptation of the skeletal system during long-duration spaceflight, Clinic. Rev. Bone Miner. Metab., 2007, vol. 5, p. 249.
2. Ploutz-Snyder, L., Ryder, J., English, K., et al., NASA Evidence Report: Risk of Impaired Performance Due to Reduced Muscle Mass, Strength, and Endurance, 2015, Houston, Texas: National Aeronautics and Space Administration Lyndon B. Johnson Space Center Houston, HRP 47072.
3. Petersen, N., Lambrecht, G., Scott, J., et al., Postflight reconditioning for European astronauts—a case report of recovery after six months in space, Musculoskelet. Sci. Pract., 2017, vol. 27, p. S23.
4. Gopalakrishnan, R., Gencenc, K.O., Rice, A.J., et al., Muscle volume, strength, endurance, and exercise loads during 6-month missions in space, Aviat. Space Environ. Med., 2010, vol. 81, no. 2, p. 91.
5. Koryak, Yu.A., Isokinetic force and work capacity after long-duration Space Station Mir and short-term International Space Station missions, Aerosp. Med. Hum. Perform., 2020, vol. 91, no. 5, p. 422.