Subregional Bone Lang TF, Leblanc AD, Evans HE, Lu Y, Genant HK,
Yu A. Cortical and trabecular bone mineral loss
from the spine and hip in long-duration
spaceflight. Journal of Bone and Mineral
Research. 2004;19(6):1006-1012. doi:
10.1359/JBMR.040307.
NASA
Human Research: Cardiovascular and Respiratory Systems
Aorta Karemaker JM, Berecki-Gisolf J. Twenty-four
hour blood pressure in space: The dark side of
being an astronaut. Respiratory Physiology and
Neurobiology. 2009;169:S55-S58. doi:
10.1016/j.resp.2009.05.006.
ESA
Aorta Berecki-Gisolf J, Immink RV, Van Lieshout JJ,
Stok WJ, Karemaker JM. Orthostatic blood
pressure control before and after spaceflight,
determined by time-domain baroreflex method.
Journal of Applied Physiology. May
2005;98(5):1682-1690. doi: 10.1152
/japplphysiol.01219.2004.
ESA
Biological Rhythms Yamamoto N, Otsuka K, Kubo Y, et al. Effects of
long-term microgravity exposure in space on
circadian rhythms of heart rate variability.
Chronobiology International. November 13,
2014;1–14.
JAXA
Card Christensen NJ, Heer MA, Ivanova K, Norsk P.
Sympathetic nervous activity decreases during
head down bed rest but not during
microgravity. Microgravity Science and
Technology. September 2007;19(5-6):95-97.
doi: 10.1007/BF02919460.
ESA
Card Gabrielsen A, Norsk P. Effect of spaceflight on
the subcutaneous venoarteriolar reflex in the
human lower leg. Journal of Applied Physiology.
2007;103(3):959-962. doi: 10.1152/japplphysiol.
00899.2006.
ESA
Card Christensen NJ, Heer MA, Ivanova K, Norsk P.
Sympathetic nervous activity decreases during
head-down bed rest but not during
microgravity. Journal of Applied Physiology.
June 16, 2005;99(4):1552-1557. doi:
10.1152/japplphysiol.00017.2005.