Vol. 93, Issue 3, 1047-1056, September 2002
Spaceflight affects bone formation in rhesus monkeys: a
histological and cell culture study
Erik
Zérath1,
Marc
Grynpas2,
Xavier
Holy1,
Michel
Viso3,
Patricia
Patterson-Buckendahl4, and
Pierre J.
Marie5
1 Department of Aerospace Physiology, IMASSA, 91223 Brétigny-sur-Orge, France;
2 Department of Laboratory Medicine and Pathobiology,
University of Toronto, and Samuel Lunenfeld Research Institute of
Mount Sinai Hospital, Toronto, Ontario, Canada M5G
1X5; 3 Centre National d'Etudes Spatiales,
75001 Paris, France; 4 Center of
Alcohol Studies, Rutgers University, Piscataway, New Jersey
08854; 5 INSERM Unit 349, Affiliated CNRS,
Lariboisiere Hospital, 75010 Paris, France
Using analyses of iliac crest cell
and tissue, back-scattered electron imaging, and biochemical
techniques, we characterized the effects of a 14-day spaceflight (Bion
11) on bone structure and bone formation in two 3- to 4-yr-old male
rhesus monkeys compared with eight age-matched Earth-control monkeys.
We found that postflight bone volume was 35% lower than preflight
values in flight monkeys. This was associated with reduced osteoid
(
40%) and mineralizing (32%) surfaces and decreased bone
formation rate (53%). Moreover, flight monkeys exhibited trends to
lower values of mineralization profile in iliac bone (back-scattered
electron imaging) and to decreased osteocalcin serum levels
(P = 0.08). The initial number of trabecular bone cells
yielded in cultures did not differ in flight and control animals before
or after the flight. However, osteoblastic cell proliferation was
markedly lower in postflight vs. preflight at 9 and 14 days of culture
in one flight monkey. This study suggests that a 14-day spaceflight
reduces iliac bone formation, osteoblastic activity, and/or recruitment
in young rhesus monkeys, resulting in decreased trabecular bone volume.
microgravity; primate; cancellous bone; osteoblasts; histomorphometry; back-scattered imaging; osteocalcin
