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Experiment K-7-28: Lung Morphology StudyThere are no previous studies investigating the effect of microgravity exposure during spaceflight on lung tissue. We examined the ultrastructure of the left lungs of 5 Czechoslovakian Wistar rats flown on the 13 day, 19+ hr. Cosmos 2044 mission, and compared them to 5 vivarium and 5 synchronous controls at 1-g conditions, and 5 rats exposed to 14 days of tail-suspension. Within 10 minutes of sacrifice by decapitation, the lungs were removed and immersed in 3% glutaraldehyde in 0.1M phosphate buffer (total osmolarity of the fixative: 560 mOsm; pH = 7.4). The tissue stored at 5 C was transported to our laboratory where it was processed for light and electron microscopy. No significant perivascular cuffing caused by interstitial edema was present in the tissue samples. Some of the flight, tail-suspended, and synchronous control rats showed alveolar edema, while vivarium controls did not. The pulmonary capillaries appeared to be more congested in the flight animals than in the other groups. This could be related to the increased hematocrit due to the microgravity exposure. In all 5 flight, 4 tail-suspended, and 3 synchronous rats, red blood cells (RBC) were present in the alveolar spaces. The RBC were either suspended free in the alveoli or observed lining the alveolar wall. The frequency of RBC lining the alveolar walls appeared greater in the dorsal (gravity non-dependent) than in ventral (gravity dependent) regions of the lung in these three animal groups. In 3 of the vivarium controls, a few RBC were found in the alveolar spaces. Intra-capillary fluid-filled vesicles were observed in the flight, tail-suspended and synchronous animals, but not in the vivarium controls. The formation of intra-capillary fluid-filled vesicles has been previously associated with pulmonary hypertension induced by high altitude exposure and mitral stenosis. In conclusion, pulmonary hemorrhage and alveolar edema of unknown origin occurred to a greater extent in the flight, tail-suspended, and synchronous control animals, and in the dorsal regions of the lung when compared to the vivarium controls. The etiology of these changes, which are possibly due to an increase in pulmonary vascular pressure, requires further investigation.
Document ID
19960029003
Acquisition Source
Ames Research Center
Document Type
Other
Authors
West, J. B.
(California Univ., San Diego La Jolla, CA United States)
Elliott, A. R.
(California Univ., San Diego La Jolla, CA United States)
Mathieu-Costello, O.
(California Univ., San Diego La Jolla, CA United States)
Kaplansky, A. S.
(Institute of Biomedical Problems Moscow, USSR)
Date Acquired
August 17, 2013
Publication Date
September 1, 1994
Publication Information
Publication: US Experiments Flown on the Soviet Biosatellite Cosmos 2044
Subject Category
Life Sciences (General)
Accession Number
96N29598
Funding Number(s)
CONTRACT_GRANT: NAG2-616
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
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