Immune changes during short-duration missions
Spaceflight materially influences the immune mechanism of humans and animals. Effects resulting from missions of less than 1 month are examined. Effects from longer missions are discussed in the companion paper by Konstantinova et al. Most immunology studies have involved analyses of subjects and sa...
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| Published in | Journal of leukocyte biology Vol. 54; no. 3; pp. 202 - 208 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
Legacy CDMS
Society for Leukocyte Biology
01.09.1993
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0741-5400 1938-3673 |
| DOI | 10.1002/jlb.54.3.202 |
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| Abstract | Spaceflight materially influences the immune mechanism of humans and animals. Effects resulting from missions of less than 1 month are examined. Effects from longer missions are discussed in the companion paper by Konstantinova et al. Most immunology studies have involved analyses of subjects and samples from subjects obtained after flight, with the data being compared with similar data obtained before flight. These studies have demonstrated that short-duration missions can result in a postflight depression in blast cell transformation, major changes in cytokine function, and alterations in the relative numbers of immune cell populations. In addition to these post- vs. preflight studies, some data have been produced in flight. However, these in vitro analyses have been less than satisfactory because of differences between in-flight and ground-control conditions. Recently, both the U.S. and Russian space programs have started collecting in-flight, in vivo, cell-mediated immunity data. These studies have confirmed that the human cell-mediated immune system is blunted during spaceflight. |
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| AbstractList | Spaceflight materially influences the immune mechanism of humans and animals. Effects resulting from missions of less than 1 month are examined. Effects from longer missions are discussed in the companion paper by Konstantinova et al. Most immunology studies have involved analyses of subjects and samples from subjects obtained after flight, with the data being compared with similar data obtained before flight. These studies have demonstrated that short‐duration missions can result in a postflight depression in blast cell transformation, major changes in cytokine function, and alterations in the relative numbers of immune cell populations. In addition to these post‐ vs. preflight studies, some data have been produced in flight. However, these in vitro analyses have been less than satisfactory because of differences between in‐flight and ground‐control conditions. Recently, both the U.S. and Russian space programs have started collecting in‐flight, in vivo, cell‐mediated immunity data. These studies have confirmed that the human cell‐ mediated immune system is blunted during spaceflight. Spaceflight materially influences the immune mechanism of humans and animals. Effects resulting from missions of less than 1 month are examined. Effects from longer missions are discussed in the companion paper by Konstantinova et al. Most immunology studies have involved analyses of subjects and samples from subjects obtained after flight, with the data being compared with similar data obtained before flight. These studies have demonstrated that short-duration missions can result in a postflight depression in blast cell transformation, major changes in cytokine function, and alterations in the relative numbers of immune cell populations. In addition to these post- vs. preflight studies, some data have been produced in flight. However, these in vitro analyses have been less than satisfactory because of differences between in-flight and ground-control conditions. Recently, both the U.S. and Russian space programs have started collecting in-flight, in vivo, cell-mediated immunity data. These studies have confirmed that the human cell-mediated immune system is blunted during spaceflight.Spaceflight materially influences the immune mechanism of humans and animals. Effects resulting from missions of less than 1 month are examined. Effects from longer missions are discussed in the companion paper by Konstantinova et al. Most immunology studies have involved analyses of subjects and samples from subjects obtained after flight, with the data being compared with similar data obtained before flight. These studies have demonstrated that short-duration missions can result in a postflight depression in blast cell transformation, major changes in cytokine function, and alterations in the relative numbers of immune cell populations. In addition to these post- vs. preflight studies, some data have been produced in flight. However, these in vitro analyses have been less than satisfactory because of differences between in-flight and ground-control conditions. Recently, both the U.S. and Russian space programs have started collecting in-flight, in vivo, cell-mediated immunity data. These studies have confirmed that the human cell-mediated immune system is blunted during spaceflight. Spaceflight materially influences the immune mechanism of humans and animals. Effects resulting from missions of less than 1 month are examined. Effects from longer missions are discussed in the companion paper by Konstantinova et al. Most immunology studies have involved analyses of subjects and samples from subjects obtained after flight, with the data being compared with similar data obtained before flight. These studies have demonstrated that short-duration missions can result in a postflight depression in blast cell transformation, major changes in cytokine function, and alterations in the relative numbers of immune cell populations. Recently, both the U.S. and Russian space programs have started collecting in-flight, in vivo, cell-mediated immunity data. These studies have confirmed that the human cell-mediated immune system is blunted during spaceflight. |
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| Author | G R Taylor |
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| Keywords | Human Immune System/physiology Nasa Experiment Number Ap002 Nasa Discipline Number 18-10 Salyut Project Space Flight Soyuz Project Flight Experiment Sts Shuttle Project Nasa Center Jsc Apollo-Soyuz Project Long Duration Apollo Project Time Factors Skylab Project Nasa Program Space Physiology And Countermeasures Nasa Discipline Regulatory Physiology Nasa Experiment Number Ar-002 NASA Experiment Number AR-002 NASA Program Space Physiology and Countermeasures NASA Center JSC NASA Discipline Number 18-10 NASA Discipline Regulatory Physiology NASA Experiment Number AP002 |
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| Title | Immune changes during short-duration missions |
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