A large human centrifuge for exploration and exploitation research

J.J.W.A. van Loon; J.P. Baeyens; J. Berte; S. Blanc; L. ter Braak; K. Bok; J. Bos; R. Boyle; N. Bravenoer; M. Eekhoff; A. Chouker; G. Clement; P. Cras; E. Cross; M.A. Cusaud; M. De Angelis; C. de Dreu; T. Delavaux; R. Delfos; C. Poelma; P. Denise; D. Felsenberg; K. Fong; C. Fuller; S. Grillner; E. Groen; J. Harlaar; M. Heer; N. Heglund; H. Hinghofer-Szalkay; N. Goswami; M. Hughes-Fulford; S. Iwase; J.M. Karemaker; B. Langdahl; D. Linarsson; C. Lüthen; M. Monici; E. Mulder; M. Narici; P. Norsk; W. Paloski; G.K. Prisk; M. Rutten; P. Singer; D. Stegeman; A. Stephan; G.J.M. Stienen; P. Suedfeld; P. Tesch; O. Ullrich; R. van den Berg; P. Van de Heyning; A. Delahaye; J. Veyt; L. Vico; E. Woodward; L.R. Young; F. Wuyts

A large human centrifuge for exploration and exploitation research

J.J.W.A. van Loon, J.P. Baeyens, J. Berte, S. Blanc, L. ter Braak, K. Bok, J. Bos, R. Boyle, N. Bravenoer, M. Eekhoff, A. Chouker, G. Clement, P. Cras, E. Cross, M.A. Cusaud, M. De Angelis, C. de Dreu, T. Delavaux, R. Delfos, C. PoelmaP. Denise, D. Felsenberg, K. Fong, C. Fuller, S. Grillner, E. Groen, J. Harlaar, M. Heer, N. Heglund, H. Hinghofer-Szalkay, N. Goswami, M. Hughes-Fulford, S. Iwase, J.M. Karemaker, B. Langdahl, D. Linarsson, C. Lüthen, M. Monici, E. Mulder, M. Narici, P. Norsk, W. Paloski, G.K. Prisk, M. Rutten, P. Singer, D. Stegeman, A. Stephan, G.J.M. Stienen, P. Suedfeld, P. Tesch, O. Ullrich, R. van den Berg, P. Van de Heyning, A. Delahaye, J. Veyt, L. Vico, E. Woodward, L.R. Young, F. Wuyts

Oral Cell Biology

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

This paper addresses concepts regarding the development of an Altered Gravity Platform (AGP) that will serve as a research platform for human space exploration. Space flight causes a multitude of physiological problems, many of which are due to gravity level transitions. Going from Earth’s gravity to microgravity generates fluid shifts, space motion sickness, cardiovascular deconditioning among other changes, and returning to a gravity environment again puts the astronauts under similar stressors. A prolonged stay in microgravity provokes additional deleterious changes such as bone loss, muscle atrophy and loss of coordination or specific psychological stresses. To prepare for future manned space exploration missions, a ground-based research test bed for validating countermeasures against the deleterious effects of g-level transitions is needed. The proposed AGP is a large rotating facility (diameter > 150 m), where gravity levels ranging from 1.1 to 1.5g are generated, covering short episodes or during prolonged stays of weeks or even months. On this platform, facilities are built where a crew of 6 to 8 humans can live autonomously. Adaptation from 1g to higher g levels can be studied extensively and monitored continuously. Similarly, re-adaptation back to 1g, after a prolonged period of altered g can also be investigated. Study of the physiological and psychological adaptation to changing g-levels will provide instrumental and predictive knowledge to better define the ultimate countermeasures that are needed for future successful manned space exploration missions to the Moon, Mars and elsewhere. The AGP initiative will allow scientific experts in Europe and worldwide to investigate the necessary scientific, operational, and engineering inputs
required for such space missions. Because so many different physiological systems are involved in adaptation to gravity levels, a multidisciplinary approach is crucial. One of the final and crucial steps is to verify the AGP concept through a large scientific community through feedback from various scientific societies. This facility will also serve clinical research on Earth, because a multitude of health problems such as osteoporosis, frailty of the elderly, inactivity, sarcopenia, obesity, insulin resistance and diabetes, cardiovascular problems, connective tissue ageing and immune deficiency, among others stand to benefit from the fundamental insights into the effects of our ever-present terrestrial gravity gained with such a novel research platform.

Original language	English
Pages (from-to)	107-121
Journal	Annales Kinesiologiae
Volume	3
Issue number	1
Publication status	Published - 2012

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van Loon, J. J. W. A., Baeyens, J. P., Berte, J., Blanc, S., ter Braak, L., Bok, K., Bos, J., Boyle, R., Bravenoer, N., Eekhoff, M., Chouker, A., Clement, G., Cras, P., Cross, E., Cusaud, M. A., De Angelis, M., de Dreu, C., Delavaux, T., Delfos, R., ... Wuyts, F. (2012). A large human centrifuge for exploration and exploitation research. Annales Kinesiologiae, 3(1), 107-121. http://elib.dlr.de/79197/1/AK_3,_2012_30_oktober.pdf.pdf

@article{83dd9b1230eb4dfb8ded24f5b1378563,

title = "A large human centrifuge for exploration and exploitation research",

abstract = "This paper addresses concepts regarding the development of an Altered Gravity Platform (AGP) that will serve as a research platform for human space exploration. Space flight causes a multitude of physiological problems, many of which are due to gravity level transitions. Going from Earth{\textquoteright}s gravity to microgravity generates fluid shifts, space motion sickness, cardiovascular deconditioning among other changes, and returning to a gravity environment again puts the astronauts under similar stressors. A prolonged stay in microgravity provokes additional deleterious changes such as bone loss, muscle atrophy and loss of coordination or specific psychological stresses. To prepare for future manned space exploration missions, a ground-based research test bed for validating countermeasures against the deleterious effects of g-level transitions is needed. The proposed AGP is a large rotating facility (diameter > 150 m), where gravity levels ranging from 1.1 to 1.5g are generated, covering short episodes or during prolonged stays of weeks or even months. On this platform, facilities are built where a crew of 6 to 8 humans can live autonomously. Adaptation from 1g to higher g levels can be studied extensively and monitored continuously. Similarly, re-adaptation back to 1g, after a prolonged period of altered g can also be investigated. Study of the physiological and psychological adaptation to changing g-levels will provide instrumental and predictive knowledge to better define the ultimate countermeasures that are needed for future successful manned space exploration missions to the Moon, Mars and elsewhere. The AGP initiative will allow scientific experts in Europe and worldwide to investigate the necessary scientific, operational, and engineering inputsrequired for such space missions. Because so many different physiological systems are involved in adaptation to gravity levels, a multidisciplinary approach is crucial. One of the final and crucial steps is to verify the AGP concept through a large scientific community through feedback from various scientific societies. This facility will also serve clinical research on Earth, because a multitude of health problems such as osteoporosis, frailty of the elderly, inactivity, sarcopenia, obesity, insulin resistance and diabetes, cardiovascular problems, connective tissue ageing and immune deficiency, among others stand to benefit from the fundamental insights into the effects of our ever-present terrestrial gravity gained with such a novel research platform.",

author = "{van Loon}, J.J.W.A. and J.P. Baeyens and J. Berte and S. Blanc and {ter Braak}, L. and K. Bok and J. Bos and R. Boyle and N. Bravenoer and M. Eekhoff and A. Chouker and G. Clement and P. Cras and E. Cross and M.A. Cusaud and {De Angelis}, M. and {de Dreu}, C. and T. Delavaux and R. Delfos and C. Poelma and P. Denise and D. Felsenberg and K. Fong and C. Fuller and S. Grillner and E. Groen and J. Harlaar and M. Heer and N. Heglund and H. Hinghofer-Szalkay and N. Goswami and M. Hughes-Fulford and S. Iwase and J.M. Karemaker and B. Langdahl and D. Linarsson and C. L{\"u}then and M. Monici and E. Mulder and M. Narici and P. Norsk and W. Paloski and G.K. Prisk and M. Rutten and P. Singer and D. Stegeman and A. Stephan and G.J.M. Stienen and P. Suedfeld and P. Tesch and O. Ullrich and {van den Berg}, R. and {Van de Heyning}, P. and A. Delahaye and J. Veyt and L. Vico and E. Woodward and L.R. Young and F. Wuyts",

year = "2012",

language = "English",

volume = "3",

pages = "107--121",

journal = "Annales Kinesiologiae",

issn = "2232-2620",

number = "1",

}

van Loon, JJWA, Baeyens, JP, Berte, J, Blanc, S, ter Braak, L, Bok, K, Bos, J, Boyle, R, Bravenoer, N, Eekhoff, M, Chouker, A, Clement, G, Cras, P, Cross, E, Cusaud, MA, De Angelis, M, de Dreu, C, Delavaux, T, Delfos, R, Poelma, C, Denise, P, Felsenberg, D, Fong, K, Fuller, C, Grillner, S, Groen, E, Harlaar, J, Heer, M, Heglund, N, Hinghofer-Szalkay, H, Goswami, N, Hughes-Fulford, M, Iwase, S, Karemaker, JM, Langdahl, B, Linarsson, D, Lüthen, C, Monici, M, Mulder, E, Narici, M, Norsk, P, Paloski, W, Prisk, GK, Rutten, M, Singer, P, Stegeman, D, Stephan, A, Stienen, GJM, Suedfeld, P, Tesch, P, Ullrich, O, van den Berg, R, Van de Heyning, P, Delahaye, A, Veyt, J, Vico, L, Woodward, E, Young, LR & Wuyts, F 2012, 'A large human centrifuge for exploration and exploitation research', Annales Kinesiologiae, vol. 3, no. 1, pp. 107-121. <http://elib.dlr.de/79197/1/AK_3,_2012_30_oktober.pdf.pdf>

TY - JOUR

T1 - A large human centrifuge for exploration and exploitation research

AU - van Loon, J.J.W.A.

AU - Baeyens, J.P.

AU - Berte, J.

AU - Blanc, S.

AU - ter Braak, L.

AU - Bok, K.

AU - Bos, J.

AU - Boyle, R.

AU - Bravenoer, N.

AU - Eekhoff, M.

AU - Chouker, A.

AU - Clement, G.

AU - Cras, P.

AU - Cross, E.

AU - Cusaud, M.A.

AU - De Angelis, M.

AU - de Dreu, C.

AU - Delavaux, T.

AU - Delfos, R.

AU - Poelma, C.

AU - Denise, P.

AU - Felsenberg, D.

AU - Fong, K.

AU - Fuller, C.

AU - Grillner, S.

AU - Groen, E.

AU - Harlaar, J.

AU - Heer, M.

AU - Heglund, N.

AU - Hinghofer-Szalkay, H.

AU - Goswami, N.

AU - Hughes-Fulford, M.

AU - Iwase, S.

AU - Karemaker, J.M.

AU - Langdahl, B.

AU - Linarsson, D.

AU - Lüthen, C.

AU - Monici, M.

AU - Mulder, E.

AU - Narici, M.

AU - Norsk, P.

AU - Paloski, W.

AU - Prisk, G.K.

AU - Rutten, M.

AU - Singer, P.

AU - Stegeman, D.

AU - Stephan, A.

AU - Stienen, G.J.M.

AU - Suedfeld, P.

AU - Tesch, P.

AU - Ullrich, O.

AU - van den Berg, R.

AU - Van de Heyning, P.

AU - Delahaye, A.

AU - Veyt, J.

AU - Vico, L.

AU - Woodward, E.

AU - Young, L.R.

AU - Wuyts, F.

PY - 2012

Y1 - 2012

N2 - This paper addresses concepts regarding the development of an Altered Gravity Platform (AGP) that will serve as a research platform for human space exploration. Space flight causes a multitude of physiological problems, many of which are due to gravity level transitions. Going from Earth’s gravity to microgravity generates fluid shifts, space motion sickness, cardiovascular deconditioning among other changes, and returning to a gravity environment again puts the astronauts under similar stressors. A prolonged stay in microgravity provokes additional deleterious changes such as bone loss, muscle atrophy and loss of coordination or specific psychological stresses. To prepare for future manned space exploration missions, a ground-based research test bed for validating countermeasures against the deleterious effects of g-level transitions is needed. The proposed AGP is a large rotating facility (diameter > 150 m), where gravity levels ranging from 1.1 to 1.5g are generated, covering short episodes or during prolonged stays of weeks or even months. On this platform, facilities are built where a crew of 6 to 8 humans can live autonomously. Adaptation from 1g to higher g levels can be studied extensively and monitored continuously. Similarly, re-adaptation back to 1g, after a prolonged period of altered g can also be investigated. Study of the physiological and psychological adaptation to changing g-levels will provide instrumental and predictive knowledge to better define the ultimate countermeasures that are needed for future successful manned space exploration missions to the Moon, Mars and elsewhere. The AGP initiative will allow scientific experts in Europe and worldwide to investigate the necessary scientific, operational, and engineering inputsrequired for such space missions. Because so many different physiological systems are involved in adaptation to gravity levels, a multidisciplinary approach is crucial. One of the final and crucial steps is to verify the AGP concept through a large scientific community through feedback from various scientific societies. This facility will also serve clinical research on Earth, because a multitude of health problems such as osteoporosis, frailty of the elderly, inactivity, sarcopenia, obesity, insulin resistance and diabetes, cardiovascular problems, connective tissue ageing and immune deficiency, among others stand to benefit from the fundamental insights into the effects of our ever-present terrestrial gravity gained with such a novel research platform.

AB - This paper addresses concepts regarding the development of an Altered Gravity Platform (AGP) that will serve as a research platform for human space exploration. Space flight causes a multitude of physiological problems, many of which are due to gravity level transitions. Going from Earth’s gravity to microgravity generates fluid shifts, space motion sickness, cardiovascular deconditioning among other changes, and returning to a gravity environment again puts the astronauts under similar stressors. A prolonged stay in microgravity provokes additional deleterious changes such as bone loss, muscle atrophy and loss of coordination or specific psychological stresses. To prepare for future manned space exploration missions, a ground-based research test bed for validating countermeasures against the deleterious effects of g-level transitions is needed. The proposed AGP is a large rotating facility (diameter > 150 m), where gravity levels ranging from 1.1 to 1.5g are generated, covering short episodes or during prolonged stays of weeks or even months. On this platform, facilities are built where a crew of 6 to 8 humans can live autonomously. Adaptation from 1g to higher g levels can be studied extensively and monitored continuously. Similarly, re-adaptation back to 1g, after a prolonged period of altered g can also be investigated. Study of the physiological and psychological adaptation to changing g-levels will provide instrumental and predictive knowledge to better define the ultimate countermeasures that are needed for future successful manned space exploration missions to the Moon, Mars and elsewhere. The AGP initiative will allow scientific experts in Europe and worldwide to investigate the necessary scientific, operational, and engineering inputsrequired for such space missions. Because so many different physiological systems are involved in adaptation to gravity levels, a multidisciplinary approach is crucial. One of the final and crucial steps is to verify the AGP concept through a large scientific community through feedback from various scientific societies. This facility will also serve clinical research on Earth, because a multitude of health problems such as osteoporosis, frailty of the elderly, inactivity, sarcopenia, obesity, insulin resistance and diabetes, cardiovascular problems, connective tissue ageing and immune deficiency, among others stand to benefit from the fundamental insights into the effects of our ever-present terrestrial gravity gained with such a novel research platform.

M3 - Article

SN - 2232-2620

VL - 3

SP - 107

EP - 121

JO - Annales Kinesiologiae

JF - Annales Kinesiologiae

IS - 1

ER -

A large human centrifuge for exploration and exploitation research

Abstract

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