Effects of Microgravity on Human Physiology and Ground-Based Models for Space Physiological Studies

被引：0

作者：

QIU Wuxia ^{[1
]}

LIN Xiao ^{[1
]}

MIAO Zhiping ^{[1
]}

QIAN Airong ^{[1
]}

机构：

[1] Laboratory for Bone Metabolism, Key Laboratory for Space Bioscience and Biotechnology, School of Life Sciences, Northwestern Polytechnical University

来源：

AerospaceChina | 2017年 / 18卷 / 04期

关键词：

spaceflight; astronauts; microgravity; physiology effects; simulated microgravity;

D O I：

暂无

中图分类号：

R85 [航空航天医学];

学科分类号：

1001 ; 100106 ;

摘要：

With the development of manned spaceflight, more and more researches are involved in the area of gravitation physiology. When astronauts are exposed to microgravity, a series of special physiological or pathological changes will occur, which will start self-regulation mechanisms to reduce abnormalities and help the organism to better adapt to microgravity. However, these adaptive changes may also induce degradation or damage to physiological functions. This paper summarizes the physiological effects of microgravity on the human body from the aspects of skeletal and mineral metabolism, muscle structure and function, vestibular functions, cardiovascular function and pulmonary function, as well as expounds some commonly used ground-based space analogies. The paper will provide a reference for further study on the physiological effects of microgravity.

引用

页码：33 / 41

页数：9

共 18 条

[1] Pain and Vertebral Dysfunction in Dry Immersion: A Model of Microgravity Simulation Different from Bed Rest Studies[J] . L. Treffel,N. Massabuau,K. Zuj,M.-A. Custaud,G. Gauquelin-Koch,S. Blanc,C. Gharib,C. Millet,Anna Maria Aloisi.Pain Research and Management . 2017
[2] Subjective Vertical Conflict Theory and Space Motion Sickness
Chen, Wei
Chao, Jian-Gang
Wang, Jin-Kun
Chen, Xue-Wen
Tan, Cheng
[J]. AEROSPACE MEDICINE AND HUMAN PERFORMANCE, 2016, 87 (02) : 128 - 136
[3] Effects of spaceflight on the murine mandible: Possible factors mediating skeletal changes in non-weight bearing bones of the head[J] . Payal Ghosh,John N. Stabley,Bradley J. Behnke,Matthew R. Allen,Michael D. Delp.Bone . 2016
[4] Bone metabolism and renal stone risk during International Space Station missions[J] . Scott M. Smith,Martina Heer,Linda C. Shackelford,Jean D. Sibonga,Jordan Spatz,Robert A. Pietrzyk,Edgar K. Hudson,Sara R. Zwart.Bone . 2015
[5] EFFECTS OF MICROGRAVITY ON THE MOUSE TRICEPS BRACHII MUSCLE
Ishihara, Akihiko
Nagatomo, Fumiko
Terada, Masahiro
Fujino, Hidemi
Kondo, Hiroyo
Ishioka, Noriaki
[J]. MUSCLE & NERVE, 2015, 52 (01) : 63 - 68
[6] Fluid shifts, vasodilatation and ambulatory blood pressure reduction during long duration spaceflight[J] . Peter Norsk,Ali Asmar,Morten Damgaard,Niels Juel Christensen.J Physiol . 2015 (3)
[7] Adaptation of the water-electrolyte metabolism to space flight and at its imitation
Noskov V.B.
[J]. Human Physiology, 2013, 39 (5) : 551 - 556
[8] Ophthalmic changes and increased intracranial pressure associated with long duration spaceflight: An emerging understanding[J] . Karina Marshall-Bowman,Michael R. Barratt,C. Robert Gibson.Acta Astronautica . 2013
[9] Loss of Bone Strength is Dependent on Skeletal Site in Disuse Osteoporosis in Rats
Thomsen, Jesper Skovhus
Christensen, Lisbeth Lydiksen
Vegger, Jens Bay
Nyengaard, Jens Randel
Bruel, Annemarie
[J]. CALCIFIED TISSUE INTERNATIONAL, 2012, 90 (04) : 294 - 306
[10] Optic Disc Edema, Globe Flattening, Choroidal Folds, and Hyperopic Shifts Observed in Astronauts after Long-duration Space Flight[J] . Thomas H. Mader,C. Robert Gibson,Anastas F. Pass,Larry A. Kramer,Andrew G. Lee,Jennifer Fogarty,William J. Tarver,Joseph P. Dervay,Douglas R. Hamilton,Ashot Sargsyan,John L. Phillips,Duc Tran,William Lipsky,Jung Choi,Claudia Stern,Raffi Kuyumjian,James D. Polk.Ophthalmology . 2011 (10)

← 1 2 →