亚洲临床医学杂志

因重力发生改变，可对生物生理系统产生不同的影响。近年来，许多研究关注于施加超重力后，可在生物片段各个水平上改变整个生物材料的物理特性。研究发现，重力变化可影响前庭信号和骨骼肌，并引起其功能、质量的改变。论文综述近年来国际研究团队对于施加超重力对生物前庭器官和骨骼及肌肉产生的影响的研究成果。结合航空医学，研究超重力状态影响发育的前瞻性特点，为未来航空医学背景下研究人体生理生化系统变化提供参考。

超重力；骨骼；肌肉；前庭器官

Timo Frett. Hypergravity facilities in the ESA ground-based facility program–current research activities and future tasks[J]. Microgravity Science and Technology, 2016,28(3):205-214.

Senthil Kumar Hariom, Akshara Ravi, Gokul Raj Mohan, et al.Animal physiology across the gravity continuum[J].Acta Astronautica, 2021(178):522-535.

N. Kawao, H. Morita, K. Obata, et al.The vestibular system is critical for the changes in muscle and bone induced by hypergravity in mice[J].Phys. Rep, 2016(4):1-13.

Lawrence, EA,Aggleton, J,van Loon, et al.Exposure to hypergravity during zebrafish development alters cartilage material properties and strain distribution[J].Bone & Joint Research,2021,10(2):137-148.

Clément Gilles R, Bukley Angelia P, Paloski William H. Artificial gravity as a countermeasure for mitigating physiological deconditioning during long-duration space missions[J]. Frontiers in systems neuroscience, 2015(9):92.

刘敏.运动干预对胎鼠前庭器官发育的影响[D].石家庄:河北师范大学,2012.

Bozzo C, Stevens L, Bouet V, et al. Hypergravity from conception to adult stage: Effects on contractile properties and skeletal muscle phenotype[J]. Exp Biol, 2004(207):2793-802.

Picquet F, Bouet V, Cochon L,et al. Changes in rat soleus muscle phenotype consecutive to a growth in hypergravity followed by normogravity[J]. Am J Physiol Regul Integr Comp Physiol, 2005,289(1):217-224.

Picquet F, De-Doncker L, Falempin M. Expression of Myosin heavy chain isoforms in rat soleus muscle spindles after 19 days of hypergravity[J]. Histochem Cytochem, 2003 ,51(11):1479-1489.

Schilder RJ, Raynor M. Molecular plasticity and functional enhancements of leg muscles in response to hypergravity in the fruit fly Drosophila melanogaster[J]. Exp Biol, 2017 ,220(19):3508-3518.

Kawao N, Morita H, Obata K, et al. The vestibular system is critical for the changes in muscle and bone induced by hypergravity in mice[J]. Physiol Rep, 2016,4(19):12979.

Stevens L, Bozzo C, Nemirovskaya T, et al. Contractile properties of rat single muscle fibers and myosin and troponin isoform expression after hypergravity[J].Appl Physiol, 2003,94(6):2398-2405.

Morita H, Kaji H, Ueta Y, et al. Understanding vestibular-related physiological functions could provide clues on adapting to a new gravitational environment[J]. The Journal of Physiological Sciences, 2020,70(1):17.

Kawao N, Morita H, Nishida K, et al. Effects of hypergravity on gene levels in anti-gravity muscle and bone through the vestibular system in mice[J]. Journal of Physiological Sciences, 2017(3):88-89.

Sonoda S, Yoshimura M, Abe C, et al. Effects of hypergravity on the gene expression of the hypothalamic feeding-related neuropeptides in mice via vestibular inputs[J]. Peptides, 2018(8):105.

Martin T, Mauvieux B, Bulla J, et al. Vestibular loss disrupts daily rhythm in rats[J]. Journal of Applied Physiology, 2015,118(3):310-318.

Abe C, Tanaka K, Awazu C, et al. Galvanic vestibular stimulation counteracts hypergravity-induced plastic alteration of vestibulo-cardiovascular reflex in rats[J]. Journal of Applied Physiology, 2009,107(4):1089-1094.

Morita H, Abe C, Awazu C, et al. Long-term hypergravity induces plastic alterations in vestibulo-cardiovascular reflex in conscious rats[J]. Neuroscience Letters, 2007,412(3):201-205.

C Abe, A Shibata, C Iwata, et al.Restriction of rear-up-behavior-induced attenuation of vestibulo-cardiovascular reflex in rats[J]. Neuroence Letters, 2010,484(1):1-5.

Timur Mirzoev, Sergey Tyganov, Irina Petrova , et al. New science study findings reported from Institute of biomedical problems (divergent anabolic signalling responses of murine soleus and tibialis anterior muscles to chronic 2G hypergravity)[J]. Science Letter,2017,7(1):3514.

Caizhi Liu, Guohui Zhong, Yuezhang Zhou, et al. Alteration of calcium signalling in cardiomyocyte induced by simulated microgravity and hypergravity[J].Cell Proliferation,2020,53(3):98-99.

Albi Elisabetta, Krüger Marcus, Hemmersbach Ruth, et al. Impact of gravity on thyroid cells.[J]. International journal of molecular sciences, 2017,18(5):143-145.

Marušič, Meeusen, Pišot, et al. The brain in micro- and hypergravity: The effects of changing gravity on the brain electrocortical activity[J]. European Journal of Sport Science,2014,14(8):329-332.