Sondag_References

References

Amtmann E (1971) Mechanical stress, functional adaptation and the variation structure of the human femur diaphysis. Ergebn Anat Entwickl-Gesch 44:1-89.
Amtmann E, Oyama J (1973) Changes in functional construction of bone in rats under conditions of simulated increased gravity. Z Anat Entwickl.-Gesch 139: 307-318.
Amtmann E, Oyama J (1976) Effect of chronic centrifugation on the structural development of the musculoskeletal system of the rat. Anat Embryol 149:47-70.
Anniko M (1980) Development of otoconia. Am J Otolaryngol 1(5):400-410.
Anniko M, Wikström SO, Wróblewski R (1987) X-ray microanalytic studies on developing otoconia. Acta Otolaryngol (Stockh) 104:285-289.
Ballarino J, Howland HC (1984) Centrifugation of 2 g does not affect otoconial mineralization in chick embryos. Am J Physiol 246:R305-R310.
Beckman DA, Evans JW, Oyama J (1978) Studies on the erythron and the ferrokinetic responses in beagles adapted to hypergravity. Aviat Space Environ Med 49:1331-1336.
Benser ME, Issi NP, Hudspeth AJ (1993) Hair-bundle stiffness dominates the elastic reactance to otolith-membrane shear. Hear Res 68:243-252.
Berry CA (1970) Findings on American astronauts bearing on the issue of artificial gravity for future manned space vehicles. In: Fifth symposium on the role of the vestibular organs in space exploration. Washington DC, NASA, SP-314:15-22.
Black FO, Paloski WH, Doxey-Gasway DD, Reschke MF (1995) Vestibular plasticity following orbital flight: recovery from postflight postural instability. Acto Otolaryngol (Stockh). Suppl 520:450-454.
Bles W, Bos JE, Furrer R, de Graaf B, Hosman RJAW, Kortschot HW, Krol JR, Marcus JT, Messerschmid E, Ockels WJ, Oosterveld WJ, Smit J, Wertheim AH, Wientjes CJE (1989) Space adaptation syndrome induced by a long duration +3Gx centrifuge run. TNO-IZF Rep 1989:25.
Bles W, de Graaf B (1993) Postural consequences of long duration centrifugation. J Vest Res 3:87-95.
Briney SR, Wunder CC (1962) Growth of hamsters during continual centrifugation. Am J Physiol 202:461-464.
Burkovskaya TE, Krasnov IB (1991) Blood and bone marrow of rats born and grown under hypergravity. Physiologist 34(1-Suppl):S139-S140.
Burton RR, Besch EL, Sluka SJ, Smith AH (1967) Differential effects of chronic acceleration on skeletal muscles. J Appl Physiol 23(1):80-84.
Campos A, Ciges M, Cañizares FJ, Crespo PV (1984) Mineralization in the newborn rat statoconia. Acta Otolaryngol (Stockh). 97:475-478.
Campos A, Cañizares FJ, Sánchez-Quevedo, MC, Romero PJ (1990) Otoconia degradation in the aged utricle and saccule. Adv. Otorhinolaryngol 45:143-153.
Campos A, López-Escámez JA, Cañizares FJ, Crespo PV (1992) Electron probe X-ray microanalysis of Ca and K distributions in the otolith membrane. Micron and Microsc Acta 23:349 - 350.
Chou JTY, Engelbrecht A, Ilberg C, Juraske P, Scherer H (1960) A study of otoconia of normal mice and shaker mice. Arch Otorhinolaryngol 229:231-243.
Clark DL (1973) Effects of weightlessness on development of vestibular apparatus and ocular nystagmus in the rat. Washington DC, U. S. Govern Rep N73-17112.
Clark DL (1974) Effects of chronic 2g centrifugation on equilibrium behaviour in the rat. Behav Biol. 12: 509-516.
Clément G, Berthoz A (1994) Proceedings of the 5th European Symposium on Life Sciences Research in space, Arcachon, France, ESA SP-366: 333-338.
Clément G, Gurfinkel VS, Lestienne F, Lipshits MI, Popov KE (1985) Changes of posture during transient perturbations in microgravity. Aviat, Space Environm Med. 56:666-671.
Colehour JK (1965) Stress measurement in normal and labyrinthine defective subjects in unusual force environments. In: The role of the vestibular organs in the exploration of space. Washington DC, NASA, SP-77:357-364.
Cooper G, Schiller AL (1975) Anatomy of the Guinea pig. Cambridge: Harvard University Press.
Crespo PV, Lopez-Escamez JA, Canizares FJ, Campos A (1993) X-ray micro-analytical determination of P, S and K concentrations in the gelatinous membrane of the utricle. Acta Otolaryngol (Stockh) 113:176-180.
Dai M, McGravie L, Kozlovskaya I, Raphan T, Cohen B (1994) Effects of spaceflight on ocular counterrolling and the spatial orientation of the vestibular system Exp Brain Res 102:45-56.
Daunton NG, Ross MD, Fox RA, Corcoran ML, Cutler LD, Wu LC (1991) Effects of chronic hyper-gravity on the rightings reflex and vestibular endorgan in the rat. Neurosc Abs 17(1): 316.
Dieringer N, Meier RK (1993). Evidence for separate and head position command signals in unrestrained rats. Neurosc Let, 162:129-132.
Dobie TG, May JG (1994) Cognitive behavioral management of motion sickness. Aviat Space Environm Med 65(10 - Suppl):C1-20.
Douglas RJ, Clark GM, Erway LC, Hubbard DG, Wright CG (1979) Effects of genetic vestibular defects on behavior related to spatial orientation and emotionality. J Comp Phys Psych 93: 467-480.
Economos AC, Miquel J, Ballard RC, Blunden M, Lindseth KA, Philpott DE, Oyama J (1982) Effects of simulated increased gravity on the rate of aging of rats:implications for the rate of living theory of aging. Arch Gerontol Geriatr 1:349-363.
Engström H, Engström B. The structure of the vestibular sensory epithelia. In: Gualtierotti, ed. The vestibular system: function and morphology. New York: Springer Verlag, 3-38, 1981.
Feller DD, Neville ED, Talarico KS (1968) Adipose tissue in altered lipid metabolism of rats exposed to centrifugation stress. Am J Phys 214:1434-1437.
Fermin CD (1993) High resolution and image processing of otoconia matrix. Microsc Res Tech 25:297-303.
Finlay BL, Berian CA. Visual and somatosensory processes. In: Siegel HI (ed) The hamster: reproduction and behavior, Plenum Press, New York London, 1985;409 - 433.
Fox RA, Daunton N, Corcoran M, Wu L. Time-course of behavioral adaptation to hyper-gravity. Woollacott M, Horak F (eds) Posture and gait: control mechanisms. Vol. 1 Portland: University of Oregon Books 1992; 178-181.
Franciscis de G, Solimene R, Donzelli C, Gambardella P, Pizzuti GP. (1990) Effect of the centrifuge forces on pregnant rats. Trieste, ESA, SP-307:275-277.
Gacek RR. The afferent and efferent vestibular pathways: Morphological pathways. In: Gualtierotti, ed. The vestibular system: function and morphology. New York: Springer Verlag, 3-38, 1981.
Graybiel A (1970) Vestibular problems in prolonged manned space flights. In: Stahle J (ed) Vestibular function on Earth and in space. Oxford: Pergamon Press:9-26.
Gresty MA, Bronstein AM (1992) Testing otolith function. Brit J Audiol 26:125-136.
Gresty MA, Bronstein AM, Brandt T, Dieterich M (1992) Neurology of otolith function: peripheral and central disorders. Brain 155:647-673.
Griffin MJ (1991) Pysical characteristics of stimuli provoking motion sickness. In: Motion Sickness: Significance in aerospace operations and prophylaxis. Agard. LS175, 3.1 - 3.32.
Guedry FE (1991a) Motion sickness and its relation to some forms of spatial orientation: mechanisms and theory. In: Motion Sickness: Significance in aerospace operations and prophylaxis. Agard LS175, 2.1-2.30.
Guedry FE (1991b) Factors influencing susceptibility: individual differences and human factors. In: Motion Sickness: Significance in aerospace operations and prophylaxis. Agard LS175, 5.1-5.18.
Hara H (1993) Changes in the utricular otoconia of the chick embryo developed under 2G-gravity. Nippon Jibiinkoka Gakkai Kaiho 96(6):969-976.
Hara H, Sekitani T, Kido T, Endo S, Ikeda T, Takahashi M (1995) Fine structures of utricle of developing chick embryo exposed to 2G gravity. Acta Otolaryngol (Stockh) Suppl 519:257-261.
Homick JL (1979) Space motion sickness. Acta Astronautica 6:1259-1272.
Homick JL, Reschke MF, Miller EF (1977) The effects of prolonged exposure to weightlessness on postural equilibrium. In Biomedical Results from skylab (eds Johnston RS, Dietlein LF) Washington DC: Scientific and Technical Information Office, NASA, pp 104-112.
Howland HC, Ballarino J. Is the growth of the otolith controlled by its weight? In: Gualtierotti T ed. The vestibular system:function and morphology, New York, Springer Verlag, 1981:77-87.
Hruska RE, Kennedy S, Silbergeld EK (1979) Quantitative aspects of normal locomotion in rats. Life Sci 25:171-180.
Hunter-Duvan IM (1983) An electron microscopic study of the vestibular sensory epithelium. Acta Otolaryngol (Stockh) 95:494-507.
Huygen PLM, Fischer AJEM, Kuijpers W (1986) The vestibular function in the manganese-deficient rat. Acta Otolaryngol (Stockh) 101:19-26.
Igarashi M, Himi T, Kulecz WB, Kobayashi K (1987). Role of otolith endorgans in the genesis of vestibular-visual conflict sickness (pitch) in the squirrel monkey (first report). Aviat Space Environm Med 58 (9 - Suppl):A207-A211.
Jaekel E, Amtmann E, Oyama J (1977) Effect of centrifugation on bone density of the rat. Anat Embryol 151:223-232.
Johnson JE, Mehler WR, Oyama J (1976) The effects of centrifugation on the morphology of the lateral vestibular nucleus in the rat: a light and electron microscopic study. Brain Res 106:205-221.
Johnson WH, Money KE, Graybiel A (1965) Some vestibular responses pertaining to space travel. In: The role of the vestibular organs in the exploration of space. Washington DC, NASA, SP-77:215-219.
Johnsson L-G, Rouse RC, Wright CG, Henry PJ, Hawkins JE (1982) Pathology of neuroepithelial suprastructures of the human inner ear. Am. J. Otolaryngol 3:77-90.
Kawamata S, Igarashi Y (1993) The fine structure of the developing otolith organs of the rat. Acta Otolaryngol (Stockh) Suppl 504:30-37.
Kawamata S, Igarashi Y (1995) Growth and turnover of rat otoconia as revealed by labeling with tetracycline. Anat Rec 242:259-266.
Kasper HJ, Hess BJM, Dieringer N. (1987). A precise and inexpensive magnetic field coil system for measuring eye and head movements in small laboratory animals. J Neurosc Meth, 19:115-124.
Keil LC (1968) Changes in growth and body composition of mice exposed to chronic centrifugation. Growth 33;83-88.
Kido T, Sekitani T, Yamashita H, Endo S, Okami K., Ogata Y, Hara H (1993) The otolith organ in the developing chick embryo: scanning electron microscopy study on the utricular macula. Acta Otolaryngol (Stockh) 113:128-136.
Kimura T, Amtman E, Doden E (1979) Compressive strength of the rat femur as influenced by hypergravity. J Biomech 12:361-365.
Kozlovskaya IB, Babaev BM, Barmin VA, Beloozerova IN, Kornilova LN, Sirota MG, Yakushin SB (1990) Human and animal results on vestibular research in space. Trieste, ESA, SP-307:353-357.
Krasnov IB (1991) The otolith apparatus and cerebellar nodulus in rats developed under 2G gravity. Physiologist. 34 (1 - Suppl), S206 - S207.
Krasnov IB, Polyakov IV, Ilyina-Kakueva EI, Drobyshev VI (1992) Morphology and histochemistry of spinal cord and soleus muscle in rats grown under hypergravity. Physiologist 35(1 Suppl):216-217.
Kuijpers W (1990) Anatomie van het perifeer vestibulaire apparaat. In: Fischer AJEM, Oosterveld WJ (eds) Duizeligheid en evenwichtstoornissen, Utrecht: AW Bruna Uitgevers, 19-28.
Lim DJ (1973) Formation and fate of the otoconia: scanning and transmission electron microscopy. Ann Otolaryngol 82, 23-35.
Lim DJ, Erway LC (1974) Influence of manganese ontogenetically defective otolith: a behavioral and morphological study. Ann Otol 83:565-581.
Lim DJ, Stith JA, Stockwell CW, Oyama J (1974) Observations on saccules of rats exposed to long-term hypergravity. Aerospace Med 45(7):705-710.
Lin KK, Reschke MF (1987). The use of the logistic model in space motion sickness prediction. Aviat Space Environm Med 58(9, Suppl):A9-15.
Lindemann HH (1969) Studies on the morphology of the sensory regions of the vestibular apparatus. Ergeb Anat Entwickl-Gesch 42:1-113.
Lipshits MI, Gurfinkel EV, McIntyre J, Droulez J, Gurfinkel VS, Berthoz A (1994) Influence of weightlessness on haptic perception. In: Fifth European Symposium on Life Sciences Research in space. Arcachon, ESA SP-366:367-371.
Llorens J, Demêmes D, Sans A (1993) The behavioural syndrome caused by 3,3'-iminodipropionitrile and related nitriles in the rat is associated with degeneration of the vestibular sensory hair cells. Toxicol Appl Pharmacol 123:199-210.
Lowenstein OE. Comparative morphology and physiology. In: Kornhuber, H.H. Ed. Handbook of sensory physiology; the vestibular system, part 1. Berlin: Springer-Verlag, 17-75, 1974.
Lychakov JA, Bojajieva-Mikhailova A, Christov I, Paschinin AN, Evdokimov II, Markov AA (1988) Changes in the otolith apparatus of rats and fish after prolonged exposure to acceleration. Kosm Biol Aviakosm Med 22(5): 27-33.
Martin WD (1978) Time course of change in soleus muscle fibers of rats subjected to chronic acceleration. Aviat Space Environ Med 49(6):792-797.
Martin WD (1980) Effects of chronic centrifugation on skeletal muscle fibers in young developing rats. Aviat Space Environ Med. 51(5):473-479.
Matthews BHC (1953) Adaptation to centrifugal acceleration. J Physiol 122:31.
Medicinalli L de, Freed WJ, Wyatt RD (1982) An index of the functional condition of rat sciatic nerve based on measurements made from walking tracks. Exp Neurol 77:634-643.
Mednieks MI, Fine AS, Oyama J, Philpott DE (1987) Cradiac muscle ultrastructure and cyclic AMP reactions to altered gravity conditions. Am J Physiol 21:R227-R232.
Megory E, Oyama J (1984) Hypergravity effects on litter size, nursing activity, Prolactin, TSH, T3, and T4 in the rat. Aviat Space Environ Med 55:11 29-1135.
Miller S, Potegal M, Abraham L (1982) Vestibular involvement in a passive transport and return task. Phys Psych 11(1):1-10.
Mitchell D, Laycock JD, Stephens BS (1977) Motion sickness-induced pica in the rat. Am J Clin Nutr 30:147-150.
Money KE (1991a) Signs and symptoms of motion sickness and its basic nature. In: Motion Sickness: Significance in aerospace operations and prophylaxis. Agard LS175, 1.1-1.4.
Money KE (1991b) Space sickness. In: Motion Sickness: Significance in aerospace operations and prophylaxis. Agard. LS175, 6.A1 - 6.A5.
Money KE, Correia MJ (1972) The vestibular system of the owl. Comp Bioch Physiol 42A:353-358.
Morita M, Takeda N, Kubo T, Matsunaga T (1988) Pica as an index of motion sickness in rats. ORL 50:188-192.
Ockels WJ, Furrer R, Messerschmid E (1990) Space sickness on earth. Exp Brain Res 79:661-663.
Oosterveld WJ. Changes in vestibular function with increasing age. In: Hinchcliffe R (ed): Hearing and balance in the elderly. London, Churchill Livingstone. 1983:354-372.
Ossenkopp K-P, Prkacin A, Hargreaves EL (1990) Sodium arsanilate-induced vestibular dysfunction in rats: effects on open-field behavior and spontaneous activity in the automated Digiscan monitoring system. Pharmacol Biochem Behav. 36:875-881.
Ossenkopp K-P, Eckel LA, Hargreaves EL, Kavaliers M (1992) Sodium arsanilate-induced vestibular dysfunction in meadow voles (microtus pennsylvanicus): effects on posture, spontaneous locomotor activity and swimming behaviour. Behav Brain Res. 47:13-22.
Oyama J, Chan L (1973) Oxygen consumption and carbon dioxide production in rats during acute centrifugation stress and after adaption to chronic centrifugation. Fed Pro 32:392.
Oyama J, Platt WT (1964) Effects of deceleration on rats exposed to prolonged centrifugation. Nature 203:766-767.
Oyama J, Platt WT (1965) Effects of prolonged centrifugation on growth and organ development of rats. Am J Physiol 209(3):611-615.
Oyama J, Platt WT (1967) Reproduction and growth of mice and rats under conditions of simulated increased gravity. Am J Physiol 212(1):164-166.
Oyama J, Platt WT, Holland VB (1971) Deep body temperature changes in rats exposed to chronic centrifugation. Am J Physiol 221(5):1271-1277.
Oyama J, Solgaard L, Corrales J, Monson CB (1992) Growth and development of mice and rats conceived and reared at different G-intensities during chronic centrifugation. Physiologist 35(1- Suppl):83-84.
Oyama J, Zeitman B (1967) Tissue composition of rats exposed to chronic centrifugation. Am J Physiol 213:1305-1310.
Paige GD (1991) The aging vestibulo-ocular reflex (VOR) and adaptive plasticity. Acta Otolaryngol (Stockh). Suppl 481:297-300.
Paloski WH, Black FO, Reschke MF, Calkins DS, Shupert C (1993) Vestibular ataxia following shuttle flights: effects of microgravity on otolith-mediated sensorimotor control of posture. Am J Otolog 14:9-17.
Parker DE (1980) The vestibular apparatus. Sci Am 243:98-112.
Pedrozo HA, Wiederhold ML (1994) Effects of hypergravity on statocyst development in embryonic Aplysia californica. Hear Res 79:137-146.
Pellis SM, Pellis VC, Morrissey TK, Teitelbaum P (1989) Visual modulation of vestibularly-triggered air-righting in the rat. Behav Brain Res 35:23-26.
Precht W. The physiology of the vestibular nuclei. In: Kornhuber, H.H. Ed. Handbook of sensory physiology; the vestibular system, part 1. Berlin: Springer-Verlag, 17-75, 1974.
Petrosini P (1984) Task-dependent rate of recovery from hemilabyrinthectomy: an analysis of swimming and locomotor performances. Physiol Beh. 33:799-804.
Pitts GC, Bull LS, Oyama J (1972) Effect of chronic centrifugation on body composition in the rat. Am J Physiol 223:1044-1048.
Reschke MF, Anderson DJ, Homick JL (1986) Vestibulo-spinal modification as determined with the H-reflex during Spacelab-1 flight. Exp Brain Res 64:367-379.
Reschke MF, Homick JL, Ryan P, Moseley EC (1984) Prediction of the Space Adaptation Syndrome. In: Motion sickness: Mechanisms, prediction, prevention and treatment. Agardo graph. 372(26):1-19.
Roll JP, Popov K, Gurfinkel V, Lipshits M, André-Deshays C, Gilhodes JC, Quoniam C (1990) Body proprioceptive references in weightlessness as studied by muscle tendon vibration. Proceedings of the 4th European Symposium on Life Sciences Research in space, Trieste, Italy, ESA SP-307, 307-312.
Ross HE, Schwartz E, Emmerson P (1987) The nature of sensorimotor adaptation to altered G-levels: Evidence from mass discrimination. Aviat Space Environ Med 58(9 - Suppl), A148-152.
Ross MD (1979) Calcium ion uptake and exchange in otoconia. Adv. Otorhinolaryngol 25:26-33.
Ross MD (1985) Anatomic evidence for peripheral neural processing in mammalian graviceptors. Aviat, Space Environ Med 56:338-343.
Ross MD (1987) Implications of otoconial changes in microgravity. Physiologist (1 - Suppl): S90-S93.
Ross MD (1988) Mammalian macular organization: a model information network. Adv Oto-Rhino-Laryngol 41:142-145.
Ross MD (1993) Morphological changes in rat vestibular system following weightlessness. J Vest Res 3:241-251.
Ross MD, Donovan K, Chee O (1985) Otoconial morphology in space-flown rats. Physiologist 28(6 - Suppl):S219-S220.
Ross MD, Komorowski TE, Donovan KM, Pote KG (1987) The suprastructure of the saccular macula. Acta Otolaryngol (Stockh) 103:56-63.
Ross MD, Peacor DR (1975) The nature and crystal growth of otoconia in the rat. An Otol Rhinol Laryngol 84:22-36, 1975.
Ross MD, Johnsson LG, Peacor DR, Allard LF (1976) Observations on normal and degenerating human otoconia. Ann Otol Rhinol Laryngol 84:22-36.
Salamat MS, Ross MD, Peacor DR (1980) Otoconial formation in the fetal rat. Ann Otol 80:229-238.
Sánchez-Fernández J, Rivera-Pomar J (1984) A scanning electron microscopy study on human otoconia genesis. Acta Otolaryngol (Stockh) 97:479-488.
Schip van het EP (1983) Het binnenoor. Amsterdam, Duphar Nederland B.V.
Serova LV (1991) Hypergravity and development of mammals. Physiologist 34(1-Suppl): 135-136.
Serova LV (1992) Adaptive capacities of mammals in weightlessness and hypergravity. Physiologist. 35(1-Suppl):89-91.
Serova LV, Denisova LA, Pustynnikova AM (1985) Comparative analysis of hypo- and hypergravity effects on prenatal development of mammals. Physiologist 28 (6-Suppl): S5-S8.
Shepherd GM. Neurobiology, 3th ed. New York: Oxford University Press; 1994.
Smith SD (1975) Effects of long-term rotation and hypergravity on developing rat femurs. Aviat Space Environ Med 46(3):248-253.
Smith SD (1977) Femoral development in chronically centrifuged rats. Aviat Space Environ Med 48(9):828-835.
Smith AH, Burton RR (1967) Influence of the ambient accelerative force upon mature body size. Growth 31:317-329.
Smith AH. Chronic acceleration. In: Burton RR, Hoshizaki T, Kelley CF, Smith AH, Wagman IH, (eds) Principles of gravitational biology. Space Biol and Med. Bioscience Programs Dir. NASA. 1972.
Sondag HNPM, de Jong HAA, Oosterveld WJ (1995a) The effect of prolonged hypergravity on the vestibular system; a behavioural study. ORL 57:189-193.
Sondag HNPM, De Jong HAA, Oosterveld WJ (1996a) Altered behaviour of hamsters by prolonged hypergravity; adaptation to 2.5 G and re-adaptation to 1 G. Acta Otolaryng (Stockh) 116: 192-197.
Sondag HNPM, de Jong HAA, van Marle J, Oosterveld WJ (1995b) Effects of sustained acceleration on the morphological properties of otoconia in hamsters. Acta Otolaryngol (Stockholm). 115:227-230.
Sondag HNPM, De Jong HAA, Van Marle J, Willekens B, Oosterveld WJ. (1996b) Otoconial alterations after embryonal development in hypergravity. Brain Res Bull 40: in press.
Steel FLD (1972) Early growth of rats in an increased gravity field. Nature 193:583-584.
Takumida M, Harada Y, Bagger-Sjöbäck D (1992) The statoconial membrane of the guinea pig utricular macula. Acta Otolaryngol (Stockh) 112:643-648.
Takumida M, Miyawaki H, Harada Y (1995) Cytoskeletal organization of the vestibular sensory epithelia. Acta Otolaryngol (Stockh). Suppl 519:66 - 70.
Thornton WE, Moore TP, Pool S, Vanderploeg J (1987) Clinical characterization and etiology of space motion sickness. Aviat Space Environ Med 58(9, Suppl):A1-8.
Treisman M (1977) Motion sickness: an evolutionary hypothesis. Science 197: 493-495.
Vauclair J, Gramont R, Meyer J-J, Zinder M (1977) Golden hamsters's visual responsiveness to red and near infra-red wavelengths measured with behavioural and electrophysiological methods. Biol Behav 2:353-362.
Vinnokov YA, Gazenko OG, Titova LK, Govardovska VI, Gribakin FG, Pevzner RA, Aronova MZ, Kharkeevich TA, Tsirulis TP, Pyatkina GA, Lichkov DV, Pal'mbach LP, Anichin VF (1979) The structural and functional organization of the vestibular apparatus of rats exposed to weightlessness for 20 days on board the Sputnik "Kosmos-782". Acta Otolaryngol (Stockh) 87:90-96.
Welch RB, Cohen MM, DeRoshia CW (1996) Reduction of the elevator illusion from continued hypergravity exposure and visual error-corrective feedback. Perc Psychophys. 58:22-30.
Wunder CC, Briney SR, Kral M, Skaugstad C (1960) Growth of mouse femurs during continual centrifugation. Nature 188:151-152.
Wunder CC, Cook KM, Watkins SR, Moressi WJ (1987) Femur-bending properties as influenced by gravity: 5. strength vs. calcium and gravity in rats exposed for 2 weeks. Aviat Space Environ Med 58:977-982.
Wunder CC, Cook KM, Welch RC, Glade R, Fleming BP (1977) Femur-bending properties as influenced by gravity: 1. ultimate load and moment for 3-G rats. Aviat Space Environ Med 48(4): 339-346.
Wunder CC, Welch RC (1977) Femur-bending properties as influenced by gravity: 2. ultimate load, moment and stress for 3-G mice. Aviat Space Environ Med 48(8):734-736.References
Young LR, Oman CM, Watt DGD, Money KE, Lichtenberg BK (1984) Spatial orientation in weightlessness and readaptation to earth�s gravity. Science 225:205-208.
Young LR, Oman CM, Watt DGD, Money KE, Lichtenberg BK, Kenyon RV, Arrott AP (1986) MIT/Canadian vestibular experiments on the spacelab-1 mission: 1. Sensory adaptation to weightlessness and readaptation to one-g: an overview. Exp Brain Res. 64:291-298.

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