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Items: 1 to 20 of 158

1.

Validation of centrifugation as a countermeasure for otolith deconditioning during spaceflight: preliminary data of the ESA SPIN study.

Buytaert KI, MacDougall HG, Moore ST, Clement G, Pattyn N, Migeotte PF, Wuyts FL.

J Vestib Res. 2013;23(1):23-31. doi: 10.3233/VES-130469.

PMID:
23549052
2.

Artificial gravity: a possible countermeasure for post-flight orthostatic intolerance.

Moore ST, Diedrich A, Biaggioni I, Kaufmann H, Raphan T, Cohen B.

Acta Astronaut. 2005 May-Jun;56(9-12):867-76.

PMID:
15835033
3.

Ocular and perceptual responses to linear acceleration in microgravity: alterations in otolith function on the COSMOS and Neurolab flights.

Moore ST, Clément G, Dai M, Raphan T, Solomon D, Cohen B.

J Vestib Res. 2003;13(4-6):377-93.

PMID:
15096679
4.

Decreased otolith-mediated vestibular response in 25 astronauts induced by long-duration spaceflight.

Hallgren E, Kornilova L, Fransen E, Glukhikh D, Moore ST, Clément G, Van Ombergen A, MacDougall H, Naumov I, Wuyts FL.

J Neurophysiol. 2016 Jun 1;115(6):3045-51. doi: 10.1152/jn.00065.2016. Epub 2016 Mar 23.

5.

Ocular counterrolling induced by centrifugation during orbital space flight.

Moore ST, Clément G, Raphan T, Cohen B.

Exp Brain Res. 2001 Apr;137(3-4):323-35.

PMID:
11355379
6.

Vestibular adaptation to space in monkeys.

Dai M, Raphan T, Kozlovskaya I, Cohen B.

Otolaryngol Head Neck Surg. 1998 Jul;119(1):65-77.

PMID:
9674517
7.

Life in a spin: what has been learnt from space.

Clement G, Angerer O, Schmitt D.

ESA Bull. 2003 Nov;116:38-42.

PMID:
14740651
8.

Static and dynamic vestibulo-cervico-ocular responses after prolonged exposure to microgravity.

Kornilova LN, Sagalovitch SV, Temnikova VV, Yakushev AG.

J Vestib Res. 2007;17(5-6):217-26.

PMID:
18626133
9.

The effect of space missions on gravity-responsive torsional eye movements.

Diamond SG, Markham CH.

J Vestib Res. 1998 May-Jun;8(3):217-31.

PMID:
9626649
10.

Modification of unilateral otolith responses following spaceflight.

Clarke AH, Schönfeld U.

Exp Brain Res. 2015 Dec;233(12):3613-24. doi: 10.1007/s00221-015-4428-0. Epub 2015 Sep 10.

PMID:
26358122
11.

Microgravity effect on the vestibulo-ocular reflex is dependent on otolith and vision contributions.

Grigorova VK, Kornilova LN.

Aviat Space Environ Med. 1996 Oct;67(10):947-54.

PMID:
9025817
12.

Human ocular counter-rolling and roll tilt perception during off-vertical axis rotation after spaceflight.

Clément G, Denise P, Reschke MF, Wood SJ.

J Vestib Res. 2007;17(5-6):209-15.

PMID:
18626132
13.

[EFFECT OF REPEATED SPACE FLIGHTS ON OCULAR TRACKING].

Naumov IA, Kornilova LN, Glukhikh DO, Pavlova AS, Khabarova EV, Ekimovsky GA, Vasin AV.

Aviakosm Ekolog Med. 2016;50(1):17-27. Russian.

PMID:
27344853
15.

The European vestibular experiments in Spacelab-1.

Kass J, von Baumgarten R, Benson A, Berthoz A, Brandt Th, Brand U, Bruzek W, Dichgans J, Probst Th, Scherer H, Vieville Th, Vogel H, Wetzig J.

Adv Space Res. 1984;4(10):3-9.

PMID:
11539641
16.

Ocular torsion response to active head-roll movement under one-g and zero-g conditions.

Clarke AH, Kornilova L.

J Vestib Res. 2007;17(2-3):99-111.

PMID:
18413903
17.

The vestibulo-ocular reflex of hypergravity rats.

Wubbels RJ, de Jong HA.

J Gravit Physiol. 2001 Jul;8(1):P113-4.

PMID:
12650194
18.

Eye movements and motion perception during off-vertical axis rotation after spaceflight.

Clément G, Wood SJ.

J Vestib Res. 2013;23(1):13-22. doi: 10.3233/VES-130471.

PMID:
23549051
19.

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