HomickJLMillerEF. Apollo flight crew vestibular assessment. In: JohnstonRSDietleinLFBerryCA, eds. Biomedical results of Apollo. Washington, DC: National Aeronautics and Space Administration. NASA1975; SP-368; 323–40.
TreismanM. Motion sickness: An evolutionary hypothesis. Science1977; 197: 493–5.
4.
WoodCDGraybielA. Theory of antimotion sickness drug mechanisms. Aerospace Med1972; 43: 249–52.
5.
PoolSLNicogossianA. Biomedical results of the space shuttle orbital flight test program. Aviat Space Environ Med1983; 54: 41–9s.
6.
HomickJ. Space motion sickness. NASA Internal Report, 1979.
7.
GraybielALacknerJR. Rotation at 30 RPM about the 2-axis after 6 h in the 10° head-down position: Effect on susceptibility to motion sickness. Aviat Space Environ Med1979; 50: 390–2.
8.
GraybielALacknerJR. Comparison of susceptibility to motion sickness during rotation at 30 RPM in the Earth horizontal, 10° head-up, and 10° head-down position. Aviat Space Environ Med1977; 48: 7–11.
9.
LacknerJRGraybielA. Variations in gravitoinertial force level affect the gain of the vestibulo-ocular reflex: Implications for the etiology of space motion sickness. Aviat Space Environ Med1981; 52: 154–8.
10.
LacknerJRGraybielA. Etiology of space motion sickness: Role of the otolith-semicircular canal interactions. Soc Neurosci Abstr1981; A156: 13.
11.
LacknerJRGraybielA. Etiological factors in space motion sickness. Aviat Space Environ Med1983; 54: 675–80.
