Evaluation of otolith organ function by means of ocular counter-rolling measurements

Evaluation of otolith organ function by photographic measurement of ocular counterrollin

Comparison of autokinetic movement perceived by normal persons and deaf subjects with bilateral labyrinthine defects

Comparison of autokinetic movement perceived by normal persons and deaf subjects with bilateral labyrinthine defects - Aerospace medicin

Altered susceptibility to motion sickness as a function of subgravity level

Large interindividual differences among 74 normal subjects in the change in susceptibility to motion sickness with effective lifting of the normal g-load by parabolic flight maneuvers were recorded with high test-retest reliability. Most subjects, who were required to make standardized head movements while seated in a chair rotating at a constant speed, demonstrated either a substantial increase or a decrease in susceptibility, in confirmation of a previous study, while a few appeared to be more or less unaffected by the 1 g to 0 g gravitational change. A similar test procedure conducted with eighteen of the subjects at lunar- and Martian-gravity levels revealed further interindividual differences in susceptiblity as a function of g-level. The subjects with gravity-dependent susceptibility revealed: (1) a progressive change in susceptibility as a function of g-load in either the positive or negative direction that was characteristic of the individual, (2) a susceptibility level that appeared to be maintained at the fractional g-load, and (3) immunity to motion sickness at all g-levels tested below the earth standard. The case history as well as ground-based functional and provocative tests of normal subjects proved to be inadequate in predicting susceptibility to motion sickness under subgravity conditions

Off-vertical rotation - A convenient precise means of exposing the passive human subject to a rotating linear acceleration vector

Disturbances of vestibular origin comprising motion sickness resulting from rotating tilted chai

Effects of drugs on ocular counterrolling

Effect of drugs on ocular counterrollin

Motion sickness produced by head movement as a function of rotational velocity

Motion sickness produced by head movement as function of rotational velocit

Comparison of five levels of motion sickness severity as the basis for grading susceptibility

Less severe diagnosis for grading motion sickness susceptibilit

Magnitude of gravitoinertial force, an independent variable in egocentric visual localization of the horizontal

Magnitude of gravitoinertial force, independent variable in egocentric visual localization of horizontal-space perceptio

Ocular counterrolling measured during eight hours of sustained body tilt

Adaptation of otolith organ activity was investigated by monitoring the ocular counterrolling response of four normal individuals and three persons with severe bilateral loss of labyrinthine function. Several eye photographs were recorded every 30 minutes during a period of 8 hours in which the subject was held in a lateral tilt (60 deg) position. The recorded eye roll position varied to an expected small extent within each test session; this variation about a given mean roll position was similar among the test sessions for all subjects. The mean roll position, on the other hand, changed from session to session in substantial amounts, but these changes appeared to be random with respect to time and among subjects. Furthermore, the intersessional variation in the mean torsional eye position of the normal subjects was equivalent to that of the labyrinthine-defective subjects who displayed little or no counterrolling. These results suggest that the human counterrolling response is maintained either by essentially nonadapting macular receptors or by extremely fine movements of the head in the gravitational field, such as may have been allowed by the biteboard/headrest restraint system used in this study, which served as an everchanging accelerative stimulus

Modeling the Behavior of the Surface to Liquid Interfaces in an Electrolytic Liquid

Understanding the mechanism for charge transfer between electrodes within an electrolyte dissolved in water is vital to better understanding the sources of electrical noise in the system. This research compares the electrical properties of liquid top gated graphene devices with the properties of two metal probes to model the system. By measuring the impedance of these systems at different frequencies, it is possible to develop a model of their electrical properties and to consider techniques to improve signal to noise at graphene interfaces