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1,502 results on '"Millard, F."'

207. Effects of space flight on locomotor control

Author

Bloomberg, Jacob J, Layne, Charles S, McDonald, P. Vernon, Peters, Brian T, Huebner, William P, Reschke, Millard F, Berthoz, Alain, Glasauer, Stefan, Newman, Dava, and Jackson, D. Keoki

Subjects
Life Sciences (General)
Abstract

In the microgravity environment of spaceflight, the relationship between sensory input and motor output is altered. During prolonged missions, neural adaptive processes come into play to recalibrate central nervous system function, thereby permitting new motor control strategies to emerge in the novel sensory environment of microgravity. However, the adaptive state achieved during spaceflight is inappropriate for a unit gravity environment and leads to motor control alterations upon return to Earth that include disturbances in locomotion. Indeed, gait and postural instabilities following the return to Earth have been reported in both U.S. astronauts and Russian cosmonauts even after short duration (5- to 10-day) flights. After spaceflight, astronauts may: (1) experience the sensation of turning while attempting to walk a straight path, (2) encounter sudden loss of postural stability, especially when rounding corners, (3) perceive exaggerated pitch and rolling head movements during walking, (4) experience sudden loss of orientation in unstructured visual environments, or (5) experience significant oscillopsia during locomotion.

Published
1999

208. Neuroscience Investigations: An Overview of Studies Conducted

Author

Reschke, Millard F

Subjects
Aerospace Medicine
Abstract

The neural processes that mediate human spatial orientation and adaptive changes occurring in response to the sensory rearrangement encountered during orbital flight are primarily studied through second and third order responses. In the Extended Duration Orbiter Medical Project (EDOMP) neuroscience investigations, the following were measured: (1) eye movements during acquisition of either static or moving visual targets, (2) postural and locomotor responses provoked by unexpected movement of the support surface, changes in the interaction of visual, proprioceptive, and vestibular information, changes in the major postural muscles via descending pathways, or changes in locomotor pathways, and (3) verbal reports of perceived self-orientation and self-motion which enhance and complement conclusions drawn from the analysis of oculomotor, postural, and locomotor responses. In spaceflight operations, spatial orientation can be defined as situational awareness, where crew member perception of attitude, position, or motion of the spacecraft or other objects in three-dimensional space, including orientation of one's own body, is congruent with actual physical events. Perception of spatial orientation is determined by integrating information from several sensory modalities. This involves higher levels of processing within the central nervous system that control eye movements, locomotion, and stable posture. Spaceflight operational problems occur when responses to the incorrectly perceived spatial orientation are compensatory in nature. Neuroscience investigations were conducted in conjunction with U. S. Space Shuttle flights to evaluate possible changes in the ability of an astronaut to land the Shuttle or effectively perform an emergency post-landing egress following microgravity adaptation during space flights of variable length. While the results of various sensory motor and spatial orientation tests could have an impact on future space flights, our knowledge of sensorimotor adaptation to spaceflight is limited, and the future application of effective countermeasures depends, in large part, on the results from appropriate neuroscience investigations. Therefore, the objective of the neuroscience investigations could have a negative effect on mission success. The Neuroscience Laboratory, Johnson Space Center (JSC), implemented three integrated Detailed Supplementary Objectives (DSO) designed to investigate spatial orientation and the associated compensatory responses as a part of the EDOMP. The four primary goals were (1) to establish a normative database of vestibular and associated sensory changes in response to spaceflight, (2) to determine the underlying etiology of neurovestibular and sensory motor changes associated with exposure to microgravity and the subsequent return to Earth, (3) to provide immediate feedback to spaceflight crews regarding potential countermeasures that could improve performance and safety during and after flight, and (4) to take under consideration appropriate designs for preflight, in-flight, and postflight countermeasures that could be implemented for future flights.

Published
1999

209. Recovery of postural equilibrium control following space flight

Author

Paloski, William H, Reschke, Millard F, Black, F. Owen, and Dow, R. S

Subjects
Aerospace Medicine
Abstract

DSO 605 represents the first large study of balance control following spaceflight. Data collected during DSO 605 confirm the theory that postural ataxia following short duration spaceflight is of vestibular origin. We used the computerized dynamic posturography technique developed by Nashner et al. to study the role of the vestibular system in balance control in astronauts during quiet stance before and after spaceflight. Our results demonstrate unequivocally that balance control is disrupted in all astronauts immediately after return from space. The most severely affected returning crew members performed in the same way as vestibular deficient patients exposed to this test battery. We conclude that otolith mediated spatial reference provided by the terrestrial gravitational force vector is not used by the astronauts balance control systems immediately after spaceflight. Because the postflight ataxia appears to be mediated primarily by CNS adaptation to the altered vestibular inputs caused by loss of gravitational stimulation, we believe that intermittent periods of exposure to artificial gravity may provide an effective in-flight countermeasure. Specifically, we propose that in-flight centrifugation will allow crew members to retain their terrestrial sensory-motor adapted states while simultaneously developing microgravity adapted states. The dual-adapted astronaut should be able to make the transition from microgravity to unit gravity with minimal sensory-motor effects. We have begun a ground based program aimed at developing short arm centrifuge prescriptions designed to optimize adaptation to altered gravitational environments. Results from these experiments are expected to lead directly to in-flight evaluation of the proposed centrifuge countermeasure. Because our computerized dynamic posturography system was able to (1) quantify the postflight postural ataxia reported by crew members and observed by flight surgeons and scientists, (2) track the recovery of normal (preflight) balance control, (3) differentiate between rookie and veteran subjects, and (4) provide normative and clinical databases for comparison, and because our study successfully characterized postflight balance control recovery in a large cross-section of Shuttle crew members, we recommend that this system and protocol be adopted as a standard dependent measure for evaluating the efficacy of countermeasures and/or evaluating the postflight effects of changing mission durations or activities.

Published
1999

215. Contributions of scientific ocean drilling to under-standing the emplacement of submarine large igneous provinces and their effects on the environment.

Author

Neal, Clive R., Coffin, Millard F., Sager, William W., Neal, Clive R., Coffin, Millard F., and Sager, William W.

Abstract

The Ontong Java Plateau (OJP), Shatsky Rise (SR), and Kerguelen Plateau/Broken Ridge (KP/BR) represent three large igneous provinces (LIPs) located in oceanic settings. The basement lavas have been investigated through scientific ocean drilling and, in the case of the OJP, fieldwork on the emergent obducted portions of the plateau in the Solomon Islands. Such studies show that these three LIPs have very different characteristics. For example, the KP/BR still has an active hotspot, whereas the OJP and the SR do not. The OJP is remarkable in its compositional monotony across the plateau (the Kwaimbaita geochemical type), with minor compositional variation found at the margins (the Kroenke, Singgalo, and Wairahito types). Shatsky Rise shows more compositional variation and, like the OJP, has a dominant lava type (termed the “normal” type) in the early stages (Tamu Massif), but subsequent eruptions at the Ori and Shirshov massifs comprise isotopically and trace element enriched lavas, likely reflecting a change in mantle source over time. The KP/BR has highly variable basement lava compositions, ranging from lavas slightly enriched above that of normal mid-ocean ridge basalt in the northern portion (close to the South East Indian Ridge) to more enriched varieties to the south and on Broken Ridge, with a continental crust signature present in lavas from the southern and central KP/BR. The OJP and the KP/BR appear to have formed through punctuated magmatic events, whereas the SR was formed by one relatively long, drawn out event. The formation of oceanic LIPs has in many (but not all) cases been synchronous with oceanic anoxic events. This paper focuses on three oceanic plateaus to emphasize the debate surrounding the environmental impact such LIPs may have had, and also highlights the contributions of scientific ocean drilling to our knowledge of oceanic LIP formation and evolution. This new knowledge allows planning for future oceanic LIP drilling.

Published
2019

216. Studies of the Interactions Between Vestibular Function and Tactual Orientation Display Systems

Author

Cholewiak, Roger W and Reschke, Millard F

Subjects
Behavioral Sciences
Abstract

When humans experience conditions in which internal vestibular cues to movement or spatial location are challenged or contradicted by external visual information, the result can be spatial disorientation, often leading to motion sickness. Spatial disorientation can occur in any situation in which the individual is passively moved in the environment, but is most common in automotive, aircraft, or undersea travel. Significantly, the incidence of motion sickness in space travel is great: The majority of individuals in Shuttle operations suffer from the syndrome. Even after the space-sickness-producing influences of spatial disorientation dissipate, usually within several days, there are other situations in which, because of the absence of reliable or familiar vestibular cues, individuals in space still experience disorientation, resulting in a reliance on the already preoccupied sense of vision. One possible technique to minimize the deleterious effects of spatial disorientation might be to present attitude information (including orientation, direction, and motion) through another less-used sensory modality - the sense of touch. Data from experiences with deaf and blind persons indicate that this channel can provide useful communication and mobility information on a real-time basis. More recently, technologies have developed to present effective attitude information to pilots in situations in which dangerously ambiguous and conflicting visual and vestibular sensations occur. This summers project at NASA-Johnson Space Center will evaluate the influence of motion-based spatial disorientation on the perception of tactual stimuli representing veridical position and orientation information, presented by new dynamic vibrotactile array display technologies. In addition, the possibility will be explored that tactile presentations of motion and direction from this alternative modality might be useful in mitigating or alleviating spatial disorientation produced by multi-axis rotatory systems, monitored by physiological recording techniques developed at JSC.

Published
1997

217. A Model-Based Approach for the Measurement of Eye Movements Using Image Processing

Author

Sung, Kwangjae and Reschke, Millard F

Subjects
Life Sciences (General)
Abstract

This paper describes a video eye-tracking algorithm which searches for the best fit of the pupil modeled as a circular disk. The algorithm is robust to common image artifacts such as the droopy eyelids and light reflections while maintaining the measurement resolution available by the centroid algorithm. The presented algorithm is used to derive the pupil size and center coordinates, and can be combined with iris-tracking techniques to measure ocular torsion. A comparison search method of pupil candidates using pixel coordinate reference lookup tables optimizes the processing requirements for a least square fit of the circular disk model. This paper includes quantitative analyses and simulation results for the resolution and the robustness of the algorithm. The algorithm presented in this paper provides a platform for a noninvasive, multidimensional eye measurement system which can be used for clinical and research applications requiring the precise recording of eye movements in three-dimensional space.

Published
1997

220. Spatial Transformation of the Vestibulo-Ocular Reflex during Spaceflight

Author

Clement, Gilles, Wood, Scott J, and Reschke, Millard F

Subjects
Aerospace Medicine
Abstract

It was hypothesized that the absence of the gravitational reference cues may be responsible for adaptive changes in the vestibulo-ocular reflex (VOR). These changes result in the alteration of the direction of the compensatory slow phase (SP) eye movements in microgravity. In order to test this hypothesis, the direction of the VOR SP relative to head motion was investigated in three astronauts during and after an eight-day orbital flight by passive sinusoidal pitch or yaw angular motion at two frequencies. The results of the inflight and postflight testing are considered. The observed deviation between VOR SP and head motion suggests that spatial transformation in the VOR occurred during adaptation to microgravity. It is considered that, although this spatial transformation might be due to a sensory bias, it may reflect central changes in the reference system used for spatial orientation in microgravity.

Published
1996

222. Banking reform in transition economies

Author

Borish, Michael S., Long, Millard F., and Noel, Michel

Subjects
Banks (Finance) -- Methods, Bank management -- Methods, Banking industry -- Methods, Banking, finance and accounting industries, Business, Business, international, Banking industry, Methods
Abstract

Countries making the transition to a market economy have pursued a variety of approaches to banking reform. To become globally competitive, however, transition economies will need to accelerate bank privatization [...]

Published
1995

223. Quick-Change Rotational Coupling

Author

Reschke, Millard F and Bufkin, Joe

Subjects
Mechanics
Abstract

Rotational coupling designed to enable quick connection and disconnection of driving and driven components and to transmit torque without slippage. Originally designed to provide for quick adjustment of relative positions of chair and rotary motor drive for vestibular tests of human subjects in outer space. Also suitable for use in other situations in which turntables, rotating scientific instruments, or other equipment connected and disconnected frequently for adjustment or replacement. (Not suitable for replacement of permanent rotary couplings.)

Published
1995

225. Changes in the characteristics of voluntary movements after long duration spaceflight

Author

Elena Tomilovskaya, L.E. Amirova, Igor S. Kofman, Millard F. Reschke, I. V. Rukavishnikov, Elena Fomina, I. S. Sosnina, Inessa Kozlovskaya, M. J. F. Rosenberg, Nataliya Lysova, V. V. Kitov, and Nikolay Osetskiy

Subjects
medicine.medical_specialty, Physical medicine and rehabilitation, Physiology, business.industry, law, Physiology (medical), medicine, business, Spaceflight, Short duration, law.invention
Published
2018
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226. Neurovestibular Symptoms in Astronauts Immediately after Space Shuttle and International Space Station Missions

Author

Edward F Good, Millard F. Reschke, and Gilles Clement

Subjects
0301 basic medicine, Vestibular system, Engineering, Spacecraft, business.industry, Space Shuttle, medicine.disease, Gait, Space exploration, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Motion sickness, Otorhinolaryngology, Aeronautics, International Space Station, medicine, Surgery, business, 030217 neurology & neurosurgery
Abstract

Objectives(1) To assess vestibular changes and related sensorimotor difficulties, especially instability of posture and gait, among astronauts immediately after they return from space and to compare the effects experienced after short- and long-duration space missions. (2) To determine whether any difficulties experienced were severe enough to impair the astronauts’ ability to leave the spacecraft in the event of an emergency.Study DesignProspective cohort study.SettingNational Aeronautics and Space Administration’s Kennedy Space Center and Johnson Space Center.Subjects and MethodsFourteen crewmembers of 3 Space Shuttle missions that lasted about 1 week and 18 crewmembers of 8 International Space Station missions that lasted about 6 months were given brief vestibular examinations 1 to 5 hours after landing. These examinations focused on the presence of vestibular and motor coordination difficulties, as well as motion sickness and motion sensations. Standardized tests included the observation of abnormal e...

Published
2017
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227. Bed Rest and Intermittent Centrifugation Effects on Human Balance and Neuromotor Reflexes

Author

William H. Paloski, Alan H. Feiveson, and Millard F. Reschke

Subjects
Adult, Male, Reflex, Stretch, medicine.medical_specialty, medicine.medical_treatment, 030209 endocrinology & metabolism, Bed rest, Head-Down Tilt, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Triceps surae muscle, medicine, Humans, Centrifugation, Stretch reflex, Postural Balance, Balance (ability), Gravity, Altered, business.industry, Posturography, General Medicine, Adaptation, Physiological, Healthy Volunteers, medicine.anatomical_structure, Reflex, Orthostatic Intolerance, Head movements, business, Bed Rest
Abstract

Introduction The effects of repeated centrifugation in association with head-down tilt (HDT) bed rest (BR) on the mediation of basic reflexes associated with the major postural muscles was investigated as a potential countermeasure for maintaining balance control and neuromotor reflex function. Methods There were 15 male volunteers who were exposed to 21 d of 6° HDT-BR. Eight were treated with daily 1-h artificial gravity (AG) exposures aboard a short radius centrifuge that provided 1-g footward loading at heart level. The other seven served as HDT-BR control subjects. Balance control was assessed using a standard computerized dynamic posturography (CDP) protocol that was modified by adding low-frequency pitch-plane head movements. Neuromotor reflex function was assessed using tendon stretch reflexes (MSR) and functional stretch reflex (FSR) data collected from the triceps surae muscle group. Results CDP performance was degraded by HDT-BR in both groups (ranging from 24 to 26%), but was unaffected by AG. BR also degraded MSR and FSR functions in both groups, with increased peak reflex latencies between 1.5 and 1.95 ms, but AG maintained pre-BR latencies for the MSR subjects. Discussion AG exposure did not modify balance control from pre-BR responses, but did help prevent decrements in FSR latencies post-BR.Paloski WH, Reschke MF, Feiveson AH. Bed rest and intermittent centrifugation effects on human balance and neuromotor reflexes. Aerosp Med Hum Perform. 2017; 88(9):812-818.

Published
2017

228. Eye-Head Coordination in 31 Space Shuttle Astronauts during Visual Target Acquisition

Author

Ognyan I. Kolev, Gilles Clément, and Millard F. Reschke

Subjects
030110 physiology, 0301 basic medicine, Adult, Male, Time Factors, genetic structures, Eye Movements, Computer science, Space Shuttle, lcsh:Medicine, Space exploration, Article, 03 medical and health sciences, 0302 clinical medicine, Humans, Computer vision, lcsh:Science, Eye Movement Measurements, Multidisciplinary, business.industry, lcsh:R, Eye movement, Middle Aged, Space Flight, Gaze, Target acquisition, Pilots, Motor Skills, Head Movements, Saccade, Astronauts, lcsh:Q, Female, Artificial intelligence, business, 030217 neurology & neurosurgery, Photic Stimulation
Abstract

Between 1989 and 1995, NASA evaluated how increases in flight duration of up to 17 days affected the health and performance of Space Shuttle astronauts. Thirty-one Space Shuttle pilots participating in 17 space missions were tested at 3 different times before flight and 3 different times after flight, starting within a few hours of return to Earth. The astronauts moved their head and eyes as quickly as possible from the central fixation point to a specified target located 20°, 30°, or 60° off center. Eye movements were measured with electro-oculography (EOG). Head movements were measured with a triaxial rate sensor system mounted on a headband. The mean time to visually acquire the targets immediately after landing was 7–10% (30–34 ms) slower than mean preflight values, but results returned to baseline after 48 hours. This increase in gaze latency was due to a decrease in velocity and amplitude of both the eye saccade and head movement toward the target. Results were similar after all space missions, regardless of length.

Published
2017

229. Unpaid community volunteers – effective providers of directly observed therapy (DOT) in rural South Africa

Author

Barker, R D, Millard, F J C, and Nthangeni, M E

Abstract

Objective. To illustrate successes and difficulties for the South African National Tuberculosis Progranune in a rural area.Design. Prospective cohort study.Setting. Sekhukhuneland, Provincial Health Service Southern Region, Northern Province, South Africa.Subjects. All patients diagnosed with tuberculosis (TB) in thecatchment area of four rural hospitals between January 1997 and June 1999,Main outcome measures. Standard outcomes for TB treatment as defined by the World Health Organisation. Treatment failure, treatment interruption and death were grouped as poor outcomes.Results. One thousand four hundred and seventy-six people were diagnosed with TB. The majority (76%) had smearpositive pulmonary disease. Treatment was given by directly observed therapy (DOT) throughout in all but 15 instances. Excluding 10 subjects with known multidrug-resistant TB (MDRTB), 723 (66%) were cured, 68 (6%) completed treatment, 73 (7%) interrupted treatment, 37 (3%) failed treatment, 66 (6%) transferred out, and 134 (12%) died. Of the 920 initially smear-positive patients who survived the first 2 months to receive DOT in the community, 693 (75%) were supervised by unpaid community volunteers. Poor outcomes were no more common among patients supervised by these volunteers than among patients supervised by professional health care workers. Male gender (odds ratio 1.38,95% confidence interval 1.02, 1.87) was significantly associated with a poor outcome.Conclusion. Although there were difficulties, the national progranune was successfully applied with no additional funds or facilities. Explanations for the high death rate and poor outcomes for men need to be found. Great efforts will be required to preserve the quality of the TB programme if it is devolved to primary care level.

Published
2017

230. Assessing Somatosensory Utilization during Unipedal Postural Control

Author

Yiri E. De Dios, Brian T. Peters, Ajitkumar P. Mulavara, Nichole Gadd, Millard F. Reschke, E. E. Caldwell, Jacob J. Bloomberg, Rahul Goel, and Lars I. E. Oddsson

Subjects
somatosensation, medicine.medical_specialty, Supine position, Cognitive Neuroscience, medicine.medical_treatment, Neuroscience (miscellaneous), Sensory system, stabilogram-diffusion analysis, Somatosensory system, Postural control, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Physical medicine and rehabilitation, Developmental Neuroscience, medicine, Original Research, sensory biases, Vestibular system, Rehabilitation, balance control, 030229 sport sciences, Backpack, medicine.anatomical_structure, Physical therapy, unipedal stance, Ankle, Psychology, 030217 neurology & neurosurgery, Neuroscience
Abstract

Multisensory—visual, vestibular and somatosensory information is integrated for appropriate postural control. The primary goal of this study was to assess somatosensory utilization during a functional motor task of unipedal postural control, in normal healthy adults. Assessing individual bias in the utilization of individual sensory contributions during postural control may help customization of rehabilitation protocols. In this study, a test paradigm of unipedal stance control in supine orientation with and without vision was assessed. Postural control in this test paradigm was hypothesized to utilize predominantly contributions of somatosensory information from the feet and ankle joint, with minimal vestibular input. Fourteen healthy subjects “stood” supine on their dominant leg while strapped to a backpack frame that was freely moving on air-bearings, to remove available otolith tilt cues with respect to gravity that influences postural control when standing upright. The backpack was attached through a cable to a pneumatic cylinder that provided a gravity-like load. Subjects performed three trials each with Eyes-open (EO) and Eyes-closed (EC) while loaded with 60% body weight. There was no difference in unipedal stance time (UST) across the two conditions with EC condition challenging the postural control system greater than the EO condition. Stabilogram-diffusion analysis (SDA) indicated that the critical mean square displacement was significantly different between the two conditions. Vestibular cues, both in terms of magnitude and the duration for which relevant information was available for postural control in this test paradigm, were minimized. These results support our hypothesis that maintaining unipedal stance in supine orientation without vision, minimizes vestibular contribution and thus predominantly utilizes somatosensory information for postural control.

Published
2017
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231. Geological Insights from Malaysia Airlines Flight MH370 Search

Author

Brendan P. Brooke, Kim Picard, and Millard F. Coffin

Subjects
0209 industrial biotechnology, Rift, 010504 meteorology & atmospheric sciences, 02 engineering and technology, Mass wasting, 01 natural sciences, Deep sea, Seafloor spreading, 020901 industrial engineering & automation, General Earth and Planetary Sciences, Seabed, Level of detail, Seismology, Geology, 0105 earth and related environmental sciences
Abstract

A rich trove of marine geophysical data acquired in the search for missing flight MH370 is yielding knowledge of ocean floor processes at a level of detail rare in the deep ocean.

Published
2017
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232. Effects of Sex and Gender on Adaptation to Space: Neurosensory Systems

Author

Helen S. Cohen, David L. Tomko, Emma Y. Hwang, John R. Allen, Ronita L. Cromwell, J. M. Cerisano, Candace Tingen, Richard W. Danielson, Janine A. Clayton, and Millard F. Reschke

Subjects
Male, medicine.medical_specialty, Health Status, Adaptation (eye), Sensory system, Audiology, Spaceflight, law.invention, Developmental psychology, Sex Factors, law, medicine, Humans, The Impact of Sex and Gender on Adaptation to Space: A NASA Decadal Review, Vestibular system, Absolute threshold of hearing, Weightlessness, business.industry, General Medicine, Space Flight, Adaptation, Physiological, Laterality, Aerospace Medicine, Somatosensory Disorders, Astronauts, Women's Health, Female, Aviation medicine, business
Abstract

Sex and gender differences have long been a research topic of interest, yet few studies have explored the specific differences in neurological responses between men and women during and after spaceflight. Knowledge in this field is limited due to the significant disproportion of sexes enrolled in the astronaut corps. Research indicates that general neurological and sensory differences exist between the sexes, such as those in laterality of amygdala activity, sensitivity and discrimination in vision processing, and neuronal cell death (apoptosis) pathways. In spaceflight, sex differences may include a higher incidence of entry and space motion sickness and of post-flight vestibular instability in female as opposed to male astronauts who flew on both short- and long-duration missions. Hearing and auditory function in crewmembers shows the expected hearing threshold differences between men and women, in which female astronauts exhibit better hearing thresholds. Longitudinal observations of hearing thresholds for crewmembers yield normal age-related decrements; however, no evidence of sex-related differences from spaceflight has been observed. The impact of sex and gender differences should be studied by making spaceflight accessible and flying more women into space. Only in this way will we know if increasingly longer-duration missions cause significantly different neurophysiological responses in men and women.

Published
2014
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233. Effects of microgravity on the interaction of vestibular and optokinetic nystagmus in the vertical plane

Author

Clement, Gilles, Wood, Scott J, and Reschke, Millard F

Subjects
Aerospace Medicine
Abstract

The extent to which the slow phase velocity (SPV) of nystagmus elicited by a vertical optokinetic stimulation with constant velocity could be modulated by sinusoidal angular motion in the vertical plane was investigated under normal gravity condition and during the microgravity period of parabolic flight. In normal gravity, when the angular head motion and the optokinetic stimulation were in the same direction, the peak SPV was slower than the velocity of the optokinetic display. When the head motion and the optokinetic stimulation were in opposite directions, the peak SPV was equal to the velocity of the optokinetic display. In microgravity, the peak SPV was approximately equal to the velocity of the optokinetic display when head rotation and optokinetic stimulation were in the same direction, and was faster than the velocity of the optokinetic dispaly when head rotation and optokinetic stimulation were in opposite directions. In addition, the interaction of vestibular and optokinetic nystagmus was found to be nonlinear in microgravity, especially when the optokinetic stimulation was directed downward. These results suggest an interaction between the vestibular and the optokinetic systems modulated as a function of the gravitational state, and support the observation that visual input is more effective in reducing sensory conflict experienced in microgravity.

Published
1992

234. Effects of gravitoinertial force variations on optokinetic nystagmus and on perception of visual stimulus orientation

Author

Clement, Gilles, Reschke, Millard F, Verrett, Carol M, and Wood, Scott J

Subjects
Aerospace Medicine
Abstract

Recordings of horizontal and vertical eye movement were obtained with subjects exposed to vertical, horizontal, and oblique optokinetic stimulation during parabolic flight. When the optokinetic stimulation was vertical, the upward slow phase eye velocity increased increased during transition from high force level to free-fall, and decreased during transition from free-fall to high force level. During optokinetic stimulation in the horizontal and oblique plane, the gravitoinertial forces of parabolic flight induced changes in the velocity of the vertical component of the eye movements, and, therefore, changes in the plane of the eye movements. Some subjects also preceived modifications in the apparent orientation of the visual motion. These findings are in agreement with previous observations on the presence of a vertical nystagmus induced by changes in plane vertical acceleration. They also suggest a close interaction of reflexive eye movements induced by graviceptor inputs and visual inputs for visual stabilization during variations of gravitoinertial force level.

Published
1992

235. Space flight and changes in spatial orientation

Author

Reschke, Millard F, Bloomberg, Jacob J, Harm, Deborah L, and Paloski, William H

Subjects
Aerospace Medicine
Abstract

From a sensory point of view, space flight represents a form of stimulus rearrangement requiring modification of established terrestrial response patterns through central reinterpretation. Evidence of sensory reinterpretation is manifested as postflight modifications of eye/head coordination, locomotor patterns, postural control strategies, and illusory perceptions of self or surround motion in conjunction with head movements. Under normal preflight conditions, the head is stabilized during locomotion, but immediately postflight reduced head stability, coupled with inappropriate eye/head coordination, results in modifications of gait. Postflight postural control exhibits increased dependence on vision which compensates for inappropriate interpretation of otolith and proprioceptive inputs. Eye movements compensatory for perceived self motion, rather than actual head movements have been observed postflight. Overall, the in-flight adaptive modification of head stabilization strategies, changes in head/eye coordination, illusionary motion, and postural control are maladaptive for a return to the terrestrial environment. Appropriate countermeasures for long-duration flights will rely on preflight adaptation and in-flight training.

Published
1992

236. System Collects And Displays Demultiplexed Data

Author

Reschke, Millard F, Fariss, Julie L, Kulecz, Walter B, and Paloski, William H

Subjects
Electronic Systems
Abstract

Electronic system collects, manipulates, and displays in real time results of manipulation of streams of data transmitted from remote scientific instrumentation. Interface circuit shifts data-and-clock signal from differential logic levels of multiplexer to single-ended logic levels of computer. System accommodates nonstandard data-transmission protocol. Software useful in applications where Macintosh computers used in real-time display and recording of data.

Published
1992

237. Microgravity vestibular investigations (10-IML-1)

Author

Reschke, Millard F

Subjects
Aerospace Medicine
Abstract

Our perception of how we are oriented in space is dependent on the interaction of virtually every sensory system. For example, to move about in our environment we integrate inputs in our brain from visual, haptic (kinesthetic, proprioceptive, and cutaneous), auditory systems, and labyrinths. In addition to this multimodal system for orientation, our expectations about the direction and speed of our chosen movement are also important. Changes in our environment and the way we interact with the new stimuli will result in a different interpretation by the nervous system of the incoming sensory information. We will adapt to the change in appropriate ways. Because our orientation system is adaptable and complex, it is often difficult to trace a response or change in behavior to any one source of information in this synergistic orientation system. However, with a carefully designed investigation, it is possible to measure signals at the appropriate level of response (both electrophysiological and perceptual) and determine the effect that stimulus rearrangement has on our sense of orientation. The environment of orbital flight represents the stimulus arrangement that is our immediate concern. The Microgravity Vestibular Investigations (MVI) represent a group of experiments designed to investigate the effects of orbital flight and a return to Earth on our orientation system.

Published
1992

238. Responses of heart rate and blood pressure to KC-135 hyper-gravity

Author

Satake, Hirotaka, Matsunami, Ken'ichi, and Reschke, Millard F

Subjects
Aerospace Medicine
Abstract

Many investigators have clarified the effects of hyper gravitational-inertial forces (G) upon the cardiovascular system, using the centrifugal apparatus with short rotating radius. We investigated the cardiovascular responses to KC-135 hyper-G flight with negligibly small angular velocity. Six normal, healthy subjects 29 to 40 years old (5 males and 1 female) took part in this experiment. Hyper gravitational-inertial force was generated by the KC-135 hyper-G flight, flown in a spiral path with a very long radius of 1.5 miles. Hyper-G was sustained for 3 minutes with 1.8 +Gz in each session and was repeatedly exposed to very subject sitting on a chair 5 times. The preliminary results of blood pressure and R-R interval are discussed. An exposure of 1.8 +Gz stress resulted in a remarkable increase of systolic and diastolic blood pressure, while the pulse pressure did not change and remained equal to the control level regardless of an exposure of hyper-G. These results in blood pressure indicate an increase of resistance in the peripheral vessels, when an exposure of hyper-G was applied. The R-R interval was calculated from ECG. R-R interval in all subjects was changed but not systematically, and R-R interval became obviously shorter during the hyper-G period than during the 1 +Gz control period although R-R interval varied widely in some cases. The coefficient of variation of R-R interval was estimated to determine the autonomic nerve activity, but no significant change was detectable.

Published
1992

239. The effect of space flight on spatial orientation

Author

Reschke, Millard F, Bloomberg, Jacob J, Harm, Deborah L, Paloski, William H, and Satake, Hirotaka

Subjects
Aerospace Medicine
Abstract

Both during and following early space missions, little neurosensory change in the astronauts was noted as a result of their exposure to microgravity. It is believed that this lack of in-flight adaptation in the spatial orientation and perceptual-motor system resulted from short exposure times and limited interaction with the new environment. Parker and Parker (1990) have suggested that while spatial orientation and motion information can be detected by a passive observer, adaptation to stimulus rearrangement is greatly enhanced when the observer moves through or acts on the environment. Experience with the actual consequences of action can be compared with those consequences expected on the basis of prior experience. Space flight today is of longer duration, and space craft volume has increased. These changes have forced the astronauts to interact with the new environment of microgravity, and as a result substantial changes occur in the perceptual and sensory-motor repsonses reflecting adaptation to the stimulus rearrangement of space flight. We are currently evaluating spatial orientation and the perceptual-motor systems' adaptation to microgravity by examining responses of postural control, head and gaze stability during locomotion, goal oriented vestibulo-ocular reflex (VOR), and structured quantitative perceptual reports. Evidence suggests that humans can successfully replace the gravitational reference available on Earth with cues available within the spacecraft or within themselves, but that adaptation to microgravity is not appropriate for a return to Earth. Countermeasures for optimal performance on-orbit and a successful return to earth will require development of preflight and in-flight training to help the astronauts acquire and maintain a dual adaptive state. An understanding of spatial orientation and motion perception, postural control, locomotion, and the VOR will aid in this process.

Published
1992

240. Treatment of motion sickness in parabolic flight with buccal scopolamine

Author

Norfleet, William T, Degioanni, Joseph J, Reschke, Millard F, Bungo, Michael W, Kutyna, Frank A, Homick, Jerry L, and Calkins, D. S

Subjects
Aerospace Medicine
Abstract

Treatment of acute motion sickness induced by parabolic flight with a preparation of scopolamine placed in the buccal pouch was investigated. Twenty-one subjects flew aboard a KC-135 aircraft operated by NASA which performed parabolic maneuvers resulting in periods of 0-g, 1-g, and 1.8-g. Each subject flew once with a tablet containing scopolamine and once with a placebo in a random order, crossover design. Signs and symptoms of motion sickness were systematically recorded during each parabola by an investigator who was blind to the content of the tablet. Compared with flights using placebo, flights with buccal scopolamine resulted in significantly lower scores for nausea (31-35 percent reduction) and vomiting (50 percent reduction in number of parabolas with vomiting). Side effects of the drug during flight were negligible. It is concluded that buccal scopolamine is more effective than a placebo in treating ongoing motion sickness.

Published
1992

243. Instrument Measures Ocular Counterrolling

Author

Levitan, Barry M, Reschke, Millard F, and Spector, Lawrence N

Subjects
Life Sciences
Abstract

Compact, battery-powered, noninvasive unit replaces several pieces of equipment and operator. Instrument that looks like pair of goggles with small extension box measures ocular counterrotation. Called "otolith tilt-translation reinterpretation" (OTTR) goggles, used in studies of space motion sickness. Also adapted to use on Earth and determine extent of impairment in patients who have impaired otolith functions.

Published
1991

244. Small-amplitude superimposed horizontal motion of a load supported symmetrically by rubber springs.

Author

Young, Todd R and Beatty, Millard F

Subjects
*FOAMED materials, *POISSON'S ratio, *STRETCHING of materials, *MOTION, *SPRING, *RUBBER
Abstract

The undamped small-amplitude superimposed horizontal motion of a load supported symmetrically between identical isotropic hyperelastic springs, each subjected to an initial finite uniaxial static stretch, is reviewed in general terms. The small superimposed motion is discussed for the classical incompressible Mooney–Rivlin, James–Guth, and Gent models, as well as two limit classes of compressible Blatz–Ko material models, f = 0 and f = 1. The small-amplitude vibrational frequency is presented for each model, and the effects of limited extensibility are demonstrated for the James–Guth and Gent materials. Unstable equilibrium states are exhibited for the Blatz–Ko compressible foamed rubber material with f = 0 , while the others exhibit infinitesimally stable motion for an essentially arbitrary initial static stretch. It is shown that unstable equilibrium states exist for the general compressible Blatz–Ko model with 0 < f < 1 , and these states are characterized graphically in terms of the static stretch and the material Poisson ratio. The article concludes with a discussion of the Blatz–Ko and Gent–Thomas foamed rubber materials and their relation to the classical molecular-based uni-constant theory of elasticity. [ABSTRACT FROM AUTHOR]

Published
2020
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245. An Objective Method for Allocating Salary Increases.

Author

Johnson, Millard F.

Abstract

Suggests a model for using a spreadsheet to allocate academic library salary increases. Seven variables are incorporated in the model: (1) experience; (2) difficulty of the job; (3) initiative; (4) cost of living; (5) inflation; (6) equity; and (7) merit. One reference is listed. (MES)

Published
1987

247. After the Online Catalog: A Call for Active Librarianship.

Author

Johnson, Millard F.

Abstract

Argues that libraries will become extinct in the future if they do not take on a more active role in serving the information needs of patrons, and advocates the development of expertise at switching centers for electronic information. Seven references are listed. (LLS)

Published
1982

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