Angus H. Rupert scite author profile

INTRODUCTION: Loss-of-control (LOC) is the major cause of transport airplane mishaps. There have been many published reports and papers examining these accidents. While these studies did mention spatial disorientation (SD) as a cause or a factor, none of them analyzed it further. The present study uses transport and commuter airplane mishap data for a recent 35-yr period and examines the results of those mishaps involving spatial disorientation.METHOD: We identified LOC and SD accidents from five national aviation accident organizations and two independent groups. Only “normal” operations (air carrier, noncommercial transportation, ferry flights, and training) were considered. We reviewed transport and commuter airplane accidents using the published reports and identified 94 involving SD.RESULTS: We found the distribution of SD mishaps differs from LOC mishaps. During initial climb, there were relatively fewer SD mishaps (16%) than LOC mishaps (31%). During enroute climb SD has relatively more mishaps (18%) than LOC (11%). During go-around or missed approach phases, there were relatively more SD mishaps (21%) than LOC mishaps (4%). Perhaps the most significant observation was an increasing number of SD mishaps during the period reviewed.DISCUSSION: There are several possible reasons for the increasing numbers of SD mishaps over the study period from 1981 to 2016. Somatogravic illusion during go-around or missed approach accounts for only some of this increase. There is insufficient data to determine the reason for the remaining increase.Newman RL, Rupert AH. The magnitude of the spatial disorientation problem in transport airplanes. Aerosp Med Hum Perform. 2020; 91(2):65–70.

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Effect of acute exposure to hypergravity (G_X vs. G_Z) on dynamic cerebral autoregulation

Serrador

Wood

Picot

et al. 2001

Journal of Applied Physiology

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We examined the effects of 30 min of exposure to either + 3G x or +3G z centrifugation on cerebrovascular responses to 80 0 head-up tilt (HUT) in 14 healthy individuals. Both before and after +3G x or +3G z centrifugation, eye-level blood pressure (BP ey e ) , end tidal CO 2 (P ET C0 2 ), mean cerebral flow velocity (CFV) in the middle cerebral artery (trans cranial Doppler ultrasound), cerebral vascular resistance (CVR) and dynamic cerebral autoregulatory gain (GAIN) were measured with subjects in the supine position and during subsequent 80 0 HUT for 30 min. Mean BP eye decreased with HUT in both the G x (n= 7) and G z (n=7) groups (P

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The Neurovestibular Challenges of Astronauts and Balance Patients: Some Past Countermeasures and Two Alternative Approaches to Elicitation, Assessment and Mitigation

Lawson

Rupert

McGrath

2016

Front. Syst. Neurosci.

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Astronauts and vestibular patients face analogous challenges to orientation function due to adaptive exogenous (weightlessness-induced) or endogenous (pathology-induced) alterations in the processing of acceleration stimuli. Given some neurovestibular similarities between these challenges, both affected groups may benefit from shared research approaches and adaptation measurement/improvement strategies. This article reviews various past strategies and introduces two plausible ground-based approaches, the first of which is a method for eliciting and assessing vestibular adaptation-induced imbalance. Second, we review a strategy for mitigating imbalance associated with vestibular pathology and fostering readaptation. In discussing the first strategy (for imbalance assessment), we review a pilot study wherein imbalance was elicited (among healthy subjects) via an adaptive challenge that caused a temporary/reversible disruption. The surrogate vestibular deficit was caused by a brief period of movement-induced adaptation to an altered (rotating) gravitoinertial frame of reference. This elicited adaptation and caused imbalance when head movements were made after reentry into the normal (non-rotating) frame of reference. We also review a strategy for fall mitigation, viz., a prototype tactile sway feedback device for aiding balance/recovery after disruptions caused by vestibular pathology. We introduce the device and review a preliminary exploration of its effectiveness in aiding clinical balance rehabilitation (discussing the implications for healthy astronauts). Both strategies reviewed in this article represent cross-disciplinary research spin-offs: the ground-based vestibular challenge and tactile cueing display were derived from aeromedical research to benefit military aviators suffering from flight simulator-relevant aftereffects or inflight spatial disorientation, respectively. These strategies merit further evaluation using clinical and astronaut populations.

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A countermeasure for loss of situation awareness: Transitioning from the laboratory to the aircraft

Lawson

McGrath

Rupert

et al. 2016

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Angus H. Rupert

An instrumentation solution for reducing spatial disorientation mishaps

The Magnitude of the Spatial Disorientation Problem in Transport Airplanes

Effect of acute exposure to hypergravity (G_X vs. G_Z) on dynamic cerebral autoregulation

The Neurovestibular Challenges of Astronauts and Balance Patients: Some Past Countermeasures and Two Alternative Approaches to Elicitation, Assessment and Mitigation

A countermeasure for loss of situation awareness: Transitioning from the laboratory to the aircraft

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Angus H. Rupert

An instrumentation solution for reducing spatial disorientation mishaps

The Magnitude of the Spatial Disorientation Problem in Transport Airplanes

Effect of acute exposure to hypergravity (GX vs. GZ) on dynamic cerebral autoregulation

The Neurovestibular Challenges of Astronauts and Balance Patients: Some Past Countermeasures and Two Alternative Approaches to Elicitation, Assessment and Mitigation

A countermeasure for loss of situation awareness: Transitioning from the laboratory to the aircraft

Contact Info

Product

Resources

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Effect of acute exposure to hypergravity (G_X vs. G_Z) on dynamic cerebral autoregulation