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Title: Principal Investigator:


1
Development of an Index of Habitability Using
Converging Indicators
Principal Investigator Patricia Cowings, Ph.D.
NASA ARC Coinvestigators William
Toscano, Ph.D. NASA ARC Charles DeRoshia,
M.S. NASA ARC Bruce Taylor, Ph.D. University
of Akron Seleimeh Hines, Ph.D. NRC Post
Doctoral Fellow
2

Primary Mission Goal of Space Human Factors
  • Enable a permanent human presence in space
  • Develop protocols to
  • Accurately assess spaceflight effects on crew
    health, safety, and operational performance.
  • Evaluate and test countermeasures that will
    remedy these environmental effects.

3
Technical Background
  • Extended spaceflight affects physiology with
    associated adverse effects on crew performance
    and health.
  • Other factors like workload, isolation, fatigue,
    etc. are known to effect operational efficiency.
  • There is a wide range in the ability of
    individuals to adapt to space and re-adapt to
    Earth.
  • Future crew complementsmen and women,
    multi-cultural, different professional
    backgrounds and physical condition.

4
Statement of Problem
  • Methods are needed
  • to examine individual differences in the
    environmental effects of extended spaceflight on
    crew.
  • to evaluate the efficacy of countermeasures for
    individuals.

5

Psychophysiological Research Laboratory
  • Research program includes
  • Motion sickness in space and on Earth
  • Post-flight orthostatic intolerance
  • Performance during chronic and acute stress
  • Neurobehavioral/psychosocial function

6

Psychophysiological Research Laboratory
  • Method of Assessment Converging Indicators
  • Physiological measures
  • Performance metrics
  • Standardized self-report scales
  • Method of Correction Preflight Training
  • Autogenic-Feedback Training Exercise (AFTE)
  • 6-hour physiological conditioning program

7
Converging Indicators
Physiology (ANS, CNS)
Subjective States (mood, symptoms)
Performance (cognitive, perceptual, neuro-motor)
8
Autogenic Feedback System-2
Physiological Measures
skin temperature finger blood volume pulse
skin conductance heart rate respiration rate
Reported Symptoms
warmth dizziness headache drowsiness salivation pa
llor sweating nausea vomiting
Autogenic-Feeback System-2 (AFS-2)
9
Mood Scale and Delta Performance Battery
Reported Mood States Performance Subtests
  • code substitution
  • spatial transformation
  • non-preferred hand tapping
  • preferred hand tapping
  • pattern comparison
  • three-choice reaction time
  • grammatical reasoning
  • motivation to perform
  • arousal state
  • fatigue level
  • ease of concentration
  • physiological tension
  • elation
  • physical discomfort
  • contentedness

10
Approach
  • Database analyses and archival.
  • Develop signal analysis and processing software.
  • Test converging indicators methods in operational
    environments.

11
Habitability in Rotating Centrifuge
22 hour exposures at G-levels up to 1.5 G
12
Individual Differences in Adaptational Capacity
  • Four adult men participated in this study
  • Each subject lived aboard the centrifuge for 22
    hours at 1.0g (i.e., no rotation), and 1.25 g.
  • One subject also participated in a 1.5g test

13
Individual Differences in Adaptational Capacity
  • Ambulatory physiological data were collected
    continuously.

14
Individual Differences in Adaptational Capacity
  • Subjects occupied a small compartment, equipped
    with bed, video entertainment, laptop computer,
    toilet facilities and food and beverages.

15
Individual Differences in Adaptational Capacity
  • Subjects were in video and voice contact with
    investigators and medical monitors at all times.

16
Individual Differences in Adaptational Capacity
  • G-tolerance tests were administered before and
    after each 22 hour habitat test.
  • G-load was increased until subjects experienced
    reduced peripheral vision and/or pre-syncope.

17
Individual Differences in Adaptational Capacity
  • Subjects were required to perform a stand test
    at 4-hour intervals to evaluate their orthostatic
    tolerance.

18
Individual Differences in Adaptational Capacity
  • Performance tests and a mood state scale were
    performed on a laptop computer following each
    stand test, and symptom reports were obtained
    verbally.

19
Stand Tests at 1.0g Heart Rate and Blood Pressure
Subject Q22
Subject Q23
Subject Q20
Subject Q21
Time of Day
Time of Day
20
Stand Tests at 1.25g Heart Rate and Blood Pressure
Subject Q21
Subject Q23
Subject Q20
Subject Q22
21
Blood Pressure and Heart Rate of Subject Q20
During Hyper-g
  • As g-load increased, this subject showed both
    increases in heart rate and diastolic blood
    pressure which enabled cardiac output to
    stabilize.
  • Although his autonomic profile protected him
    from syncope, he was more susceptible to motion
    sickness than others.

22
Cardiac Responses to G-Tolerance Tests
23
Cardiac Responses During Stand Tests at 1.25g
24

Converging Indicators for Subject Q20 at
Different G-loads
25
Converging Indicators for Subject Q23 at
Different G-loads
26
Conclusions
  • Converging indicators can be used to identify
    individual differences in adaptational capacity
    (e.g., susceptibility to orthostatic intolerance
    and motion sickness).
  • Psychomotor performance was significantly
    degraded during hypergravity. Symptoms generally
    increased with g-load. Reductions of mood,
    perceptual or cognitive responses were highly
    idiosyncratic.
  • Physiological profiles may be used to predict how
    well individuals adapt and suggest that training
    control of autonomic responses (i.e.,
    Autogenic-Feedback Training Exercise-AFTE) may
    help to reduce or eliminate symptoms.
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