ALBERT

Description: The aim of this study was to obtain a better understanding of the personal experiences and interpersonal factors that influence the performance of small military teams deployed in an extreme and isolated environment for an extended period of time. Twelve members of the Danish Sirius Patrol operating in Greenland in 6 two-person teams were evaluated over the course of a 7-week Fall and a 23-week Spring dogsledge journey by means of a bi-weekly rating form and debriefing interviews. Ratings of positive affect were significantly higher than negative affect over the course of the journeys ( p = .03); adaptive cognitive and behavioral coping strategies and generally compatible interpersonal relationships were recorded. The importance of appropriate communication for team effectiveness was emphasized, including expectations about their work together and personal goals. The findings also demonstrated the negative influence of unexpected interpersonal events in the home environment on team member relationships and work performance. Applications for long-duration space exploration are discussed.

Description: This study assessed personal values and positive growth experiences, possible changes in these factors, and interpersonal functioning in a two-man expedition team that successfully reached the North Pole in 55 days without outside support. Personality measures were administered before expedition, weekly rating forms were completed on the ice, and semi-structured interviews and several repeat measures were carried out at the end of the expedition and at a 6-month follow-up. Both team members had high scores on the Multidimensional Personality Questionnaire (MPQ) Social Closeness, Social Potency, and Positive Emotionality Scales, and on the NEO Five-Factor Inventory (NEO-FFI) Extraversion Scale. The Portrait Values Questionnaire (PVQ) findings indicated that for both team members, Self-direction and Stimulation were strong personal values; Power, Tradition, and Conformity were low on the values hierarchy. The Posttraumatic Growth Inventory (PTGI) assessments indicated different aspects of personal growth for each team member from postexpedition to the follow-up. Contrary to previous findings, this all-male team did not exhibit strong competitiveness with each other.

Description: This case study assessed the psychological strengths and stability of attitudes and values of a 29-year-old male who successfully completed a 260-day solo sailboat circumnavigation of the globe. Personality findings indicated positive psychological functioning; high scores on traits of boldness, agreeableness, and openness; and mid-range on extraversion. An internal locus of control belief orientation was evident from the pre- to post-voyage evaluation periods. Personal values of hedonism, universalism, and stimulation were the highest rated values over the course of the voyage. Positive adaptation was reflected in perceptions of personal growth, endorsement of positive experiences, and flexibility in using a variety of coping strategies depending on the situation. The mid-range level of extraversion and high trait agreeableness may be adaptive characteristics, reflecting comfort in solitude while possessing the ability and interest in communicating with others as a means of stimulation and social support.

Description: BACKGROUND: Nonuniform heating and cooling of the body, a possibility during extended duration extravehicular activities (EVA), was studied by means of a specially designed water circulating garment that independently heated or cooled the right and left sides of the body. The purpose was to assess whether there was a generalized reaction on the finger in extreme contradictory temperatures on the body surface, as a potential heat status controller. METHOD: Eight subjects, six men and two women, were studied while wearing a sagittally divided experimental garment with hands exposed in the following conditions: Stage 1 baseline--total body garment inlet water temperature at 33 degrees C; Stage 2--left side inlet water temperature heated to 45 degrees C; right side cooled to 8 degrees C; Stage 3--left side inlet water temperature cooled to 8 degrees C, right side heated to 45 degrees C. RESULTS: Temperatures on each side of the body surface as well as ear canal temperature (Tec) showed statistically significant Stage x Side interactions, demonstrating responsiveness to the thermal manipulations. Right and left finger temperatures (Tfing) were not significantly different across stages; their dynamic across time was similar. Rectal temperature (Tre) was not reactive to prevailing cold on the body surface, and therefore not informative. Subjective perception of heat and cold on the left and right sides of the body was consistent with actual temperature manipulations. CONCLUSIONS: Tec and Tre estimates of internal temperature do not provide accurate data for evaluating overall thermal status in nonuniform thermal conditions on the body surface. The use of Tfing has significant potential in providing more accurate information on thermal status and as a feedback method for more precise thermal regulation of the astronaut within the EVA space suit.

Description: Future activities in space will require greater periods of time in extreme environments in which the body periphery will be vulnerable to chilling. Maintaining the hands and fingers in comfortable conditions enhances finger flexibility and dexterity, and thus effects better work performance. We have evaluated the efficacy of promoting heat transfer and release by the extremities by increasing the blood flow to the periphery from more distant parts of the body. The experimental garment paradigm developed by the investigators was used to manipulate the temperature of different body areas. Six subjects, two females and four males, were evaluated in a stage-1 baseline condition, with the inlet temperature of the circulating water in the liquid cooling/warming garment (LCWG) at 33 degrees C. At stage 2 the total LCWG water inlet temperature was cooled to 8 degrees C, and at stage 3 the inlet water temperature in specific segments of the LCWG was warmed (according to protocol) to 45 degrees C, while the inlet temperature in the rest of the LCWG was maintained at 8 degrees C. The following four body-area-warming conditions were studied in separate sessions: (1) head, (2) upper torso/arm, (3) upper torso/arm/head, and (4) legs/feet. Skin temperature, heat flux and blood perfusion of the fingers, and subjective perception of thermal sensations and overall physical comfort were assessed. Finger temperature (T(fing)) analyses showed a statistically significant condition x stage interaction. Post-hoc comparisons (T(fing)) indicated that at stage 3, the upper torso/arm/head warming condition was significantly different from the head, upper torso/arm and legs/feet conditions, showing an increase in T(fing). There was a significant increase in blood perfusion in the fingers at stage 3 in all conditions. Subjective perception of hand warmth, and overall physical comfort level significantly increased in the stage 3 upper torso/arm/head condition. The findings indicate that physiological methods to enhance heat transfer by the blood to the periphery within protective clothing provide an additional tool for increasing total and local human comfort in extreme environments.

Description: BACKGROUND: The development of individualized countermeasures to address problems in thermoregulation is of considerable importance for humans in space and other extreme environments. A methodology is presented for evaluating minimal/maximal heat flux from the total human body and specific body zones, and for assessing individual differences in the efficiency of heat exchange from these body areas. The goal is to apply this information to the design of individualized protective equipment. METHODS: A multi-compartment conductive plastic tubing liquid cooling/warming garment (LCWG) was developed. Inlet water temperatures of 8-45 degrees C were imposed sequentially to specific body areas while the remainder of the garment was maintained at 33 degrees C. RESULTS: There were significant differences in heat exchange level among body zones in both the 8 degrees and 45 degrees C temperature conditions (p 〈 0.001). The greatest amount of heat was absorbed/released by the following areas: thighs (8 degrees C: -2.12 +/- 0.14 kcal min(-1); 45 degrees C: +1.58 +/- 0.23); torso (8 degrees C: -2.12 +/- 0.13 kcal min(-1); 45 degrees C: +1.31 +/- 0.27); calves (8 degrees C: -1.59 +/- 0.26 kcal min(-1); 45 degrees C: +1.53 +/- 0.24); and forearms (8 degrees C: -1.67 +/- 0.29 kcal x min(-1); 45 degrees C: +1.45 +/- 0.20). These are primarily zones with relatively large muscle mass and adipose tissue. Calculation of absorption/release heat rates standardized per unit tube length and flow rate instead of zonal surface area covered showed that there was significantly greater heat transfer in the head, hands, and feet (p 〈 0.001). The areas in which there was considerable between-subject variability in rates of heat transfer and thus most informative for individual profile design were the torso, thighs, shoulders, and calves or forearms. CONCLUSIONS: The methodology developed is sensitive to individual differences in the process of heat exchange and variations in different body areas, depending on their size and tissue mass content. The design of individual thermal profiles is feasible for better comfort of astronauts on long-duration missions and personnel in other extreme environments.