Your search keyword '"cooling garment"' showing total 27 results

1. Mitigating impacts of hot weather on outdoor workers by attaching phase change materials based on body mapping of physiology

Author

Gu, Shuting, Yang, Zhen, Chen, Hongyu, Ma, Wenwei, Gao, Hongyi, Zhang, Ying, and Xu, Jingxian

Published

2025

2. Simulation study of a novel phase change cooling garment for electricians in a high-temperature environment

Author

Gui, Xiaohong, Wang, Shengwei, and Ding, Li

Published

2024

3. Improving thermal comfort and cognitive ability of manual workers by cooling garment of different temperatures based on EEG analysis

Author

Wang, Haiying, Yan, Renjie, Lin, Huxiang, Sun, Junli, Meng, Hang, Hou, Rongfu, Hao, Yongwang, Hu, Songtao, and Zhang, Jun

Published

2025

4. 空气冷却式降温服用半导体制冷装置的实验与模拟.

Author

程哲铭, 李彬, 欧阳新萍, and 苏博文

Abstract

Copyright of Journal of Refrigeration is the property of Journal of Refrigeration Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

5. Evaluation of Phase Change Materials for Personal Cooling Applications.

Author

Teunissen, Lennart, Janssen, Emiel, Schootstra, Joost, Plaude, Linda, and Jansen, Kaspar

Abstract

Eleven phase change materials (PCMs) for cooling humans in heat-stressed conditions were evaluated for their cooling characteristics. Effects of packaging material and segmentation were also investigated. Sample packs with a different type PCM (water- and oil-based PCMs, cooling gels, inorganic salts) or different packaging (aluminum, TPU, TPU + neoprene) were investigated on a hotplate. Cooling capacity, duration, and power were determined. Secondly, a PCM pack with hexagon compartments was compared to an unsegmented version with similar content. Cooling power decreased whereas cooling duration increased with increasing melting temperature. The water-based PCMs showed a >2x higher cooling power than other PCMs, but were relatively short-lived. The flexible gels and salts did not demonstrate a phase change plateau in cooling power, compromising their cooling potential. Using a TPU or aluminum packaging was indifferent. Adding neoprene considerably extended cooling duration, while decreasing power. Segmentation has practical benefits, but substantially lowered contact area and therefore cooling power. [ABSTRACT FROM AUTHOR]

Published

2023

6. Development of Air Ventilation Garments with Small Fan Panels to Improve Thermal Comfort.

Author

Zhao, Mengmeng, Gao, Chuansi, and Wang, Min

Abstract

Air ventilation garments (AVGs) are reported to be effective in improving thermal comfort in hot environments in previous research. The purpose of this study was to develop AVGs with small fan panels and examine their cooling performance. Three AVGs equipped with more, much smaller sized ventilation fans were developed, including FFV (ten small fans all located on the front body), BBV (ten small fans all located on the back body), and FBV (six small fans located on the front body and four small fans located on the back body). Another garment, without ventilation fans but with the same structure and textile material, was made as a reference garment (CON). The cooling performance of the four garments was examined through subject trials in a moderately hot environment of 32 °C and 60% relative humidity. Simulated office work with 70 min of sedentary activity was performed. The results showed that the physiological indexes of the mean body skin temperature, the mean torso skin temperature, and the heart rate in the three AVG scenarios were significantly lower than those in the CON condition (p < 0.05). Thermal sensation, thermal comfort, and wetness sensation were also improved when wearing the three AVGs (p < 0.05). No significant difference was displayed among the three AVGs on the whole body and the whole torso (p > 0.05) due to the similarity of the air velocity created by the fan panels. A significant difference was found on the local torso skin, with FFV significantly reducing the chest and the belly skin temperature, and BBV significantly reducing the scapula and the lower back skin temperature (p < 0.05). This study indicates that the AVGs with the small fan panels were effective in reducing heat strain and improving thermal comfort, and thus are recommended for use in hot environments. [ABSTRACT FROM AUTHOR]

Published

2023

7. Mitigation of heat strain by wearing a long‐sleeve fan‐attached jacket in a hot or humid environment.

Author

Mori, Kimiyo, Nagano, Chikage, Fukuzawa, Kimie, Hoshuyama, Natsuko, Tanaka, Riho, Nishi, Kento, Hashimoto, Kahori, and Horie, Seichi

Subjects

METABOLIC equivalent, AIR flow, HUMIDITY, HEART beat, JACKETS

Abstract

Objectives: This study examined whether a fan‐attached jacket (FAJ) may mitigate the heat strain in hot or humid environment. Methods: Nine healthy men engaged in 60‐min sessions on a bicycle ergometer (4 metabolic equivalents [METs] workload) in hot‐dry (40°C and 30% relative humidity) and warm‐humid (30°C and 85% relative humidity) environments. Both are equivalent to an approximately 29°C wet‐bulb globe temperature. The experiment was repeated—once wearing an ordinal jacket (control condition) and once wearing a long‐sleeve FAJ that transfers ambient air at a flow rate of 12 L/s (FAJ condition)—in both environments. Results: Increases in core temperatures in hot‐dry environment were not statistically different between control and FAJ; however, that in the warm‐humid environment were significantly different between control and FAJ (0.96 ± 0.10°C and 0.71 ± 0.11°C in rectal temperature, P <.0001; and 0.94 ± 0.09°C and 0.61 ± 0.09°C in esophageal temperature, P <.0001). Changes in heart rate were different between control and FAJ in both environments (62 ± 3 bpm and 47 ± 7 bpm, P <.0001 in hot‐dry environment; and 61 ± 3 bpm and 46 ± 5 bpm, P <.0001 in the warm‐humid environment) and decrease of %weight change was different in hot‐dry environment (1.59 ± 0.12% and 1.25 ± 0.05%, P =.0039), but not in the warm‐humid environment. Conclusions: Wearing a FAJ may mitigate heat strain both in hot or humid environments. [ABSTRACT FROM AUTHOR]

Published

2022

8. Considerations for Designing Sportswear for Low-Income Tropical Countries.

Author

Wickramarathne, Tharushi Indeewari and Al Mahmud, Abdullah

Subjects

LOW-income countries, SPORTSWEAR, TROPICAL climate, ENDURANCE athletes, DEVELOPING countries

Abstract

Heat illnesses are critical for endurance athletes living in tropical and developing countries. However, the requirements of these athletes have not been considered in existing sportswear. Therefore, this study aims to assess the perceptions of endurance athletes living in a developing and tropical country regarding cooling sportswear. Four focus groups were conducted with 20 Sri Lankan endurance cycling athletes. Participants desired cooling sportswear to dissipate heat effectively in a tropical climate and to support personalized cooling while blocking heat discomfort from external sunlight. They preferred uniformity and team representation in the cooling sportswear design, expressing their emotional expectations related to the culture. Furthermore, participants recommended utilizing local resources for producing high-performance cycling wear to cost-effectively fulfil their requirements. The climatic, cultural and economic factors identified in this study shed light onto sportswear design for athletes living in tropical and developing countries. [ABSTRACT FROM AUTHOR]

Published

2021

9. Cooling Between Exercise Bouts and Post-exercise With the Fan Cooling Jacket on Thermal Strain in Hot-Humid Environments

Author

Hidenori Otani, Makoto Fukuda, and Takehiro Tagawa

Subjects

body temperature, cooling garment, fan cooling, heat stress, exercise, Physiology, QP1-981

Abstract

This study investigated the effects of cooling between exercise bouts and post-exercise with a commercially available fan cooling jacket on thermal and perceptual responses during and following exercise in hot-humid environments. Ten male athletes completed two 30 min cycling bouts at a constant workload (1.4 watts⋅kg–1 of body mass) with a 5 min recovery period in between. Exercise was followed by a 10 min recovery period. In an environmental chamber (33°C, 65% relative humidity), participants performed two trials with (FCJ) or without (CON) the fan cooling jacket on a T-shirt during the 5 min inter-exercise and 10 min post-exercise recovery periods. Mean, chest and upper arm skin temperatures, and thermal sensation and comfort were lower in FCJ than CON trial during and following exercise (P < 0.05). Thigh and calf skin temperatures, infrared tympanic temperature and heart rate were lower in FCJ than CON trial during the experimental trials (P < 0.05). The rates of fall in mean, chest and upper arm skin temperatures, infrared tympanic temperature and thermal sensation and comfort were faster in FCJ than CON trial during both recovery periods (P < 0.05). There were faster rates of fall in thigh and calf skin temperatures and heart rate in FCJ than CON trial during the post-exercise recovery period (P < 0.05). No difference was observed between trials in the rating of perceived exertion (P > 0.05). This study indicates that cooling between exercise bouts and post-exercise with the fan cooling jacket would effectively mitigate thermal strain and perception/discomfort during and following exercise in hot-humid environments. This garment would reduce whole-body skin temperature quickly while promoting falls in lower-body as well as upper-body skin temperatures.

Published

2021

10. Cooling Between Exercise Bouts and Post-exercise With the Fan Cooling Jacket on Thermal Strain in Hot-Humid Environments.

Author

Otani, Hidenori, Fukuda, Makoto, and Tagawa, Takehiro

Subjects

THERMAL strain, COOLDOWN, SKIN temperature, EXERCISE, RATE of perceived exertion

Abstract

This study investigated the effects of cooling between exercise bouts and post-exercise with a commercially available fan cooling jacket on thermal and perceptual responses during and following exercise in hot-humid environments. Ten male athletes completed two 30 min cycling bouts at a constant workload (1.4 watts⋅kg–1 of body mass) with a 5 min recovery period in between. Exercise was followed by a 10 min recovery period. In an environmental chamber (33°C, 65% relative humidity), participants performed two trials with (FCJ) or without (CON) the fan cooling jacket on a T-shirt during the 5 min inter-exercise and 10 min post-exercise recovery periods. Mean, chest and upper arm skin temperatures, and thermal sensation and comfort were lower in FCJ than CON trial during and following exercise (P < 0.05). Thigh and calf skin temperatures, infrared tympanic temperature and heart rate were lower in FCJ than CON trial during the experimental trials (P < 0.05). The rates of fall in mean, chest and upper arm skin temperatures, infrared tympanic temperature and thermal sensation and comfort were faster in FCJ than CON trial during both recovery periods (P < 0.05). There were faster rates of fall in thigh and calf skin temperatures and heart rate in FCJ than CON trial during the post-exercise recovery period (P < 0.05). No difference was observed between trials in the rating of perceived exertion (P > 0.05). This study indicates that cooling between exercise bouts and post-exercise with the fan cooling jacket would effectively mitigate thermal strain and perception/discomfort during and following exercise in hot-humid environments. This garment would reduce whole-body skin temperature quickly while promoting falls in lower-body as well as upper-body skin temperatures. [ABSTRACT FROM AUTHOR]

Published

2021

11. Workplace Heat Exposure Management in Indian Construction Workers Using Cooling Garment.

Author

Ashtekar, Shirish, Mishra, SukhDev, Kapadia, Vishal, Nag, Pranab, and Singh, Gyanendra

Subjects

PHYSIOLOGICAL effects of heat, PHYSIOLOGICAL adaptation, BLUE collar workers, BODY temperature regulation, CLIMATOLOGY, COMMERCIAL product evaluation, CONSTRUCTION industry, INDUSTRIAL hygiene, INDUSTRIAL safety, PROTECTIVE clothing, RESEARCH funding, SUNSHINE, T-test (Statistics), TEMPERATURE, WORK environment, DATA analysis software, DESCRIPTIVE statistics, MANN Whitney U Test, PREVENTION

Abstract

Construction workers are at high risk of heat-related illnesses during summer months in India. The personal cooling garment (PCG) is a microclimate assistive device that provides protection from heat stress. The applicability and efficacy of wearing PCG for the physiological and subjective responses were tested on 29 healthy construction workers at actual field worksites. During the test, the climatic conditions were 103.64 ± 38.3°F dry bulb temperature, 41.2 ± 13.4% relative humidity, and wet bulb globe temperature 91.43 ± 39.92°F. Mean weighted skin temperature was significantly lowered by 38.66 ± 33.98°F when wearing PCG as compared with wearing habitual clothing (HC), 32.36 ± 33.44°F (p < .05). Mean sweat loss was also significantly lower when wearing PCG: 0.365 ± 0.257 kg as compared with wearing HC: 0.658 ± 0.342 kg (p < .05). Heart rate, along with back and chest skin temperatures were significantly reduced with wearing PCG. The present study suggests that PCG provides an affordable way of alleviating the discomfort and physiological strain caused by environmental heat exposure. [ABSTRACT FROM AUTHOR]

Published

2019

12. Evaluation of Phase Change Materials for Personal Cooling Applications

Author

L.P.J. Teunissen, Kaspar M. B. Jansen, Joost Schootstra, Linda Plaude, and Emiel Janssen

Subjects

Materials science, Polymers and Plastics, Materials Science (miscellaneous), cooling garment, Mechanical engineering, General Business, Management and Accounting, Phase-change material, cooling power, Phase change, PCM, Cooling power, Business, Management and Accounting (miscellaneous), hotplate, phase change material

Abstract

Eleven phase change materials (PCMs) for cooling humans in heat-stressed conditions were evaluated for their cooling characteristics. Effects of packaging material and segmentation were also investigated. Sample packs with a different type PCM (water- and oil-based PCMs, cooling gels, inorganic salts) or different packaging (aluminum, TPU, TPU + neoprene) were investigated on a hotplate. Cooling capacity, duration, and power were determined. Secondly, a PCM pack with hexagon compartments was compared to an unsegmented version with similar content. Cooling power decreased whereas cooling duration increased with increasing melting temperature. The water-based PCMs showed a >2x higher cooling power than other PCMs, but were relatively short-lived. The flexible gels and salts did not demonstrate a phase change plateau in cooling power, compromising their cooling potential. Using a TPU or aluminum packaging was indifferent. Adding neoprene considerably extended cooling duration, while decreasing power. Segmentation has practical benefits, but substantially lowered contact area and therefore cooling power.

Published

2021

13. Efficacy of cooling garments on exertional heat strain recovery in firefighters: a systematic review and meta-analysis.

Author

Li, Jian, Zhu, Wen, Wang, Yunyi, and Li, Jun

Subjects

COMPRESSION garments, HEAT recovery, FIRE fighters, CLOTHING & dress, RATE of perceived exertion, SKIN temperature

Abstract

There is no consent regarding the efficacy of cooling garments as a treatment for reducing heat strain for firefighters. To quantify whether cooling garments mitigate exertional heat stress in randomized controlled trials (RCTs) among firefighters, a systematic review and meta-analysis are performed to explore the issue by following the PRISMA checklist. The searched databases include PubMed, Embase, Google Scholar, Cochrane Library, and Web of Science from January 1999 to January 2021. The studies are constricted to RCTs where the performance of cooling garments is compared to non-cooling control groups. The primary parameters associated with heat strain are elucidated through measuring thermoregulatory (rectal temperature [ Tre ], mean skin temperature [ T ¯ sk ]), metabolic (heart rate [ HR ], sweat rate [ SR ]), and perceptual (rating of perceived exertion [ RPE ], thermal sensation [ TS ]) indices from baseline to the end of the exercise. Pre-planned subgroup analyses provide information on whether the outcome of the treatment influences the type of cooling garments, cooled body area, and cooling before or after firefighting activities. Twelve eligible RCTs, including 105 firefighters (mean ± standard deviation age, 29.01 ± 7.15 years; 88% male), are considered for the meta-analysis. Here, Δ Tre, Δ T ¯ sk, Δ HR, and TS show significant improvement after the cooling intervention, while no significant change is observed for Δ SR and RPE between the cooling and control groups. Evidence from the meta-analysis suggests that cooling garments are an effective adjunct therapy to mitigate exertional heat stress on firefighters compared to non-cooling treatment. Further, subgroup analyses suggest statistically significant influence facilitated by the type of cooling garments, but cooling before or after firefighting activities had no effect on exertional heat strain recovery. However, it must be noted that more RCTs are needed to confirm the present findings. [ABSTRACT FROM AUTHOR]

Published

2022

14. Development of a perfusion suit incorporating auxiliary heating and cooling system

Author

Ruckman, J.E., Hayes, S.G., and Cho, J.H.

Published

2002

15. Evaluation of Phase Change Materials for Personal Cooling Applications

Author

Teunissen, L.P.J. (author), Janssen, E.S. (author), Schootstra, J. (author), Plaude, L. (author), Jansen, K.M.B. (author), Teunissen, L.P.J. (author), Janssen, E.S. (author), Schootstra, J. (author), Plaude, L. (author), and Jansen, K.M.B. (author)

Abstract

Eleven phase change materials (PCMs) for cooling humans in heat-stressed conditions were evaluated for their cooling characteristics. Effects of packaging material and segmentation were also investigated. Sample packs with a different type PCM (water- and oil-based PCMs, cooling gels, inorganic salts) or different packaging (aluminum, TPU, TPU + neoprene) were investigated on a hotplate. Cooling capacity, duration, and power were determined. Secondly, a PCM pack with hexagon compartments was compared to an unsegmented version with similar content. Cooling power decreased whereas cooling duration increased with increasing melting temperature. The water-based PCMs showed a >2x higher cooling power than other PCMs, but were relatively short-lived. The flexible gels and salts did not demonstrate a phase change plateau in cooling power, compromising their cooling potential. Using a TPU or aluminum packaging was indifferent. Adding neoprene considerably extended cooling duration, while decreasing power. Segmentation has practical benefits, but substantially lowered contact area and therefore cooling power., Accepted Author Manuscript, Emerging Materials, Sustainable Design Engineering, Industrial Design Engineering

Published

2021

16. Mild evaporative cooling applied to the torso provides thermoregulatory benefits during running in the heat.

Author

Filingeri, D., Fournet, D., Hodder, S., and Havenith, G.

Subjects

*BODY composition, *BODY temperature, *BODY temperature regulation, *CLOTHING & dress, *COLD (Temperature), *EXERCISE, *EXERCISE physiology, *HEAT, *LONGITUDINAL method, *PHYSIOLOGICAL research, *PROBABILITY theory, *RECTUM, *RESEARCH funding, *RUNNING, *STATISTICS, *DATA analysis, *SKIN temperature, *TORSO, *BODY movement, *OXYGEN consumption, *DESCRIPTIVE statistics

Abstract

We investigated the effects of mild evaporative cooling applied to the torso, before or during running in the heat. Nine male participants performed three trials: control-no cooling ( CTR), pre-exercise cooling ( PRE-COOL), and during-exercise cooling ( COOL). Trials consisted of 10-min neutral exposure and 50-min heat exposure (30 °C; 44% humidity), during which a 30-min running protocol (70% VO2max) was performed. An evaporative cooling t-shirt was worn before the heat exposure ( PRE-COOL) or 15 min after the exercise was started ( COOL). PRE-COOL significantly lowered local skin temperature ( Tsk) (up to −5.3 ± 0.3 °C) ( P < 0.001), mean Tsk (up to −2 ± 0.1 °C) ( P < 0.001), sweat losses (−143 ± 40 g) ( P = 0.002), and improved thermal comfort ( P = 0.001). COOL suddenly lowered local Tsk (up to −3.8 ± 0.2 °C) ( P < 0.001), mean Tsk (up to −1 ± 0.1 °C) ( P < 0.001), heart rate (up to −11 ± 2 bpm) ( P = 0.03), perceived exertion ( P = 0.001), and improved thermal comfort ( P = 0.001). We conclude that the mild evaporative cooling provided significant thermoregulatory benefits during exercise in the heat. However, the timing of application was critical in inducing different thermoregulatory responses. These findings provide novel insights on the thermoregulatory role of Tsk during exercise in the heat. [ABSTRACT FROM AUTHOR]

Published

2015

17. Cooling garments--A review.

Author

Sarkar, Soumyajit and Kothari, V. K.

Abstract

Thermal discomfort is one the major challenges during work in hot and/or humid environments like mines, foundries and arid/desert regions. Heat and moisture management is the key to prevent the workers from heat stress. Personnel protective garments alone are not sufficient to provide thermal neutrality. Auxiliary cooling garments are required to aid the process of human body cooling. This review consists of human thermoregulation, followed by different types of cooling garments, and their advantages and disadvantages. [ABSTRACT FROM AUTHOR]

Published

2014

18. Pre-cooling for endurance exercise performance in the heat: a systematic review.

Author

Jones, Paul R., Barton, Christian, Morrissey, Dylan, Maffulli, Nicola, and Hemmings, Stephanie

Subjects

*ENDURANCE sports, *BODY temperature regulation, *HEAT exhaustion, *EXERCISE, *INGESTION

Abstract

Background: Endurance exercise capacity diminishes under hot environmental conditions. Time to exhaustion can be increased by lowering body temperature prior to exercise (pre-cooling). This systematic literature review synthesizes the current findings of the effects of pre-cooling on endurance exercise performance, providing guidance for clinical practice and further research. Methods: The MEDLINE, EMBASE, CINAHL, Web of Science and SPORTDiscus databases were searched in May 2012 for studies evaluating the effectiveness of pre-cooling to enhance endurance exercise performance in hot environmental conditions (⩾ 28°C). Studies involving participants with increased susceptibility to heat strain, cooling during or between bouts of exercise, and protocols where aerobic endurance was not the principle performance outcome were excluded. Potential publications were assessed by two independent reviewers for inclusion and quality. Means and standard deviations of exercise performance variables were extracted or sought from original authors to enable effect size calculations. Results: In all, 13 studies were identified. The majority of studies contained low participant numbers and/or absence of sample size calculations. Six studies used cold water immersion, four crushed ice ingestion and three cooling garments. The remaining study utilized mixed methods. Large heterogeneity in methodological design and exercise protocols was identified. Effect size calculations indicated moderate evidence that cold water immersion effectively improved endurance performance, and limited evidence that ice slurry ingestion improved performance. Cooling garments were ineffective. Most studies failed to document or report adverse events. Low participant numbers in each study limited the statistical power of certain reported trends and lack of blinding could potentially have introduced either participant or researcher bias in some studies. Conclusions: Current evidence indicates cold water immersion may be the most effective method of pre-cooling to improve endurance performance in hot conditions, although practicality must be considered. Ice slurry ingestion appears to be the most promising practical alternative. Interestingly, cooling garments appear of limited efficacy, despite their frequent use. Mechanisms behind effective pre-cooling remain uncertain, and optimal protocols have yet to be established. Future research should focus on standardizing exercise performance protocols, recruiting larger participant numbers to enable direct comparisons of effectiveness and practicality for each method, and ensuring potential adverse events are evaluated. [ABSTRACT FROM AUTHOR]

Published

2012

19. Evaluation of a single session with cooling garment for persons with multiple sclerosis – a randomized trial.

Author

Nilsagård, Ylva, Denison, Eva, and Gunnarsson, Lars-Gunnar

Subjects

*MULTIPLE sclerosis, *CLOTHING & dress, *COOLING therapy, *CROSSOVER trials, *PHYSICAL therapy, *EVERYDAY life, *THERAPEUTICS, *CENTRAL nervous system diseases, *PATIENTS

Abstract

Purpose. This research investigates the objective and subjective effects of wearing the Rehband® cooling garment.Method. A multi-centre, randomized crossover study was conducted regarding 43 heat-sensitive persons with multiple sclerosis (MS), comparing active treatment with placebo. Subjects were tested immediately before and after intervention. Ten- (10TW) and 30-metre timed walk (30TW), oral temperature, spasticity, standing balance and timed up and go (TUG) and nine-hole peg test (NHPT) performance were measured. A study-specific questionnaire was used to evaluate subjective experiences.Results. Active treatment produced statistically significant objective improvement in 10TW, 30TW, one-legged stance, tandem stance (right) and TUG; statistically significant subjective improvement was also found in fatigue, spasticity, weakness, balance, gait, transfers, ability to think clearly and time to recover. The coherence between the objective and subjective results indicates clinical relevance from the subjects' perspective. There were no statistically significant differences between treatments in terms of oral temperature, spasticity (measured by the modified Ashworth scale), tandem stance (left), step test or NHPT, or subjective signs such as difficulty in dressing, dysarthria or pain.Conclusions. Active cooling with a Rehband® vest is likely to have a positive effect on everyday life in heat-sensitive persons with MS. [ABSTRACT FROM AUTHOR]

Published

2006

20. One-Dimensional Human Thermoregulatory Model of Fighter Pilots in Cockpit Environments

Author

Nilsson, Elias

Subjects

human heat transfer, body temperature regulation, physiological model, cooling garment, cockpit modeling

Abstract

During flight missions, fighter pilots are in general exposed to vast amounts of stress including mild hypoxia, vibrations, high accelerations, and thermal discomfort. It is interesting to predict potential risks with a certain mission or flight case due to these stresses to increase safety for fighter pilots. The most predominant risk is typically thermal discomfort which can lead to serious health concerns. Extensive exposure to high or low temperature in combination with a demanding work situation weakens the physical and mental state of the pilot and can eventually lead to life-threatening conditions. One method to estimate the physical and mental state of a person is to measure the body core temperature. The body core temperature cannot be measured continuously during flight and needs to be estimated by using for instance a human thermoregulatory model. In this study, a model of the human thermoregulatory system and the cockpit environment is developed. Current thermoregulatory models are not customized for fighter pilots but a model developed by Fiala et al. in 2001, which has previously shown good performance in both cold and warm environments as well as for various activation levels for the studied person, is used as a theoretical foundation. Clothing layers are implemented in the model corresponding to clothes used by pilots in the Swedish air force flying the fighter aircraft Gripen E in warm outside conditions. Cooling garments and air conditioning systems as well as avionics, canopy, and cockpit air are included in the model to get a realistic description of the cockpit environment. Input to the model is a flight case containing data with altitude and velocity of the fighter during a mission. human heat transfer; body temperature regulation; physiological model;cooling garment; cockpit modeling

Published

2015

21. Walking ability, balance and accidental falls in persons with Multiple Sclerosis

Author

Nilsagård, Ylva

Subjects

walking, validity, Medicin och hälsovetenskap, reliability, cooling garment, ICF, balance, accidental falls, prediction, multiple sclerosis, gait, Medical and Health Sciences

Abstract

By using a pragmatic paradigm, different research methodologies were employed in this thesis. MS-related symptoms may be exaggerated due to heatsensitivity and it is supposed that cooling garments relieve the symptoms. The effects of wearing a Rehband® vest were evaluated in a sample of 42 persons with MS in a randomised controlled crossover study. Both objective and subjective statistically significant improvements were found when a cooled Rehband® vest was worn compared to the wearing of a room-tempered vest. Using a repeated-measures design, 10m and 30m timed walks and Timed Up and Go were studied in 42 persons with MS. Reproducibility was investigated within and between test points. High reproducibility was found both within (r=0.97–0.98) and between measure points (r=0.91–0.93). The correlation between the three tests was high (r=0.85). Differences at –23% to +40% were established as being needed to detect genuine changes. Severity of MS infl uenced the size of the differences, especially for the 30m timed walk test. The 12-item MS Walking Scale was translated and used in a cross-sectional study. Out of 81 persons with MS, 89–96% perceived limitations in standing or walking. The internal consistency of the scale was acceptable for nine items (0.69–0.84). The concurrent validity between the 12-item MS Walking Scale and the investigated objective tests was low: Berg Balance Scale (r=–0.368**), Four Square Step Test (r=0.338**) and Timed Up and Gocognitive (r=0.319*). A prevalence of falling was found at 63% in a longitudinal cohort study with prospectively registered falls including 76 persons with MS. The odds of falling were fi ve fold when there was a reported need of using a walking aid indoors and outdoors and by 2.5 to 15.6 times while there was disturbed proprioception, depending on severity. The highest sensitivity was found for the Berg Balance Scale (94%) and the highest specifi city was found for the 12-item MS Walking Scale (82%). Positive predictive values at 70–83% were found for the Berg Balance Scale, Timed Up and Gocognitive, the Four Square Step Test and the 12-item MS Walking Scale. Finally, we explored and described factors that persons with MS perceive as related to accidental falls. A content analysis with a deductive approach was chosen. By conducting interviews, we found previously untargeted factors: divided attention, reduced muscular endurance, fatigue and heat-sensitivity. The content of the interviews also gave support to previously reported risk factors such as changes in gait pattern, walking disability, impaired proprioception and vision, and spasticity.

Published

2008

22. Evaluation of a single session with cooling garment for persons with multiple sclerosis-a randomized trial

Author

Nilsagård, Y., Denison, Eva, Gunnarsson, L. -G, Nilsagård, Y., Denison, Eva, and Gunnarsson, L. -G

Abstract

Purpose. This research investigates the objective and subjective effects of wearing the Rehband® cooling garment. Method. A multi-centre, randomized crossover study was conducted regarding 43 heat-sensitive persons with multiple sclerosis (MS), comparing active treatment with placebo. Subjects were tested immediately before and after intervention. Ten- (10TW) and 30-metre timed walk (30TW), oral temperature, spasticity, standing balance and timed up and go (TUG) and nine-hole peg test (NHPT) performance were measured. A study-specific questionnaire was used to evaluate subjective experiences. Results. Active treatment produced statistically significant objective improvement in 10TW, 30TW, one-legged stance, tandem stance (right) and TUG; statistically significant subjective improvement was also found in fatigue, spasticity, weakness, balance, gait, transfers, ability to think clearly and time to recover. The coherence between the objective and subjective results indicates clinical relevance from the subjects' perspective. There were no statistically significant differences between treatments in terms of oral temperature, spasticity (measured by the modified Ashworth scale), tandem stance (left), step test or NHPT, or subjective signs such as difficulty in dressing, dysarthria or pain. Conclusions. Active cooling with a Rehband® vest is likely to have a positive effect on everyday life in heat-sensitive persons with MS.

Published

2006

23. Endurance Time in the Self-Contained Toxic Environment Protective Outfit (STEPO) with Personal Ice-Cooled Microclimate Cooling System (PICS) in Three Environments

Author

ARMY RESEARCH INST OF ENVIRONMENTAL MEDICINE NATICK MA THERMAL AND MOUNTAIN MEDICINE DIVISION, Levine, Leslie, Cadarette, Bruce S., Kolka, Margaret A., ARMY RESEARCH INST OF ENVIRONMENTAL MEDICINE NATICK MA THERMAL AND MOUNTAIN MEDICINE DIVISION, Levine, Leslie, Cadarette, Bruce S., and Kolka, Margaret A.

Abstract

This study of the Self-Contained Toxic Environment Protective Ouffit (STEPO) with the Personal Ice-Cooled Microclimate Cooling System (PICS) in three environments was conducted in September 2002 at the request of Project Manager - Soldier Systems, Product Manager- Soldier Equipment (PM-Soldier), Ft. Belvoir, VA. PM-Soldier was addressing the needs of the STEPO/PICS users for guidance on work times up to 4 hours. A 1999 study of this STEPO/PICS system demonstrated that 4-hr work times were not safe for workers in a 38 deg C (100 deg F) environment. Using the same testing format of repeated cycles of 10 min rest and 20 min of treadmill walking, eliciting an overall moderate energy cost of 300-350 Watts, this study looked at the system in three less stressful environments: HOT 32.2 deg C (90 deg F) / 30% rh MODERATE 23.9 deg C (75 deg F) /40% rh, and COOL 15.6 deg C (60 deg F) / 50% rh, to ascertain endurance times in each of these environments.

Published

2003

24. Pre-cooling for endurance exercise performance in the heat: a systematic review

Author

Paul Remy Jones, Christian J Barton, Dylan Morrissey, Nicola Maffulli, and Steph Hemmings

Subjects

medicine.medical_specialty, internal cooling, Hot Temperature, cooling garment, lcsh:Medicine, Core temperature, ice slurry ingestion, Endurance training, Medicine, Humans, Pacing, Pre cooling, Time to exhaustion, Medicine(all), thermoregulation, Exercise Tolerance, Prolonged exercise, business.industry, lcsh:R, General Medicine, cold water immersion, Clinical Practice, Cold Temperature, Systematic review, Physical therapy, business, Research Article

Abstract

Background Endurance exercise capacity diminishes under hot environmental conditions. Time to exhaustion can be increased by lowering body temperature prior to exercise (pre-cooling). This systematic literature review synthesizes the current findings of the effects of pre-cooling on endurance exercise performance, providing guidance for clinical practice and further research. Methods The MEDLINE, EMBASE, CINAHL, Web of Science and SPORTDiscus databases were searched in May 2012 for studies evaluating the effectiveness of pre-cooling to enhance endurance exercise performance in hot environmental conditions (≥ 28°C). Studies involving participants with increased susceptibility to heat strain, cooling during or between bouts of exercise, and protocols where aerobic endurance was not the principle performance outcome were excluded. Potential publications were assessed by two independent reviewers for inclusion and quality. Means and standard deviations of exercise performance variables were extracted or sought from original authors to enable effect size calculations. Results In all, 13 studies were identified. The majority of studies contained low participant numbers and/or absence of sample size calculations. Six studies used cold water immersion, four crushed ice ingestion and three cooling garments. The remaining study utilized mixed methods. Large heterogeneity in methodological design and exercise protocols was identified. Effect size calculations indicated moderate evidence that cold water immersion effectively improved endurance performance, and limited evidence that ice slurry ingestion improved performance. Cooling garments were ineffective. Most studies failed to document or report adverse events. Low participant numbers in each study limited the statistical power of certain reported trends and lack of blinding could potentially have introduced either participant or researcher bias in some studies. Conclusions Current evidence indicates cold water immersion may be the most effective method of pre-cooling to improve endurance performance in hot conditions, although practicality must be considered. Ice slurry ingestion appears to be the most promising practical alternative. Interestingly, cooling garments appear of limited efficacy, despite their frequent use. Mechanisms behind effective pre-cooling remain uncertain, and optimal protocols have yet to be established. Future research should focus on standardizing exercise performance protocols, recruiting larger participant numbers to enable direct comparisons of effectiveness and practicality for each method, and ensuring potential adverse events are evaluated.

Published

2012

25. Testing and evaluation of three liquid cooling garments for use during spaceflight.

Author

Warpeha, Joseph M.

Subjects

Cooling garment, Core temperature, Exercise, Extravehicular activity, Spaceflight, Thermoregulation, Kinesiology

Abstract

Background: Extravehicular activity poses several dangers to astronauts. A major concern is the regulation of core temperature and thermal comfort in the context of an impermeable EMU microclimate and elevated energy expenditure rates for prolonged periods. Purpose: To identify the optimal features of each of three LCGs (MACS-Delphi, Russian Orlan, NASA LCVG) for maintaining core temperature and thermal comfort during exercise in mild (24 oC) and hot (35 oC) conditions. Methods: Four male and two female participants (aged 22-46 years) performed 10 trials (each with five 20-minute exercise stages and two rest stages) to account for all garment configurations (with/without hood) and temperature regimes. Metabolic (VO2, Ve, RER), temperature (core, skin), cardiovascular (HR, SBP, DBP, SaO2), local sweat rate, and skin wetness data were collected and analyzed during stages five (moderate exercise) and seven (rest). Whole body sweat rate and water flow parameters were collected pre- and post-trial. Results: Significant differences (p < or = 0.05) between garments were found for: skin temperature, HR, SBP, local and whole body sweat rate, and water flow rate. Discussion: There were several significant, yet few consistent, findings between the garments. Use of a cooling hood had no discernable effect. Amount of tubing coverage was related to whole body sweat rate while flow rate affected skin temperatures and local sweat rate. Conclusion: All three garments were similar in terms of regulating core temperature in a safe range (though not to the NASA standard of 37.2 oC) during physical exertion in moderate and hot environments. Future research is needed to identify the roles of adding a cooling hood and/or ventilation system to LCGs in addition to determining optimal water temperature, flow rate, tubing arrangement, and ergonomic design.

Published

2010

26. An Improved Thermoregulatory Model For Cooling Garment Applications With Transient Metabolic Rates

Author

Westin, Johan

Subjects

thermoregulation, mathematical model, computer simulation, cooling garment, cooling control, vasoconstriction, Engineering, Mechanical Engineering

Abstract

Current state-of-the-art thermoregulatory models do not predict body temperatures with the accuracies that are required for the development of automatic cooling control in liquid cooling garment (LCG) systems. Automatic cooling control would be beneficial in a variety of space, aviation, military, and industrial environments for optimizing cooling efficiency, for making LCGs as portable and practical as possible, for alleviating the individual from manual cooling control, and for improving thermal comfort and cognitive performance. In this study, we adopt the Fiala thermoregulatory model, which has previously demonstrated state-of-the-art predictive abilities in air environments, for use in LCG environments. We validate the numerical formulation with analytical solutions to the bioheat equation, and find our model to be accurate and stable with a variety of different grid configurations. We then compare the thermoregulatory model s tissue temperature predictions with experimental data where individuals, equipped with an LCG, exercise according to a 700 W rectangular type activity schedule. The root mean square (RMS) deviation between the model response and the mean experimental group response is 0.16°C for the rectal temperature and 0.70°C for the mean skin temperature, which is within state-of-the-art variations. However, with a mean absolute body heat storage error (e_BHS_mean) of 9.7 W·h, the model fails to satisfy the ±6.5 W·h accuracy that is required for the automatic LCG cooling control development. In order to improve model predictions, we modify the blood flow dynamics of the thermoregulatory model. Instead of using step responses to changing requirements, we introduce exponential responses to the muscle blood flow and the vasoconstriction command. We find that such modifications have an insignificant effect on temperature predictions. However, a new vasoconstriction dependency, i.e. the rate of change of hypothalamus temperature weighted by the hypothalamus error signal (DThy·dThy/dt), proves to be an important signal that governs the thermoregulatory response during conditions of simultaneously increasing core and decreasing skin temperatures, which is a common scenario in LCG environments. With the new DThy·dThy/dt dependency in the vasoconstriction command, the e_BHS_mean for the exercise period is reduced by 59% (from 12.9 W·h to 5.2 W·h). Even though the new e_BHS_mean of 5.8 W·h for the total activity schedule is within the target accuracy of ±6.5 W·h, e_BHS fails to stay within the target accuracy during the entire activity schedule. With additional improvements to the central blood pool formulation, the LCG boundary condition, and the agreement between model set-points and actual experimental initial conditions, it seems possible to achieve the strict accuracy that is needed for automatic cooling control development.

Published

2008

27. Keeping Cool on the Job

Subjects

NUCLEAR power plants

Published

1982