Showing total 113 results

1. Subglacial cetaceans and other mathematical mysteries: a Commentary on “A quantitative test of the thermogenesis hypothesis of cetacean brain evolution, using phylogenetic comparative methods” by C. Maximino.

Author

Manger, Paul R.

Subjects

CETACEA, BODY temperature regulation, BRAIN evolution, PHYLOGENY, MATHEMATICAL analysis

Abstract

A recent paper published in this Journal purported to provide a quantitative test of the thermogenetic hypothesis of cetacean brain evolution. While using appropriate statistical analyses that account for phylogenetic inertia, errors in the raw data and in interpretation of the thermogenetic hypothesis raise concerns about the validity of the statistical results and the conclusions of the paper. In this commentary the errors in raw data, mathematical approaches, the lack of inclusion of certain data points and misinterpretation of the thermogenetic hypothesis are detailed. The conclusion being that the thermogenetic hypothesis has not been correctly tested by the study. [ABSTRACT FROM AUTHOR]

Published

2009

2. The triple function of the capsaicin-sensitive sensory neurons: In memoriam János Szolcsányi.

Author

Pintér, Erika, Helyes, Zsuzsanna, Szőke, Éva, Bölcskei, Kata, Kecskés, Angéla, and Pethő, Gábor

Subjects

SENSORY neurons, NOCICEPTORS, LIPID rafts, CALORIMETRY, DETECTION limit, SOMATOSTATIN receptors, BODY temperature regulation

Abstract

This paper is dedicated to the memory of János Szolcsányi (1938–2018), an outstanding Hungarian scientist. Among analgesics that act on pain receptors, he identified capsaicin as a selective lead molecule. He studied the application of capsaicin and revealed several physiological (pain, thermoregulation) and pathophysiological (inflammation, gastric ulcer) mechanisms. He discovered a new neuroregulatory system without sensory efferent reflex and investigated its pharmacology. The authors of this review are his former Ph.D. students who carried out their doctoral work in Szolcsányi's laboratory between 1985 and 2010 and report on the scientific results obtained under his guidance. His research group provided evidence for the triple function of the peptidergic capsaicin-sensitive sensory neurons including classical afferent function, local efferent responses, and remote, hormone-like anti-inflammatory, and antinociceptive actions. They also proposed somatostatin receptor type 4 as a promising drug target for the treatment of pain and inflammation. They revealed that neonatal capsaicin treatment caused no acute neuronal death but instead long-lasting selective ultrastructural and functional changes in B-type sensory neurons, similar to adult treatment. They described that lipid raft disruption diminished the agonist-induced channel opening of the TRPV1, TRPA1, and TRPM8 receptors in native sensory neurons. Szolcsányi's group has developed new devices for noxious heat threshold measurement: an increasing temperature hot plate and water bath. This novel approach proved suitable for assessing the thermal antinociceptive effects of analgesics as well as for analyzing peripheral mechanisms of thermonociception. [ABSTRACT FROM AUTHOR]

Published

2023

3. Modelling the thermal microenvironment of footwear subjected to forced ventilation.

Author

Miao, Te and Li, Yuguo

Subjects

PILOT projects, EXPERIMENTAL design, SHOES, SKIN temperature, CRONBACH'S alpha, MEDICAL equipment design, BODY temperature regulation, STATISTICAL models, DATA analysis software, PREDICTION models, ORTHOPEDIC apparatus, VENTILATION

Abstract

In this paper, we develop a mathematical model of the thermal microenvironment in footwear that considers forced ventilation of the footwear cavity. The developed model was validated using a newly developed thermal foot-manikin system and the results show that the model effectively predicts the total dry thermal insulation of footwear under various dynamic conditions. The footwear cavity model is then integrated with a thermoregulation model, and the integrated model effectively predicts changes in foot skin temperature resulting from forced ventilation (0–90 L/min). At an air temperature of 26.4 °C and a foot thermal comfort temperature of 32.2 °C, the required minimum ventilation rate was found to be 5.4–24.6 L/min, which corresponds to a total static thermal insulation of footwear of 0.10–0.20 m 2 · K · W − 1. This indicates that ventilation can adequately control the thermal microenvironment of the footwear cavity, thereby maintaining foot thermal comfort. Practitioner summary: An adverse footwear thermal microenvironment results in foot thermal discomfort and foot hygiene problems. We hypothesise that forced ventilation may enable thermal control of footwear microenvironments. A mathematical model was developed which can determine the forced ventilation rate required in a given type of footwear to create foot thermal comfort. [ABSTRACT FROM AUTHOR]

Published

2022

4. Human thermal perception and time of day: A review.

Author

Vellei, Marika, Chinazzo, Giorgia, Zitting, Kirsi-Marja, and Hubbard, Jeffrey

Subjects

BODY temperature regulation, CIRCADIAN rhythms, ENERGY consumption, ATMOSPHERIC temperature, HUMIDITY

Abstract

The circadian clock regulates diurnal variations in autonomic thermoregulatory processes such as core body temperature in humans. Thus, we might expect that similar daily fluctuations also characterize human thermal perception, the ultimate role of which is to drive thermoregulatory behaviors. In this paper, we explore this question by reviewing experimental and observational thermal comfort investigations which include the "time of day" variable. We found only 21 studies considering this factor, and not always as their primary analysis. Due to the paucity of studies and the lack of a specific focus on time-of-day effects, the results are difficult to compare and appear on the whole contradictory. However, we observe a tendency for individuals to prefer higher ambient temperatures in the early evening as compared to the rest of the day, a result in line with the physiological decrease of the core body temperature over the evening. By drawing from literature on the physiology of thermoregulation and circadian rhythms, we outline some potential explanations for the inconsistencies observed in the findings, including a potential major bias due to the intensity and spectrum of the selected light conditions, and provide recommendations for conducting future target studies in highly-controlled laboratory conditions. Such studies are strongly encouraged as confirmed variations of human thermal perceptions over the day would have enormous impact on building operations, thus on energy consumption and occupant comfort. List of abbreviations: TSV: Thermal Sensation Vote; TCV: Thermal Comfort Vote; Tpref: Preferred Temperature; TA: Indoor Air Temperature; RH: Indoor Relative Humidity; Tskin: Skin Temperature; Tty: Tympanic Temperature; Tre: Rectal Temperature; Toral: Oral Temperature [ABSTRACT FROM AUTHOR]

Published

2021

5. Proposed framework for forecasting heat-effects on motor-cognitive performance in the Summer Olympics.

Author

Piil, Jacob Feder, Kingma, Boris, Morris, Nathan B., Christiansen, Lasse, Ioannou, Leonidas G., Flouris, Andreas D., and Nybo, Lars

Subjects

OLYMPIC athletes, EXERCISE, HEALTH behavior, BODY temperature, BODY temperature regulation

Abstract

Heat strain impairs performance across a broad spectrum of sport disciplines. The impeding effects of hyperthermia and dehydration are often ascribed to compromised cardiovascular and muscular functioning, but expert performance also depends on appropriately tuned sensory, motor and cognitive processes. Considering that hyperthermia has implications for central nervous system (CNS) function and fatigue, it is highly relevant to analyze how heat stress forecasted for the upcoming Olympics may influence athletes. This paper proposes and demonstrates the use of a framework combining expected weather conditions with a heat strain and motor-cognitive model to analyze the impact of heat and associated factors on discipline- and scenario-specific performances during the Tokyo 2021 games. We pinpoint that hyperthermia-induced central fatigue may affect prolonged performances and analyze how hyperthermia may impair complex motor-cognitive performance, especially when accompanied by either moderate dehydration or exposure to severe solar radiation. Interestingly, several short explosive performances may benefit from faster cross-bridge contraction velocities at higher muscle temperatures in sport disciplines with little or no negative heat-effect on CNS fatigue or motor-cognitive performance. In the analyses of scenarios and Olympic sport disciplines, we consider thermal impacts on "motor-cognitive factors" such as decision-making, maximal and fine motor-activation as well as the influence on central fatigue and pacing. From this platform, we also provide perspectives on how athletes and coaches can identify risks for their event and potentially mitigate negative motor-cognitive effects for and optimize performance in the environmental settings projected. [ABSTRACT FROM AUTHOR]

Published

2021

6. Reply to Manger's Commentary on “A quantitative test of the thermogenesis hypothesis of cetacean brain evolution, using phylogenetic comparative methods”.

Author

Maximino, Caio

Subjects

WHALES, BRAIN evolution, CETACEA, BODY temperature regulation, PHYLOGENY

Abstract

In his Commentary (Manger PR. 2009. Subglacial cetaceans and other mathematical mysteries: a Commentary on “A quantitative test of the thermogenesis hypothesis of cetacean brain evolution, using phylogenetic comparative methods” by C. Maximino. Mar Fresh Behav Physiol. 42: 359-362) on my paper (Maximino C. 2009. A quantitative test of the thermogenesis hypothesis of cetacean brain evolution, using phylogenetic comparative methods. Mar Freshwater Behav Physiol. 42:1-17), Dr Paul Manger noted four errors in the quantitative analysis of the relationship between cetacean encephalization quotients (EQs) and water temperatures, which I suggested was a test of his thermogenesis hypothesis (Manger PR. 2006. An examination of cetacean brain structure with a novel hypothesis correlating thermogenesis to the evolution of a big brain. Biol Rev Camb Philos Soc. 81:293-338). These referred to incorrect raw data on water temperatures for two species, odd use of midpoint temperatures as independent variable, lack of inclusion of data on Mysticeti and the use of a differently derived EQ and midpoints instead of the EQs proposed by Manger and temperature ranges; Dr Manger proposed that these errors invalidate the analysis, with special emphasis in an observation that, since my paper did not address the relationship between EQs and temperature range, it did not actually test the thermogenesis hypothesis. In this Reply, I apologize for the mistakes which were made, and show that re-analysis using all the proposed alterations do not qualitatively or quantitatively alter the final result. I also argue that the relationship between phylogenetically correct EQs and midpoint temperatures is a better test of the thermogenesis hypothesis than the relationship between non-phylogenetic EQs and temperature ranges. [ABSTRACT FROM AUTHOR]

Published

2009

7. Gene fusion and functional diversification of P450 genes facilitate thermophilic fungal adaptation to temperature change.

Author

Li, Shuhong, He, Jiangbo, Wu, Qunfu, Gou, Jianghui, Wang, Donglou, and Niu, Xuemei

Subjects

IRON chelates, INDOLE alkaloids, GENE fusion, FUNGAL colonies, BODY temperature regulation

Abstract

Thermomyces dupontii harbors two P450 paralogs (P450S and P450L) in the gene cluster for the biosynthesis of prenylated indole alkaloids (PIAs) and correponding iron chelators with P450L assigned as one protein containing a CYP like domain fused with a FAD-binding domain-containing oxidoreductase. Genetic manipulation and metabolic profile analysis indicated both P450S and P450L were involved in transforming simple PIAs to their corresponding iron chelators. Moreover, P450S is responsible for bolstering simple PIAs to complex PIAs, and P450L for reinforcing conjugating unsaturated systems in complex PIAs. Chemical investigation led to isolation and characterization of novel complex PIA metabolites with more oxidations. P450L also contributed to forming the third iron-chelating core in iron chelators. A series of iron bioassays and infrastructure analysis revealed that lack of these P450 genes caused strongly elevated Fe3+ levels but attenuated Fe2+ levels, together with abnormal mitochondria in mycelia and lipid droplets and vacuoles in conidia. Phenotype analysis revealed that P450S and P450L facilitated fungal colony pigments, conidial formation and germination via bolstering conidiophores and cell walls in response to temperature reduction. [ABSTRACT FROM AUTHOR]

Published

2024

8. Do zebra stripes influence thermoregulation?

Author

Cobb, Alison and Cobb, Stephen

Subjects

ZEBRAS, BODY temperature regulation, STRIPES, EVAPORATIVE cooling, SURFACE tension

Abstract

The temperatures of black and white stripes on two zebras and a zebra hide were measured, throughout separate sunny days in Kenya. There is a 12–15oC difference between living zebras' stripe temperatures throughout the middle seven daytime hours. The hide temperatures reach 16oC higher than the living zebras. Like all equids, zebras sweat to keep cool. Movement of sweat away from the skin is accelerated by the recently discovered surfactant equid protein latherin, a vital component of cooling in racehorses. Latherin decreases the surface tension of the sweat, facilitating evaporative cooling at the hair tips. We suggest that the abrupt temperature difference between the stripes causes chaotic air movement above the hair surface, thus enhancing evaporative heat dissipation. This cooling mechanism explains the lower temperatures of living zebra stripes than those of the inanimate hide. We observed that the black stripes can be separately erected, while the white remain flat. This may further refine the mechanism. There is an ongoing debate about the function of zebra stripes, recently focussed on the fact that stripes deter biting flies. The data and observations in this paper suggest that the primary function of the stripes may be thermoregulation and a secondary benefit, fly-deterrence. [ABSTRACT FROM AUTHOR]

Published

2019

9. Hypothalamic control of torpor and hibernation.

Author

Yamaguchi, Hiroshi

Subjects

PREOPTIC area, NEURAL circuitry, CENTRAL nervous system, GABAERGIC neurons, LEPTIN receptors, BODY temperature regulation, SUPRACHIASMATIC nucleus, GHRELIN receptors, HYPOTHALAMUS

Abstract

The article discusses the physiological process of torpor and hibernation in endothermic animals, including mice. Torpor is a hypoactive metabolic state that animals enter during periods of low temperatures and food scarcity to conserve energy. The central nervous system, particularly the hypothalamus, plays a crucial role in regulating torpor. The article presents recent findings on the neural circuits involved in torpor regulation, specifically focusing on the antero-preoptic area, medial preoptic area, and dorsomedial hypothalamus. The article also highlights the need for further research to understand the mechanisms underlying torpor and hibernation in different animal species, including humans. [Extracted from the article]

Published

2024

10. Axillary hyperhidrosis: a focused review.

Author

Sammons, Jason E. and Khachemoune, Amor

Subjects

HYPERHIDROSIS treatment, SWEAT gland diseases, SKIN disease treatment, SKIN diseases, PUBLIC health, BODY temperature regulation, PATIENTS

Abstract

Axillary hyperhidrosis is characterized by an increased amount of sweat production, localized to the armpits, to compensate for environmental conditions and to control thermoregulation. It affects about 3.12% of the US population. It has a significant effect on one's psychological and physical health, as well as one’s occupational life. The objective of this paper is to review the epidemiology, clinical presentation, pathophysiology, histology, genetics, and management and treatment of axillary hyperhidrosis. [ABSTRACT FROM AUTHOR]

Published

2017

11. The effect of warmth acclimation on behaviour, thermophysiology and perception.

Author

Pallubinsky, Hannah, Kingma, Boris R. M., Schellen, Lisje, Dautzenberg, Bas, van Baak, Marleen A., and van Marken Lichtenbelt, Wouter D.

Subjects

ACCLIMATIZATION, AIR conditioning control, VENTILATION, BODY temperature regulation, ENERGY consumption

Abstract

Public and commercial buildings tend to overheat and considerable energy is consumed by air-conditioning and ventilation. However, many occupants remain unsatisfied and consequently exhibit thermoregulatory behaviour (TRB),e.g.opening windows or controlling the air-conditioning. This, in turn, might negatively influence the building energy use. This paper hypothesizes that warmth acclimation influences thermophysiology, perception and TRB in a warm environment. Therefore, the effect of warmth acclimation on TRB, physiology and perception is investigated. Twelve participants underwent a so-called SWITCH protocol before and after warmth acclimation (7 days, 6 h/day, about 33°C, about 22% RH). During SWITCH, the participants chose between a warm (37°C) and a cold (17°C) condition. TRB was determined by the number of switches and the time spent in a specific condition. Mean skin temperature was recorded to assess behavioural thresholds. Thermal comfort and sensation were indicated on visual analogue scales (VAS). After acclimation, the upper critical behavioural threshold significantly increased from 35.2 ± 0.6 to 35.5 ± 0.5°C (p ≤ 0.05) and the range of mean skin temperatures at which no behaviour occurred significantly widened (3.6 ± 0.7 to 4.2 ± 0.6;p < 0.05). The total number of switches tended to decrease (p = 0.075). The present study is the first to show that prolonged passive exposure to warmth extends TRB thresholds. [ABSTRACT FROM PUBLISHER]

Published

2017

12. The Dynamics of Moisture Transportation Part I: The Effect of 'Wicking' on the Thermal Resistance of Single and Multi-layer Fabric Systems.

Author

Brownless, N. J., Anand, S. C., Holmes, D. A., and Rowe, T.

Subjects

MOISTURE, PHYSIOLOGICAL aspects of clothing & dress, THERMAL comfort, DISCRETE ordinates method in transport theory, BODY temperature regulation, THERMAL insulation, THERMISTORS, TEXTILES, TEXTILE fibers

Abstract

The provision of thermophysiological comfort using fabrics has interested technologists for many years. With two main challenges in mind, moisture management and thermoregulation, all previous developments have concentrated on the production of high wicking and high thermally insulating fabrics. The aim of this research is to evaluate the dynamics of the thermophysiological effects with particular emphasis upon the effect of wicking on the thermal resistance of selected fabrics. The fabrics discussed in this paper are development fabrics with an expected end-use for sports and activewear. Hence, when in use, the fabric systems are expected to he in direct contact with the skin surface, and it is the evaluation of the aforementioned ‘relationship’ that is of interest. [ABSTRACT FROM AUTHOR]

Published

1996

13. A Commentary by Paul R. Manger on: “A quantitative test of the thermogenesis hypothesis of cetacean brain evolution, using phylogenetic comparative methods” by C. Maximino and a Response by C. Maximino.

Author

Macmillan, David L.

Subjects

BODY temperature regulation, CETACEA, BRAIN evolution, PHYLOGENY

Abstract

The article reports that Paul R. Manger, author of the article "The thermogenesis hypothesis of cetacean brain evolution," has expressed dissatisfaction over being misquoted in the article "A quantitative test of the thermogenesis hypothesis of cetacean brain evolution, using phylogenetic comparative methods," by C. Maximino. It informs that both papers will be studied by three referees and a new paper with correct information will be published.

Published

2009

14. Brown adipocyte and browning thermogenesis: metabolic crosstalk beyond mitochondrial limits and physiological impacts.

Author

Van Thi-Tuong Nguyen, Van Vu, Vuong, and Van Pham, Phuc

Subjects

BODY temperature regulation, BROWN adipose tissue, FAT cells, MITOCHONDRIA, METABOLIC disorders

Abstract

Brown adipocytes were proposed to reverse metabolic conditions such as obesity and diabetes, which make them potential for therapeutic applications. Brown adipocytes and browning process are capable of thermogenesis, the uncoupling metabolism which allows them to promote balanced energy expenditure, a fundamental mechanism for improving metabolic disorders. Thermogenesis process is not only performed by the thermogenin UCPs within the mitochondria, but instead, is globally regulated within brown and browning adipose tissues, which induces signalling molecules that can be sent to nearby and distant tissues to generate systemic effects on metabolism. This review highlights thermogenesis and describes the crosstalk between different organelles within browning and brown adipocytes, as well as their interorgan axes to regulate whole body metabolism. Finally, browning and thermogenesis activation will also be discussed in terms of physiological conditions, in which, we propose that thermogenesis and functional activities of brown adipocytes should be considered individually in future clinical application. [ABSTRACT FROM AUTHOR]

Published

2023

15. Nutrient timing revisited: is there a post-exercise anabolic window?

Author

Aragon, Alan Albert and Schoenfeld, Brad Jon

Subjects

COOLDOWN, EXERCISE, BODY temperature regulation, HUMAN body composition, BODY weight, BODY mass index

Abstract

Nutrient timing is a popular nutritional strategy that involves the consumption of combinations of nutrients-primarily protein and carbohydrate-in and around an exercise session. Some have claimed that this approach can produce dramatic improvements in body composition. It has even been postulated that the timing of nutritional consumption may be more important than the absolute daily intake of nutrients. The post-exercise period is widely considered the most critical part of nutrient timing. Theoretically, consuming the proper ratio of nutrients during this time not only initiates the rebuilding of damaged muscle tissue and restoration of energy reserves, but it does so in a supercompensated fashion that enhances both body composition and exercise performance. Several researchers have made reference to an anabolic "window of opportunity" whereby a limited time exists after training to optimize training-related muscular adaptations. However, the importance - and even the existence - of a post-exercise 'window' can vary according to a number of factors. Not only is nutrient timing research open to question in terms of applicability, but recent evidence has directly challenged the classical view of the relevance of post-exercise nutritional intake with respect to anabolism. Therefore, the purpose of this paper will be twofold: 1) to review the existing literature on the effects of nutrient timing with respect to post-exercise muscular adaptations, and; 2) to draw relevant conclusions that allow practical, evidence-based nutritional recommendations to be made for maximizing the anabolic response to exercise. [ABSTRACT FROM AUTHOR]

Published

2013

16. Effect of posture positions on the evaporative resistance and thermal insulation of clothing.

Author

Yu, W., Wu, Y.S., and Fan, J.T.

Subjects

CLOTHING & dress, PHYSICS -- Methodology, POSTURE, BODY temperature regulation, REGRESSION analysis, RESEARCH funding, STANDING position, SUPINE position, TEMPERATURE, WATER-electrolyte balance (Physiology), SYMPTOMS, SEDENTARY lifestyles

Abstract

Evaporative resistance and thermal insulation of clothing are important parameters in the design and engineering of thermal environments and functional clothing. Past work on the measurement of evaporative resistance of clothing was, however, limited to the standing posture with or without body motion. Information on the evaporative resistance of clothing when the wearer is in a sedentary or supine posture and how it is related to that when the wearer is in a standing posture is lacking. This paper presents original data on the effect of postures on the evaporative resistance of clothing, thermal insulation and permeability index, based on the measurements under three postures, viz. standing, sedentary and supine, using the sweating fabric manikin-Walter. Regression models are also established to relate the evaporative resistance and thermal insulation of clothing under sedentary and supine postures to those under the standing posture. The study further shows that the apparent evaporated resistances of standing and sedentary postures measured in the non-isothermal condition are much lower than those in the isothermal condition. The apparent evaporative resistances measured using the mass loss method are generally lower than those measured using the heat loss method due to moisture absorption or condensation within clothing. Statement of Relevance: The thermal insulation and evaporative resistance values of clothing ensembles under different postures are essential data for the ergonomics design of thermal environments (e.g. indoors or a vehicle's interior environment) and functional clothing. They are also necessary for the prediction of thermal comfort or duration of exposure in different environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2011

17. Controlling Thermo-Reversibility of Gelatin Gels through a Peroxidase-Catalyzed Reaction under Mild Conditions for Mammalian Cells.

Author

Sakai, Shinji, Moriyama, Kousuke, and Kawakami, Koei

Subjects

GELATIN, PEROXIDASE, CATALYSIS, CROSSLINKING (Polymerization), TYROSINE in the body, BODY temperature regulation, COOLING, FIBROBLASTS

Abstract

A variety of cross-linking methods is used for obtaining gelatin gels having a tolerance to thermo-reversible gel-sol transition at physiological temperature. In this paper, we investigated the applicability of horseradish peroxidase-catalyzed cross-linking of tyrosine residues originally contained in native gelatin molecules for preparing such gelatin gels. The gelatin gels obtained through exposure to the enzymatic reaction showed a higher resistance to thermo-reversibility at 37°C than gels obtained through a thermally-induced gelation alone. In addition, the resistance property to thermo-reversible gel-sol transition was tunable by controlling enzymatic reaction conditions: higher peroxidase concentration and thermally-induced pre-gelation accomplished by cooling the gelatin solution prior to the enzymatic reaction produced gels with higher resistance to thermo-reversibility. Fibroblast cells enclosed in the gelatin gels obtained through the enzymatic reaction with thermally-induced pre-gelation showed 93% viability. These results demonstrate the feasibility of peroxidase-catalyzed reaction for obtaining gelatin gels having a tolerance to thermo-reversible gel-to-sol transition at physiological temperature toward applications in biomedical and biopharmaceutical fields. [ABSTRACT FROM AUTHOR]

Published

2011

18. Coupling CFD and Human Body Thermoregulation Model for the Assessment of Personalized Ventilation.

Author

Naiping Gao, Jianlei Niu, and Hui Zhang

Subjects

VENTILATION, AIR conditioning, BODY temperature regulation, PHYSIOLOGICAL control systems, FLUID dynamics

Abstract

Personalized ventilation has great potential to improve inhaled air quality and to accommodate individual thermal preferences. In order to quantify these perceived benefits, a numerical method has been developed. In this method, a numerical thermal manikin (NTM), with the real geometry of a human body, is obtained by employing a laser scanning technique. When placed in a virtual environment, the thermal interactions with the environment are calculated using computational fluid dynamics (CFD). By iteration, the calculated air velocity near the body surface is fed into a sophisticated thermoregulation model developed at the University of California, Berkeley, so that the local thermal comfort in a non-uniform environment created by personalized air (PA) is rigorously investigated. In this paper, the performances of three different PV systems are investigated, namely, the desk-edge-based PV, PV using a movable panel (MP), and chair-based PV. The results exhibit reasonable agreement with the experimental measurements. The three types of PV are all able to lower human exposure to ambient room pollutants and bring a "cool head" thermal condition favorable for thermal comfort. The present work illustrates that in the development of localized personal environmental control systems, an NTM coupled with a human-body thermal regulation model is a useful tool for visualizing thermal comfort and ventilation effectiveness. [ABSTRACT FROM AUTHOR]

Published

2006

19. Thermoregulatory effects of melatonin in relation to sleepiness.

Author

Kräuchi, Kurt, Cajochen, Christian, Pache, Mona, Flammer, Josef, and Wirz‐Justice, Anna

Subjects

MELATONIN, DROWSINESS, BODY temperature regulation, SLEEP-wake cycle, HORMONES, PINEAL gland secretions, PHYSIOLOGICAL control systems, CLINICAL chronobiology, CHRONOBIOLOGY

Abstract

Thermoregulatory processes have long been implicated in the initiation of human sleep. In this paper, we review our own studies conducted over the last decade showing a crucial role for melatonin as a mediator between the thermoregulatory and arousal system in humans. Distal heat loss, via increased skin temperature, seems to be intimately coupled with increased sleepiness and sleep induction. Exogenous melatonin administration during the day when melatonin is essentially absent mimics the endogenous thermophysiological processes occurring in the evening and induces sleepiness. Using a cold thermic challenge test, it was shown that melatonin‐induced sleepiness occurs in parallel with reduction in the thermoregulatory set‐point (threshold); thus, melatonin may act as a circadian modulator of the thermoregulatory set‐point. In addition, an orthostatic challenge can partially block the melatonin‐induced effects, suggesting an important role of the sympathetic nervous system as a link between the thermoregulatory and arousal systems. A topographical analysis of finger skin temperature with infrared thermometry revealed that the most distal parts of the fingers, i.e. , fingertips, represent the important skin regions for heat loss regulation, most probably via opening the arteriovenous anastomoses, and this is clearly potentiated by melatonin. Taken together, melatonin is involved in the fine‐tuning of vascular tone in selective vascular beds, as circulating melatonin levels rise and fall throughout the night. Besides the role of melatonin as “nature's soporific”, it can also serve as nature's nocturnal vascular modulator. [ABSTRACT FROM AUTHOR]

Published

2006

20. Cardiovascular responses to heat stress and their adverse consequences in healthy and vulnerable human populations.

Author

Donaldson, G. C., Keatinge, W. R., and Saunders, R. D.

Subjects

BODY temperature regulation, PHYSIOLOGICAL effects of heat

Abstract

This paper reviews the basic thermoregulatory physiology of healthy people in relation to hazards from external heat stress and internal heat loads generated by physical exercise or radiofrequency (RF) radiation. In addition, members of the population are identified who may be particularly vulnerable to the effects of heat stress. These data are examined in relation to current international guidance on occupational and public exposure to RF radiation. When body temperature rises, heat balance of the body is normally restored by increased blood flow to the skin and by sweating. These responses increase the work of the heart and cause loss of salt and water from the body. They impair working efficiency and can overload the heart and cause haemoconcentration, which can lead to coronary and cerebral thrombosis, particularly in elderly people with atheromatous arteries. These adverse effects of thermoregulatory adjustments occur with even mild heat loads and account for the great majority of heat-related illness and death. They are, therefore, particularly relevant to determination of safe population exposures to additional sources of heat stress. It is concluded that exposure to RF levels currently recommended as safe for the general population, equivalent to heat loads of about one tenth basal metabolic rate, could continue to be regarded as trivial in this context, but that prolonged exposures of the general population to RF levels higher than that could not be regarded as safe in all circumstances. [ABSTRACT FROM AUTHOR]

Published

2003

21. Global bioheat model for quick evaluation of the human physiological thermal profiles under differing conditions.

Author

Chiok, Y. H., Ng, E. Y.-K., and Kulish, V. V.

Subjects

BODY temperature regulation, PHYSIOLOGICAL control systems

Abstract

The paper presents a physical and mathematical model of the thermoregulatory system of the human body. The model takes into account tissue physiology, structure and general physiological parameters such as blood flow. The global response of the body to underlying physiological variations as well as to any change in ambient conditions can be simulated. The analysis is based on a one-dimensional tissue layer and a two-node core and shell array of the entire body. Application of the model indicates that the body is particularly sensitive to ambient changes in the cold, where a slight drop in gain produces an adverse change in the temperature profile of the physiological system. The gain, G, of the feedback system also suggests that it is an essential parameter in determining the range of the negative feedback as well as the sensitivity of the unacclimizated body to its surroundings. It is also the critical parameter to determine how hard the feedback system works to maintain a homeostatic state. At temperature extremes, G either will cause the system to attain beyond the critical temperatures needed for survival or it will cease to cause the system to respond further to any more changes in the external environment. [ABSTRACT FROM AUTHOR]

Published

2002

22. Exploring internal body heat balance to understand thermal sensation.

Author

Kingma, B.R.M., Schweiker, M., Wagner, A., and van Marken Lichtenbelt, W. D.

Subjects

BODY temperature regulation, THERMAL comfort, TISSUES, THERMAL insulation, SKIN temperature

Abstract

A biological perspective is used to understand thermal sensation. The main premise is that thermal sensation serves an organism for the regulation of body temperature. A biological concept related to this premise is the physiological thermoneutral zone (TNZ). Within the TNZ the body can adjust body tissue insulation to maintain thermal balance and a stable core temperature. The approach presented here is based on the assumption that humans express neutral thermal sensation near the centre of their TNZ. To test this hypothesis, dTNZopis defined as the distance between measured operative temperature and the centre of the TNZ, and dTNZskas the distance between measured mean skin temperature and the centre of the TNZ. The TNZ centre is calculated with a biophysical model using measured data from a climate chamber study with 16 female subjects. Regression between observed thermal sensation votes (TSV) and dTNZxrevealed that the intercept corresponds with a slightly higher-than-neutral TSV and a strong linear relationship between TSV and dTNZopand dTNZsk. This approach shows great potential to improve the understanding of human thermal sensation in the context of physiology. [ABSTRACT FROM PUBLISHER]

Published

2017

23. Influences of ovarian hormones on physiological responses to cold in women.

Author

Greenfield, Andrew M., Charkoudian, Nisha, and Alba, Billie K.

Subjects

BODY temperature, PHYSIOLOGICAL effects of cold temperatures, BODY temperature regulation, HYPOTHERMIA, PHYSIOLOGY of women, SEX hormones, HORMONES, HEAT losses

Abstract

While it is clear that the ovarian hormones estradiol and progesterone have important influences on physiological thermoregulation in women, the influences of these hormones on responses to cold exposure are not well understood. Both heat conservation and heat production must increase to offset heat losses that decrease body temperature in cold ambient conditions. Cutaneous vasoconstriction conserves heat, whereas shivering and non-shivering thermogenesis produce heat – all as part of reflex physiological responses to cold exposure. Our goal in this brief review is to highlight existing knowledge and recent advances pertaining to sex and sex hormone influences on thermoeffector responses to cold stress. Estrogens have multiple influences that contribute to heat dissipation and a lower body temperature, while the influence of progesterone appears to primarily increase body temperature. Fluctuations in estrogen and progesterone across the menstrual cycle can alter the level at which body temperature is regulated. Recent evidence suggests that female reproductive hormones can modulate the cutaneous vasoconstrictor response, and may influence metabolic mechanisms such as substrate utilization during shivering and non-shivering thermogenesis. Overall, it appears that quantitative differences in cold thermoregulation between sexes are minimal when anthropometric measures are minimized, such that women do not have a strong "advantage" or "disadvantage" in terms of overall ability to tolerate cold. Thermoregulatory physiology in women during cold exposure remains relatively understudied and many mechanisms require further elucidation. [ABSTRACT FROM AUTHOR]

Published

2022

24. Performance and thermoregulation of Dutch Olympic and Paralympic athletes exercising in the heat: Rationale and design of the Thermo Tokyo study: The journal Temperature toolbox.

Author

de Korte, Johannus Q., Bongers, Coen C.W.G., Hopman, Maria T.E., Teunissen, Lennart P.J., Jansen, Kaspar M.B., Kingma, Boris R.M., Ballak, Sam B., Maase, Kamiel, Moen, Maarten H., van Dijk, Jan-Willem, Daanen, Hein A. M., and Eijsvogels, Thijs M.H.

Subjects

OLYMPIC athletes, EXERCISE, HEALTH behavior, BODY temperature, BODY temperature regulation

Abstract

The environmental conditions during the Tokyo Olympic and Paralympic Games are expected to be challenging, which increases the risk for participating athletes to develop heat-related illnesses and experience performance loss. To allow safe and optimal exercise performance of Dutch elite athletes, the Thermo Tokyo study aimed to determine thermoregulatory responses and performance loss among elite athletes during exercise in the heat, and to identify personal, sports-related, and environmental factors that contribute to the magnitude of these outcomes. For this purpose, Dutch Olympic and Paralympic athletes performed two personalized incremental exercise tests in simulated control (15°C, relative humidity (RH) 50%) and Tokyo (32°C, RH 75%) conditions, during which exercise performance and (thermo)physiological parameters were obtained. Thereafter, athletes were invited for an additional visit to conduct anthropometric, dual-energy X-ray absorptiometry (DXA), and 3D scan measurements. Collected data also served as input for a thermophysiological computer simulation model to estimate the impact of a wider range of environmental conditions on thermoregulatory responses. Findings of this study can be used to inform elite athletes and their coaches on how heat impacts their individual (thermo)physiological responses and, based on these data, advise which personalized countermeasures (i.e. heat acclimation, cooling interventions, rehydration plan) can be taken to allow safe and maximal performance in the challenging environmental conditions of the Tokyo 2020 Olympic and Paralympic Games. [ABSTRACT FROM AUTHOR]

Published

2021

25. A comparison of models for predicting human response to hot and cold environments.

Author

HASLAM, R. A. and PARSONS, K. C.

Abstract

Four influential models which make predictions of human response to hot or cold environments have been described and their predictions compared. The models considered were the Givoni and Goldman prediction equations. ISO/DIS 7933, the J. B. Pierce Lab. 2-node and the Stolwijk and Hardy 25-node models of human thermoregulation. The models integrate the important environmental variables, (air temperature, mean radiant temperature, air speed and relative humidity) with subject variables (insulation of clothing worn and metabolic heal production), in order to make predictions such as core and skin temperature response and allowable exposure times. The models' predictions have been compared for a range of hot and cold environments. This comparison has shown that while for some environments the models' predictions are similar, for other environments they are very different. These differences would result in different practical decisions being made. The models should be used with caution until further evaluation for. a wide range of subjects and environmental conditions has determined the accuracy of the models and for which environments they are most appropriate. [ABSTRACT FROM PUBLISHER]

Published

1987

26. COVID-19 and thermoregulation-related problems: Practical recommendations.

Author

Daanen, Hein, Bose-O'Reilly, Stephan, Brearley, Matt, Flouris, D. Andreas, Gerrett, Nicola M., Huynen, Maud, Jones, Hunter M., Lee, Jason Kai Wei, Morris, Nathan, Norton, Ian, Nybo, Lars, Oppermann, Elspeth, Shumake-Guillemot, Joy, and Van den Hazel, Peter

Subjects

COVID-19 pandemic, BODY temperature regulation, PHYSIOLOGICAL effects of heat, PERSONAL protective equipment, SAFETY appliances

Abstract

The COVID-19 pandemic started in the cold months of the year 2020 in the Northern hemisphere. Concerns were raised that the hot season may lead to additional problems as some typical interventions to prevent heat-related illness could potentially conflict with precautions to reduce coronavirus transmission. Therefore, an international research team organized by the Global Health Heat Information Network generated an inventory of the specific concerns about this nexus and began to address the issues. Three key thermal and covid-19 related topics were highlighted: 1) For the general public, going to public cool areas in the hot season interferes with the recommendation to stay at home to reduce the spread of the virus. Conflicting advice makes it necessary to revise national heat plans and alert policymakers of this forecasted issue. 2) For medical personnel working in hot conditions, heat strain is exacerbated due to a reduction in heat loss from wearing personal protective equipment to prevent contamination. To avoid heat-related injuries, medical personnel are recommended to precool and to minimize the increase in body core temperature using adopted work/rest schedules, specific clothing systems, and by drinking cold fluids. 3) Fever, one of the main symptoms of COVID-19, may be difficult to distinguish from heat-induced hyperthermia and a resting period may be necessary prior to measurement to avoid misinterpretation. In summary, heat in combination with the COVID-19 pandemic leads to additional problems; the impact of which can be reduced by revising heat plans and implementing special measures attentive to these compound risks. [ABSTRACT FROM AUTHOR]

Published

2021

27. Time perception and timed decision task performance during passive heat stress.

Author

Kingma, Boris R.M., Roijendijk, Linsey M.M., Van Maanen, Leendert, Van Rijn, Hedderik, and Van Beurden, Maurice H.P.H.

Subjects

PHYSIOLOGICAL effects of heat, THERMOPHYSICAL properties, GASTROINTESTINAL agents, HEART beat, BODY temperature regulation

Abstract

This study investigates the hypotheses that during passive heat stress, the change in perception of time and change in accuracy of a timed decision task relate to changes in thermophysiological variables gastrointestinal temperature and heart rate (HR), as well as subjective measures of cognitive load and thermal perception. Young adult males (N = 29) participated in two 60-min head-out water immersion conditions (36.5°C-neutral and 38.0°C-warm). Cognitive task measurements included accuracy (judgment task), response time (judgment ask), and time estimation (interval timing task). Physiological measurements included gastrointestinal temperature and heart rate. Subjective measurements included cognitive task load (NASA-TLX), rate of perceived exertion, thermal sensation, and thermal comfort. Gastrointestinal temperature and HR were significantly higher in warm versus neutral condition (gastrointestinal temperature: 38.4 ± 0.2°C vs. 37.2 ± 0.2°C, p < 0.01; HR: 105 ± 8 BPM vs. 83 ± 9 BPM, p < 0.01). The change in accuracy was significantly associated with the change in gastrointestinal temperature, and attenuated by change in thermal sensation and change in HR (r2=0.40, p< 0.01). Change in response time was significantly associated with the change in gastrointestinal temperature (r2=0.26, p< 0.002), and change in time estimation was best explained by a change in thermal discomfort (r2=0.18, p< 0.01). Changes in cognitive performance during passive thermal stress are significantly associated with changes in thermophysiological variables and thermal perception. Although explained variance is low (<50%), decreased accuracy is attributed to increased gastrointestinal temperature, yet is attenuated by increased arousal (expressed as increased HR and warmth thermal sensation). [ABSTRACT FROM AUTHOR]

Published

2021

28. Is current body temperature measurement practice fit-for-purpose?

Author

Machin, Graham, Brettle, David, Fleming, Susannah, Nutbrown, Rebecca, Simpson, Rob, Stevens, Richard, and Tooley, Mark

Subjects

BODY temperature regulation, MEDICAL thermometers, COVID-19 pandemic, DRUG resistance in bacteria, INFRARED imaging

Abstract

There has been a marked rise in the number of avoidable deaths in health services around the world. At the same time there has been a growing increase in antibiotic resistant so-called "superbugs." We examine here the potential role of body temperature measurement in these adverse trends. Electronic based thermometers have replaced traditional mercury (and other liquid-in-glass type) thermometers for reasons of safety rather than superiority. Electronic thermometers are in general less robust from a measurement perspective than their predecessors. We illustrate the implications of unreliable temperature measurement on the diagnosis and management of disease, including COVID-19, through statistical calculations. Since a return to mercury thermometers is both undesirable and impractical, we call for better governance in the current practice of clinical thermometry to ensure the traceability and long-term accuracy of electronic thermometers and discuss how this could be achieved. [ABSTRACT FROM AUTHOR]

Published

2021

29. Regulatory systems that mediate the effects of temperature on the lifespan of Caenorhabditis elegans.

Author

Kim, Byounghun, Lee, Jongsun, Kim, Younghun, and Lee, Seung-Jae V.

Subjects

CAENORHABDITIS elegans, TEMPERATURE effect, CAENORHABDITIS, PHYSIOLOGY, BIOLOGICAL systems, AGING, LOW temperatures, BODY temperature regulation

Abstract

Temperature affects animal physiology, including aging and lifespan. How temperature and biological systems interact to influence aging and lifespan has been investigated using model organisms, including the nematode Caenorhabditis elegans. In this review, we discuss mechanisms by which diverse cellular factors modulate the effects of ambient temperatures on aging and lifespan in C. elegans. C. elegans thermosensory neurons alleviate lifespan-shortening effects of high temperatures via sterol endocrine signaling and probably through systemic regulation of cytosolic proteostasis. At low temperatures, C. elegans displays a long lifespan by upregulating the cold-sensing TRPA channel, lipid homeostasis, germline-mediated prostaglandin signaling, and autophagy. In addition, co-chaperone p23 amplifies lifespan changes affected by high and low temperatures. Our review summarizes how external temperatures modulate C. elegans lifespan and provides information regarding responses of biological processes to temperature changes, which may affect health and aging at an organism level. [ABSTRACT FROM AUTHOR]

Published

2020

30. Exploring Vietnamese cereal smallholders' perceptions and adaptations to temperature and precipitation variability: implications for adaptation strategies.

Author

Hoang, Hung Gia

Subjects

PRECIPITATION variability, FARM size, BODY temperature regulation, DROUGHT-tolerant plants, SENSORY perception, ATTITUDE (Psychology), CHEMICAL detectors

Abstract

In order to foster the adoption of temperature and precipitation variability (TPV) adapting practices by smallholders, it is essential to comprehend their views of TPV. However, few empirical studies have investigated how smallholders perceive TPV in Vietnam. This study investigates smallholders' attitudes towards TPV and their adapting practices in South Central Vietnam. A random sampling strategy was used to select 250 cereal smallholders for interviews and a structured questionnaire was developed to collect data. Descriptive and bivariate analyses were used. The study results show that smallholders had experienced TPV. They perceived that TPV have increased farming losses, labour costs in cereal fields, the costs of pest/weed control, the costs of water management, and the application rate of chemical inputs. The smallholders were adopting traditional adapting methods to reduce unexpected impacts of TPV on their cereal-based farming systems. Key adapting methods identified include: (1) dredging and restoration of irrigation canals; (2) planting of drought resistant cereal varieties; (3) usage of wells and water pumps for irrigation; and (4) early planting. A statistically significant relationship, existing between the cereal smallholders' perceptions of TPV and their education level (Pearson = 0.152, p = 0.016), income (Pearson = 0.108, p = 0.088), farm size (Pearson = 0.196; p = 0.002), gender (Eta = 0.184, p = 0.004), agricultural practices (Eta = 0.246, p = 0.000), information and communication technology own (Eta = 0.151, p = 0.017), training participation (Eta = 0.235, p = 0.000), and community-based organisation participation (Eta = 0.147, p = 0.020). [ABSTRACT FROM AUTHOR]

Published

2020

31. Alteration of dietary cysteine affects activities of genes of the transsulfuration and glutathione pathways, and development of skin tissues and feather follicles in chickens.

Author

Vilar da Silva, José Humberto, González-Cerón, Fernando, Howerth, Elizabeth W., Rekaya, Romdhane, and Aggrey, Samuel E.

Subjects

ESSENTIAL amino acids, CYSTEINE, BODY temperature regulation, FEATHERS, COLOR of birds, NUTRITIONAL requirements, REDUCING diets

Abstract

The dietary requirement for cysteine is not determined in poultry since it is not an essential amino acid. The cysteine need is expected to be met through the transsulfuration pathway where homocysteine, a precursor of methionine, is converted to cysteine. Cysteine is a major component of plumage, and the degree to which cysteine is involved in plumage and other keratized proteins are unknown. We randomly assigned chicks to control and treatment (deficient in cysteine) diets for 49 d. The thickness of the skin layers, feather follicle length, and thickness were measured at days 10, 24, 34, and 49. We also measured the hepatic mRNA expressions of cystathionine beta synthase (CBS), cystathionine γ-lyase (CTL), cysteine dioxygenase (CDO), and glutathione synthetase (GSS). Chickens fed the treatment diet had reduced epidermis thickness and shorter feather follicles compared with the controls. The chicken fed the treatment diet also had increased mRNA expression of CBS and CTL indicating a disruption of the transsulfuration pathway. The treatment chickens also had a decreased hepatic CDO and increased GSS mRNA expressions which are in concordance with the homeostatic regulation of cysteine. Compromised cysteine metabolism could affect thermoregulation and subsequently affect feed efficiency and welfare of the birds. [ABSTRACT FROM AUTHOR]

Published

2020

32. HuR expression in adipose tissue mediates energy expenditure and acute thermogenesis independent of UCP1 expression.

Author

Anthony, Sarah R., Guarnieri, Adrienne, Lanzillotta, Lindsey, Gozdiff, Anamarie, Green, Lisa C., O'Grady, Katherine, Helsley, Robert N., Owens Iii, A. Phillip, and Tranter, Michael

Subjects

ADIPOSE tissues, BROWN adipose tissue, RNA-binding proteins, BODY temperature regulation, UNCOUPLING proteins

Abstract

The goal of this study was to define the functional role of adipocyte-specific expression of the RNA binding protein Human antigen R (HuR). Mice with an adipocyte-specific deletion of HuR (Adipo- HuR-/-) were generated by crossing HuR floxed (HuRfl/fl) mice with mice expressing adiponectin-driven cre-recombinase (Adipoq-cre). Our results show that Adipo-HuR-/- mice display a lean phenotype compared to wild-type littermate controls. HuR deletion results in a diet-independent reduction in percent body fat composition along with an increase in energy expenditure. Functionally, Adipo- HuR-/- mice show a significant impairment in acute adaptive thermogenesis (six hours at 4°C), but uncoupling protein 1 (UCP1) protein expression in brown adipose tissue (BAT) is unchanged compared to control. Pharmacological inhibition of HuR also results in a marked decline in core body temperature following acute cold challenge independent of UCP1 protein expression. Among the 588 HuR-dependent genes in BAT identified by RNA-seq analysis, gene ontology analysis shows a significant enrichment in mediators of calcium transport and signalling, almost all of which are decreased in Adipo-HuR-/- mice compared to control. In conclusion, adipocyte expression of HuR plays a central role in metabolic homoeostasis and mediates UCP1-independent thermogenesis in BAT, potentially through post-transcriptional control of intracellular calcium transport. Abbreviations: Adipo-HuR-/-: Adipocyte-specific HuR deletion mice; BAT: Brown adipose tissue; HuR: Human antigen R; UCP1: Uncoupling protein 1 [ABSTRACT FROM AUTHOR]

Published

2020

33. Physiology of sweat gland function: The roles of sweating and sweat composition in human health.

Author

Baker, Lindsay B.

Subjects

SWEAT glands, PERSPIRATION, HUMAN physiology, BODY temperature regulation, GASTROINTESTINAL system, VASOPRESSIN

Abstract

The purpose of this comprehensive review is to: 1) review the physiology of sweat gland function and mechanisms determining the amount and composition of sweat excreted onto the skin surface; 2) provide an overview of the well-established thermoregulatory functions and adaptive responses of the sweat gland; and 3) discuss the state of evidence for potential non-thermoregulatory roles of sweat in the maintenance and/or perturbation of human health. The role of sweating to eliminate waste products and toxicants seems to be minor compared with other avenues of excretion via the kidneys and gastrointestinal tract; as eccrine glands do not adapt to increase excretion rates either via concentrating sweat or increasing overall sweating rate. Studies suggesting a larger role of sweat glands in clearing waste products or toxicants from the body may be an artifact of methodological issues rather than evidence for selective transport. Furthermore, unlike the renal system, it seems that sweat glands do not conserve water loss or concentrate sweat fluid through vasopressin-mediated water reabsorption. Individuals with high NaCl concentrations in sweat (e.g. cystic fibrosis) have an increased risk of NaCl imbalances during prolonged periods of heavy sweating; however, sweat-induced deficiencies appear to be of minimal risk for trace minerals and vitamins. Additional research is needed to elucidate the potential role of eccrine sweating in skin hydration and microbial defense. Finally, the utility of sweat composition as a biomarker for human physiology is currently limited; as more research is needed to determine potential relations between sweat and blood solute concentrations. [ABSTRACT FROM AUTHOR]

Published

2019

34. The environmental temperature of the residential care home: Role in thermal comfort and mental health?

Author

Cleary, Michelle, West, Sancia, Raeburn, Toby, and Childs, Charmaine

Subjects

NURSING psychology, ADAPTABILITY (Personality), PHYSIOLOGICAL adaptation, ELDER care, BODY temperature, BODY temperature regulation, EXPERIENCE, INTERVIEWING, RESEARCH methodology, MENTAL health, NURSING home residents, NURSING care facilities, QUALITY of life, RESEARCH funding, SELF-management (Psychology), QUALITATIVE research, PSYCHOSOCIAL factors, WELL-being, THEMATIC analysis, DESCRIPTIVE statistics, PATIENT autonomy, OLD age

Abstract

Background: In the midst of changing environmental conditions and increasing populations aged over 65 years, how best to provide nursing care that promotes mental health and wellbeing within residential aged care facilities is an important concern. Aim/Objective: To explore the perceptions of temperature control, thermal comfort and nursing care in a small group of older Australians. Design: Descriptive, qualitative study using thematic analysis. Methods: Individual semi-structured interviews were conducted with a group of older Australians living within an aged care facility. Interviews were taped, transcribed and then analysed using thematic analysis. Results: Five adults participated. Themes emerging included: (1) balancing nursing care and resident autonomy; (2) the importance of mobility to cope with temperature; and (3) r⁠eliance on habitual behaviour to cope with temperature. The importance of experiencing a sense of choice and ability to self-regulate personal environment arose as a substantial concern. Conclusions: The attention of older residents to personal issues related to thermal comfort linked to physical and mental health emphasise the importance of concerns regarding mobility, nursing care and autonomy. For older age residents the interplay between thermal comfort and behaviour adaptation is influenced by nurses and their control of the residential environment. [ABSTRACT FROM AUTHOR]

Published

2019

35. Cross-sectional area of the murine aorta linearly increases with increasing core body temperature.

Author

Crouch, A. Colleen, Manders, Adam B., Cao, Amos A., Scheven, Ulrich M., and Greve, Joan M.

Subjects

BODY temperature regulation, AORTA physiology, CARDIOVASCULAR system physiology, ARTERIES, TORSO physiology, MAGNETIC resonance imaging

Abstract

Purpose: The cardiovascular (CV) system plays a vital role in thermoregulation. To date, the response of core vasculature to increasing core temperature has not been adequately studied in vivo. Our objective was to non-invasively quantify the arterial response in murine models due to increases in body temperature, with a focus on core vessels of the torso and investigate whether responses were dependent on sex or age. Methods: Male and female, adult and aged mice were anaesthetised and underwent magnetic resonance imaging (MRI). Data were acquired from the circle of Willis (CoW), heart, infrarenal aorta and peripheral arteries at core temperatures of 35, 36, 37 and 38 °C (±0.2 °C). Results: Vessels in the CoW did not change. Ejection fraction decreased and cardiac output (CO) increased with increasing temperature in adult female mice. Cross-sectional area of the aorta increased significantly and linearly with temperature for all groups, but at a diminished rate for aged animals (p < 0.01; male and female: adult, 0.019 and 0.024 mm2/°C; aged, 0.017 and 0.011 mm2/°C). Aged male mice had a diminished response in the periphery (% increase in femoral artery area from 35 to 38 °C, male and female: adult, 67 and 65%; aged, 0.1 and 57%). Conclusion: Previously unidentified increases in aortic area due to increasing core temperature are biologically important because they may affect conductive and convective heat transfer. Leveraging non-invasive methodology to quantify sex and age dependent vascular responses due to increasing core temperature could be combined with bioheat modelling in order to improve understanding of thermoregulation. [ABSTRACT FROM AUTHOR]

Published

2018

36. Occupational cooling practices of emergency first responders in the United States: A survey.

Author

Bach, Aaron J. E., Maley, Matthew J., Minett, Geoffrey M., and Stewart, Ian B.

Subjects

BODY temperature regulation, FIRST responders, COOLDOWN, PHYSIOLOGICAL effects of heat, EXPLOSIVE ordnance disposal

Abstract

Despite extensive documentation directed specifically toward mitigating thermal strain of first responders, we wished to ascertain the degree to which first responders applied cooling strategies, and what opinions are held by the various agencies/departments within the United States. An internet-based survey of first responders was distributed to the International Association of Fire Chiefs, International Association of Fire Firefighters, National Bomb Squad Advisory Board and the USA Interagency Board and their subsequent departments and branches. Individual first responder departments were questioned regarding the use of pre-, concurrent, post-cooling, types of methods employed, and/or reasons why they had not incorporated various methods in first responder deployment. Completed surveys were collected from 119 unique de-identified departments, including those working in law enforcement (29%), as firefighters (29%), EOD (28%) and HAZMAT technicians (15%). One-hundred and eighteen departments (99%) reported heat strain/illness to be a risk to employee safety during occupational duties. The percentage of departments with at least one case of heat illness in the previous year were as follows: fire (39%) HAZMAT (23%), EOD (20%) and law enforcement (18%). Post-cooling was the scheduled cooling method implemented the most (63%). Fire departments were significantly more likely to use post-cooling, as well as combine two types of scheduled cooling compared to other departments. Importantly, 25% of all departments surveyed provided no cooling whatsoever. The greatest barriers to personnel cooling were as follows - availability, cost, logistics, and knowledge. Our findings could aid in a better understanding of current practices and perceptions of heat illness and injury prevention in United States first responders. Abbreviations: EOD: explosive ordnance disposal; HAZMAT: hazardous materials [ABSTRACT FROM AUTHOR]

Published

2018

37. Effects of black cohosh and estrogen on core body and tail-skin temperatures in ovariectomized rats by telemetric monitoring with dual thermistor probes.

Author

Sun, Y., Qin, L. H., Chen, X., Yan, X., Mao, L., Bai, W., and Kang, J.

Subjects

BUGBANE, ESTROGEN, BODY temperature, OVARIECTOMY, ESTRADIOL, ANIMALS, BIOTELEMETRY, BODY temperature regulation, RATS, PLANT extracts, SKIN temperature

Abstract

Objectives: To investigate the effects of black cohosh and estrogen on the temperature in ovariectomized rats, the core body temperature (CBT) and tail-skin temperature (TST) were simultaneously monitored and the relationship between these two temperatures was explored.Methods: Twenty-four female Sprague-Dawley rats aged 8 weeks were randomly divided into four groups: sham-operated (SHAM), ovariectomized (OVX), OVX treated with estradiol valerate (OVX + E), and OVX treated with isopropanolic black cohosh extract (OVX + ICR). Rats were sham-operated or ovariectomized and were implanted with telemetry transmitters with dual thermistor probes. Two weeks after surgery, the animals were treated with drugs for 4 weeks. During the last week of the treatments, the dynamic temperature profiles of the CBT and TST were collected.Results: The average CBT and TST, TST fluctuation frequency, and the average amplitude fluctuation were significantly higher in OVX than in SHAM rats. In addition, dramatic fluctuations of TST in OVX rats occurred at the time points of the day when the CBTs were lower in OVX rats than in SHAM rats. Treatment of OVX rats with estradiol valerate or isopropanolic black cohosh extract markedly decreased the average CBT and TST, TST fluctuation frequency, and the average amplitude fluctuation. Moreover, CBT was found to be significantly higher, while TST was lower in OVX + E than in OVX + ICR rats.Conclusions: Both black cohosh and estradiol treatments ameliorated the abnormal thermoregulation in OVX rats. In particular, black cohosh reduced CBT better than estradiol and estradiol reduced TST better than black cohosh. [ABSTRACT FROM AUTHOR]

Published

2018

38. Comparisons between Shikoro-type helmet with no hood and typical fire protective helmets with hood in a hot and humid environment.

Author

Baek, Yoon Jeong, Jung, Dahee, Son, Su-Young, and Lee, Joo-Young

Subjects

SAFETY hats, BODY temperature regulation, COMPARATIVE studies, FIRE fighters, HEAT, HUMAN comfort, HUMIDITY, PHYSIOLOGICAL stress, WEATHER, PRODUCT design, DESCRIPTIVE statistics

Abstract

The purpose of this study was to evaluate physiological and subjective responses while wearing the Shikoro-type helmet for firefighters when compared to typical helmets. Eight firefighters conducted a 30-min exercise at a 5 km h−1in three helmet conditions at an air temperature of 32 °C with 70%RH. The results showed that no significant differences in rectal, mean skin temperature and physiological strain index among the three conditions were found during exercise and recovery. Skin temperatures on the cheek, ear and neck during exercise were significantly lower for the Shikoro-type condition (p < 0.05), but forehead temperature was greater for the Shikoro-type helmet when compared to the other conditions (p < 0.05). Statistical differences in thermal sensation and thermal comfort for overall and local body regions were not found among the three conditions. These results imply that the Shikoro-type helmet had local advantages in reducing skin temperatures on the face and neck. Practitioner Summary:Firefighters wear their helmet with its hood to protect the head and neck but a Shikoro type helmet has no fire protective hood. This study aimed to evaluate the comfort function of Shikoro helmet along with typical helmets. The results demonstrated thermal benefits of the Shikoro helmet on the head. [ABSTRACT FROM PUBLISHER]

Published

2018

39. Comparing the effectiveness of sponge cooling and ice packs methods on controlling the patients’ fever in intensive care units: A randomized clinical trial.

Author

Hekmatpou, Davood, Karimi Kia, Mansoreh, and Rahzani, Kobra

Subjects

TREATMENT of fever, BODY temperature regulation, COLD therapy, CRITICAL care medicine, LENGTH of stay in hospitals, INTENSIVE care units, STATISTICAL sampling, RANDOMIZED controlled trials, TREATMENT effectiveness

Abstract

IntroductionFever is a common problem in intensive care unit. Therefore, this study aimed to compare the effectiveness of two methods of sponge cooling with ice packs on controlling of patients’ fever in intensive care units. MethodThis is a randomized clinical trial, which conducted on 60 patients hospitalized in intensive care units in Valie-Asr hospital in 2017. Patients randomly allocated into two groups of sponge cooling and ice packs based on blocking method. The patients were under intervention up to 3 hours. Changes in body temperature every 15 minutes in both groups were recorded. ResultsThe average of age in the group of sponge cooling was 41.87 ± 13.92 and in the group ice packs was 41.7 ± 14.48. Two groups have no significant differences on age, sex, and length of stay in hospital before intervention. After 3 hours of intervention, the mean body temperature in the group of sponge cooling was 37.71 ± 0.44°C and in the group of ice pack was 37.80 ± 0.48°C. This means that reducing the body temperature is the same in both groups and they had no significant difference. The consecutive measurements of body temperatures in both groups significantly have declined (P = 0.0001). ConclusionBoth methods of sponge cooling and ice packs were effective on fever of the patients. As chills and inconvenience were less in sponge cooling group, this method recommended for reducing fever in ICU. [ABSTRACT FROM PUBLISHER]

Published

2018

40. Tissue oxidative metabolism can increase the difference between local temperature and arterial blood temperature by up to 1.3oC: Implications for brain, brown adipose tissue, and muscle physiology.

Author

Zaretsky, Dmitry V., Romanovsky, Andrej A., Zaretskaia, Maria V., and Molkov, Yaroslav I.

Subjects

BODY temperature regulation, METABOLISM, BLOOD flow, ADIPOSE tissues, GENE expression

Abstract

Tissue temperature increases, when oxidative metabolism is boosted. The source of nutrients and oxygen for this metabolism is the blood. The blood also cools down the tissue, and this is the only cooling mechanism, when direct dissipation of heat from the tissue to the environment is insignificant, e.g., in the brain. While this concept is relatively simple, it has not been described quantitatively. The purpose of the present work was to answer two questions: 1) to what extent can oxidative metabolism make the organ tissue warmer than the body core, and, 2) how quickly are changes in the local metabolism reflected in the temperature of the tissue? Our theoretical analysis demonstrates that, at equilibrium, given that heat exchange with the organ is provided by the blood, the temperature difference between the organ tissue and the arterial blood is proportional to the arteriovenous difference in oxygen content, does not depend on the blood flow, and cannot exceed 1.3oC. Unlike the equilibrium temperature difference, the rate of change of the local temperature, with respect to time, does depend on the blood flow. In organs with high perfusion rates, such as the brain and muscles, temperature changes occur on a time scale of a few minutes. In organs with low perfusion rates, such changes may have characteristic time constants of tens or hundreds of minutes. Our analysis explains, why arterial blood temperature is the main determinant of the temperature of tissues with limited heat exchange, such as the brain. [ABSTRACT FROM AUTHOR]

Published

2018

41. Effects of body-mapping-designed clothing on heat stress and running performance in a hot environment.

Author

Jiao, Jiao, Li, Yi, Yao, Lei, Chen, Yajun, Guo, Yueping, Wong, Stephen H. S., Ng, Frency S. F., and Hu, Junyan

Subjects

ATHLETIC ability, BODY temperature, BODY temperature regulation, HEAT, PHYSIOLOGICAL effects of heat, RUNNING, SPORTSWEAR, SKIN temperature, DESCRIPTIVE statistics

Abstract

To investigate clothing-induced differences in human thermal response and running performance, eight male athletes participated in a repeated-measure study by wearing three sets of clothing (CloA, CloB, and CloC). CloA and CloB were body-mapping-designed with 11% and 7% increased capacity of heat dissipation respectively than CloC, the commonly used running clothing. The experiments were conducted by using steady-state running followed by an all-out performance running in a controlled hot environment. Participants’ thermal responses such as core temperature (Tc), mean skin temperature (), heat storage (S), and the performance running time were measured. CloA resulted in shorter performance time than CloC (323.1 ± 10.4 s vs. 353.6 ± 13.2 s,p = 0.01), and induced the lowest, smallest ΔTc, and smallestSin the resting and running phases. This study indicated that clothing made with different heat dissipation capacities affects athlete thermal responses and running performance in a hot environment. Practitioner Summary:A protocol that simulated the real situation in running competitions was used to investigate the effects of body-mapping-designed clothing on athletes’ thermal responses and running performance. The findings confirmed the effects of optimised clothing with body-mapping design and advanced fabrics, and ensured the practical advantage of developed clothing on exercise performance. [ABSTRACT FROM AUTHOR]

Published

2017

42. Top 10 Research Questions Related to Preventing Sudden Death in Sport and Physical Activity.

Author

Katch, Rachel K., Scarneo, Samantha E., Adams, William M., Armstrong, Lawrence E., Belval, Luke N., Stamm, Julie M., and Casa, Douglas J.

Subjects

SUDDEN death prevention, PHYSICAL activity, THANATOLOGY, SPORTS physiology, SPORTS participation, CARDIAC research, DISEASE risk factors, MORTALITY, PHYSIOLOGY, ARRHYTHMIA treatment, HEAT stroke, SPORTS injury prevention, BODY temperature regulation, EMERGENCY medical services, EXERCISE, FOOTBALL, IMPLANTABLE cardioverter-defibrillators, HYPONATREMIA, MEDICAL screening, PHYSICAL education, SPORTS, DISEASE complications, SICKLE cell trait, PREVENTION, THERAPEUTICS

Abstract

Participation in organized sport and recreational activities presents an innate risk for serious morbidity and mortality. Although death during sport or physical activity has many causes, advancements in sports medicine and evidence-based standards of care have allowed clinicians to prevent, recognize, and treat potentially fatal injuries more effectively. With the continual progress of research and technology, current standards of care are evolving to enhance patient outcomes. In this article, we provided 10 key questions related to the leading causes and treatment of sudden death in sport and physical activity, where future research will support safer participation for athletes and recreational enthusiasts. The current evidence indicates that most deaths can be avoided when proper strategies are in place to prevent occurrence or provide optimal care. [ABSTRACT FROM AUTHOR]

Published

2017

43. Shivering thermogenesis in humans: Origin, contribution and metabolic requirement.

Author

Haman, François and Blondin, Denis P.

Subjects

SHIVERING, BODY temperature regulation, WARM-blooded animals, ENERGY metabolism, ELECTROMYOGRAPHY

Abstract

As endotherms, humans exposed to a compensable cold environment rely on an increase in thermogenic rate to counteract heat lost to the environment, thereby maintaining a stable core temperature. This review focuses primarily on the most important contributor of heat production in cold-exposed adult humans, shivering skeletal muscles. Specifically, it presents current understanding on (1) the origins of shivering, (2) the contribution of shivering to total heat production and (3) the metabolic requirements of shivering. Although shivering had commonly been measured as a metabolic outcome measure, considerable research is still needed to clearly identify the neuroanatomical structures and circuits that initiate and modulate shivering and drives the shivering patterns (continuous and burst shivering). One thing is clear, the thermogenic rate in humans can be maintained despite significant inter-individual differences in the thermogenic contribution of shivering, the muscles recruited in shivering, the burst shivering rate and the metabolic substrates used to support shivering. It has also become evident that the variability in burst shivering rate between individuals, despite not influencing heat production, does play a key role in orchestrating metabolic fuel selection in the cold. In addition, advances in our understanding of the thermogenic role of brown adipose tissue have been able to explain, at least in part, the large inter-individual differences in the contribution of shivering to total heat production. Whether these differences in the thermogenic role of shivering have any bearing on cold endurance and survival remains to be established. Despite the available research describing the relative thermogenic importance of shivering skeletal muscles in humans, the advancement in our understanding of how shivering is initiated and modulated is needed. Such research is critical to consider strategies to either reduce its role to improve occupational performance or exploit its metabolic potential for clinical purposes. [ABSTRACT FROM AUTHOR]

Published

2017

44. The role of leptin in health and disease.

Author

Ramos-Lobo, Angela M. and Donato, Jose

Subjects

PHYSIOLOGICAL effects of leptin, BIOENERGETICS, OBESITY, HOMEOSTASIS, BODY temperature regulation

Abstract

Leptin is a master regulator of energy balance and body adiposity. Additionally, leptin exerts important control on glucose homeostasis, thermogenesis, autonomic nervous system and neuroendocrine axes. In metabolic diseases, such as obesity and diabetes mellitus, leptin signaling may be compromised, indicating the important role of this hormone in the etiology and pathophysiological manifestations of these conditions. In the present manuscript, we reviewed important concepts of leptin signaling, as well as about the effects of leptin on several biologic functions. We also discussed the possible therapeutic use of leptin administration and how our current obesogenic environment contributes to the development of leptin resistance. Our objective was to provide a comprehensive and state-of-the-art review about the importance of leptin to maintain the homeostasis and during pathological conditions. [ABSTRACT FROM AUTHOR]

Published

2017

45. Radiation from wireless technology elevates blood glucose and body temperature in 40-year-old type 1 diabetic male.

Author

Kleiber, Catherine E.

Subjects

GLUCOSE metabolism, INSULIN resistance, BLOOD sugar, BODY temperature regulation, TYPE 1 diabetes, RADIATION doses, PATIENTS

Abstract

A type 1 diabetic male reports multiple instances when his blood glucose was dramatically elevated by the presence of microwave radiation from wireless technology and plummeted when the radiation exposure ended. In one instance, his body temperature elevated in addition to his blood glucose. Both remained elevated for nearly 48 h after exposure with the effect gradually decreasing. Possible mechanisms for microwave radiation elevating blood glucose include effects on glucose transport proteins and ion channels, insulin conformational changes and oxidative stress. Temperature elevation may be caused by microwave radiation-triggered Ca2+efflux, a mechanism similar to malignant hyperthermia. The potential for radiation from wireless technology to cause serious biological effects has important implications and necessitates a reevaluation of its near-ubiquitous presence, especially in hospitals and medical facilities. [ABSTRACT FROM PUBLISHER]

Published

2017

46. Brazil: What country is this?

Author

Coimbra, Cândido Celso, Wanner, Samuel Penna, and Machado-Moreira, Christiano Antônio

Subjects

BODY temperature regulation, HEAT adaptation

Abstract

An introduction is provided which discusses the articles within the issue on the theme of Brazilian research on thermoregulation with topics, including brown adipose tissue thermogenesis. heat acclimation and excise thermoregulation.

Published

2016

47. A personal recollection: 60 years in thermoregulation.

Author

Blatteis, Clark M.

Subjects

BODY temperature regulation, PHYSIOLOGISTS, PHYSIOLOGICAL research

Abstract

A personal narrative is provided in which the author explores his career experience of and leading up to being a thermophysiologist, including attending graduate school State University of Iowa, research on body temperature regulation and funding cuts to research.

Published

2016

48. Thyroid hormones in donkey blood and milk: correlations with milk yield and environmental temperatures.

Author

Todini, Luca, Salimei, Elisabetta, Malfatti, Alessandro, Brunetti, Valeria L., and Fantuz, Francesco

Subjects

THYROID hormones, MILK yield, BODY temperature regulation, LACTATION, TRIIODOTHYRONINE, MAMMALS

Abstract

Thyroid hormones (TH) are the primary endocrine stimulators of non-shivering thermogenesis and are known to stimulate lactation. Triiodothyronine (T3) is the bioactive form, mainly derived by deiodination of thyroxine (T4), and the free quote (unbound to plasma proteins) is immediately bioavailable. This study aimed to evaluate potential relationships among TH in the blood, triiodothyronine in the milk (T3M), milk yield and environmental temperature in March to July for 8 lactating donkeys. Milk yield and blood TH concentrations changed significantly over time, whereas T3M was rather stable among individuals and not affected by time of sampling. Free T3 was not correlated with free T4 or with total TH in the blood, but it was weakly correlated with T3M. No relationship was found between blood TH and milk yield, which was negatively correlated with T3M. Thus, the absolute quantity of bioactive hormone in milk secretion is maintained. Milk yield was positively correlated with the free/total T3 and free T3/free T4 ratios, thus in turn with the relative quote of the circulating bioactive hormone. Circulating T3/T4 ratios were negatively correlated with environmental temperature. It is concluded that environmental temperature, in the range of the present study (-2 to 35°C), does not significantly entrain thyroid gland activity, which is affected more by other factors, such as inter-individual variations and physiological status (i.e., stage of lactation). However, increases in environmental temperature most likely induce decreases in deiodinase activity at the peripheral tissue level, as indicated by the decrease in the T3/T4 ratios in the blood. [ABSTRACT FROM AUTHOR]

Published

2015

49. The Utility of the Swine Model to Assess Biological Rhythms and Their Characteristics during Different Stages of Residence in a Simulated Intensive Care Unit: A Pilot Study.

Author

Leyden, Katrina N., Hanneman, Sandra K., Padhye, Nikhil S., Smolensky, Michael H., Kang, Duck-Hee, and Chow, Diana Shu-Lian

Subjects

LABORATORY swine, CIRCADIAN rhythms, INTENSIVE care units, ARTIFICIAL respiration, BODY temperature regulation, PULMONARY gas exchange

Abstract

The purpose of this pilot study was to explore the utility of the mammalian swine model under simulated intensive care unit (sICU) conditions and mechanical ventilation (MV) for assessment of the trajectory of circadian rhythms of sedation requirement, core body temperature (CBT), pulmonary mechanics (PM) and gas exchange (GE). Data were collected prospectively with an observational time-series design to describe and compare circadian rhythms of selected study variables in four swine mechanically ventilated for up to seven consecutive days. We derived the circadian (total variance explained by rhythms ofτbetween 20 and 28 h)/ultradian (total variance explained by rhythms ofτbetween 1 and <20 h) bandpower ratio to assess the robustness of circadian rhythms, and compare findings between the early (first 3 days) and late (subsequent days) sICU stay. All pigs exhibited statistically significant circadian rhythms (τbetween 20 and 28 h) in CBT, respiratory rate and peripheral oxygen saturation, but circadian rhythms were detected less frequently for sedation requirement, spontaneous minute volume, arterial oxygen tension, arterial carbon dioxide tension and arterial pH. Sedation did not appear to mask the circadian rhythms of CBT, PM and GE. Individual subject observations were more informative than group data, and provided preliminary evidence that (a) circadian rhythms of multiple variables are lost or desynchronized in mechanically ventilated subjects, (b) robustness of circadian rhythm varies with subject morbidity and (c) healthier pigs develop more robust circadian rhythm profiles over time in the sICU. Comparison of biological rhythm profiles among sICU subjects with similar severity of illness is needed to determine if the results of this pilot study are reproducible. Identification of consistent patterns may provide insight into subject morbidity and timing of such therapeutic interventions as weaning from MV. [ABSTRACT FROM PUBLISHER]

Published

2015

50. Behavioural responses to cold thermal discomfort.

Author

Gauthier, Stephanie and Shipworth, David

Subjects

THERMAL comfort, PHYSIOLOGICAL effects of cold temperatures, ENVIRONMENTAL engineering of buildings, ENERGY consumption of buildings, PHYSIOLOGICAL adaptation, THERMAL insulation, BODY temperature regulation

Abstract

Heating energy demand in buildings depends in part on occupants' behavioural responses to thermal discomfort during the heating season. The understanding of this has become one of the priorities in the quest to reduce energy demand. Thermal comfort models have long been associated with occupants' behaviour by predicting their state of thermal comfort or rather discomfort. These assumed that occupants would act upon their level of discomfort through three types of response: mechanisms of thermoregulation, psychological adaptation and behavioural responses. Little research has focused on the behavioural aspect. One of the key challenges is to gather accurate measurements while using discreet, sensor-based, observation methods in order to have minimum impact on occupants' behaviour. To address these issues, a mixed-methods approach is introduced that enables the establishment of a three-part framework for mapping behaviour responses to cold sensations: (1) increasing clothing insulation level; (2) increasing operative temperature by turning the heating system on/up; and (3) increasing the frequency, duration and/or amplitude of localized behaviour responses such as warm drink intake or changing rooms. Drawing on this framework, an extended model of thermal discomfort response is introduced that incorporates a wider range of observed behaviours. [ABSTRACT FROM PUBLISHER]

Published

2015