Body Heat Storage, Sweating and Skin Blood Flow Responses Following Cold and Warm Water Ingestion during Exercise

Bain, Anthony R

January 2012

Ingestion of cold (<10°C) compared to warm (>37°C) fluid has been suggested to attenuate heat storage levels during exercise. However, modulations in sweat output may yield differences in evaporative heat loss that are greater than differences in heat transfer with the ingested fluid. The purpose of the thesis was to evaluate thermoregulatory control and human heat balance, and compare thermometrically derived values of heat storage with those derived from partitional calorimetry following water ingestion of varying temperature during exercise. We found that water ingestion of 50°C compared to 1.5°C decreases heat storage in thermoneutral environments, and further exacerbates the error of thermometric heat storage estimations. Differences in heat storage were attributed exclusively to disproportionate reductions in whole-body and local sweat output and thus evaporative heat loss potential. Ingested fluid temperature only minimally altered skin blood flow and did not influence dry heat exchange with the ambient environment.

Sweating

Drink temperature

Exercise

Heat storage

Thermoregulation

The Separate and Combined Contributions of Metabo- and Baroreceptors to Postexercise Heat Loss

Paull, Gabrielle

January 2015

Acute (~2 min) baroreceptor unloading was reported to modulate metaboreflex control of postexercise cutaneous blood flow, but not sweating. We examined whether sustained changes in baroreceptor loading status during prolonged postexercise recovery can alter the metaboreceptors’ influence on heat loss. Thirteen young males performed a 1-min isometric handgrip exercise (IHG) at 60% maximal voluntary contraction followed by 2-min of forearm ischemia (to activate metaboreceptors) before and 15, 30, 45 and 60-min after a 15-min intense treadmill running exercise (>90% maximal heart rate) in the heat (35°C). This procedure was repeated on three separate days with the application of lower-body positive (LBPP, +40 mmHg), negative (LBNP, -20 mmHg), or no pressure (Control) postexercise. Sweat rate (ventilated capsule; forearm, chest, upper back) and cutaneous vascular conductance (CVC; forearm, upper back) were measured. Relative to pre-IHG levels, sweating at all sites increased during IHG and remained elevated during ischemia at baseline and similarly at 30, 45, and 60-min postexercise (site average sweat rate increase during ischemia: Control, 0.13±0.02; LBPP, 0.12±0.02; LBNP, 0.15±0.02 mg·min-1·cm-2; all P<0.01), but not at 15-min (all P>0.10). LBPP and LBNP application did not modulate the pattern of sweating to IHG and ischemia (all P>0.05). At 15-min postexercise, forearm CVC was reduced from pre-IHG levels during both IHG and ischemia under LBNP only (ischemia: 3.9±0.8 %CVCmax; P<0.02). Therefore, we show metaboreceptors modulate postexercise sweating in the mid-to-late stages (30-60 min) of recovery, independent of baroreceptor loading status and similarly between skin sites. In contrast, metaboreflex modulation of forearm but not upper back CVC occurs only in the early stages of recovery (15 min) and depends upon baroreceptor unloading.

thermoregulation

heat loss responses

postexercise

baroreflex

metaboreflex

Hypoxia-induced Manipulations of Relative Exercise Intensity do not Alter Steady-state Thermoregulatory Responses or Maximal Heat Loss Capacity During Exercise

Coombs, Geoff

January 2016

This study sought to determine the independent influence of hypoxia on thermoregulatory responses to exercise in compensable and uncompensable hot conditions. Eight participants completed three experimental trials of cycling in either normoxia (21% O2) or hypoxia (13% O2) in order to manipulate relative exercise intensity (%VO2peak), since VO2peak was reduced by ~30% in hypoxia. When trials were matched for %VO2peak, changes in core temperature and local sweat rates (LSR) were significantly lower in the hypoxic trial as a result of a lower rate of metabolic heat production (Hprod) in order to maintain a similar %VO2peak compared to normoxia. However, when Hprod was fixed between normoxic and hypoxic trials the systematic differences in core temperature and LSR were eliminated. Conversely, at a fixed Hprod skin blood flow (SkBF) was greater in hypoxia compared to normoxia by ~40%. Despite improvements in SkBF, the potential for maximum heat loss was unaffected during an incremental humidity ramp protocol, resulting in no difference between normoxia and hypoxia in the critical ambient vapour pressures at which core temperature inflected upwards. These data further demonstrate, using a within-subjects design, that metabolic heat production, irrespective of large differences in %VO2peak, determines thermoregulatory responses during exercise. Furthermore, this study suggests that the influence of large differences in skin blood flow on heat dissipation may be lesser than previously thought.

hypoxia

skin blood flow

thermoregulation

sweating

THE EFFECTS OF COLD AND LOWER BODY NEGATVIE PRESSURE ON CARDIOVASCULAR AND THERMOREGULATORY HOMEOSTASIS

Kean, David Jeffrey

24 April 2012

No description available.

Health Sciences

environmental physiology

thermoregulation

cardiovascular

Associative Tolerance to Repeated Heat Stress

Buchholz, M. C. Annick

08 1900

<p> Learning processes have been demonstrated to play an integral role in drug tolerance. More recently, researchers have found that associative mechanisms also play an important role in the adaptation to cold exposure (Riccio, MacArdy & Kissinger, 1991). The present study investigated the effect of contextual stimuli on temperature response to repeated heat stress. Rats receiving repeated heat exposures (56°C, 10 min, 6 trials) demonstrated adaptation to the heat as measured by a decrease in hyperthermia. The tolerance to the heat stress was not disrupted by changing the contextual cues associated with the heat. These findings demonstrate tolerance to repeated heat stress but do not provide evidence of associative learning in this adaptation. Future experiments should assess the question of thermoregulation and associative processes using highly discriminant conditioning environments.</p> / Thesis / Master of Science (MSc)

The Behavioral and Physiological Effects of Long-Distance Translocation on Western Rattlesnakes (Crotalus oreganus)

Heiken, Kory Hayden

01 December 2013

Long-distance translocation (LDT), the relocation of an animal outside of its home range, is a popular strategy for mitigating conflict between humans and venomous snakes. While LDT has been demonstrated to prevent a snake’s return to the location of capture, it may result in increased mortality, magnitude and frequency of movements, and activity range sizes. Thus, it has generally been discouraged. However, the effects of LDT on stress physiology and thermoregulation have gone largely unstudied in reptiles. To elucidate these effects, we conducted an experimental LDT on Western Rattlesnakes (Crotalus oreganus) on Vandenberg Air Force base in California. Fourteen snakes were monitored, beginning in mid July 2012 and ending in early September. Each was implanted with a radio transmitter and iButton temperature data logger within the coelomic cavity. In late August, seven snakes were translocated to similar habitat, approximately 30 kilometers away, where they were monitored for 9-13 days. Prior to translocation, all snakes were tracked every other day, while after translocation all snakes were tracked every day. A ‘Before-After Control-Impact’ (BACI) experimental design was used, with a dedicated control group, but also with the translocated group serving as control prior to the act of translocation. We collected data on snake body temperatures (T­b) and temperatures (T­e) of physical operative temperature models (OTMs) that simulated non-thermoregulating snakes and allowed for a comparison of habitat thermal quality between our two study sites. Together, T­b and T­e allowed for a formal assessment of thermoregulatory effectiveness. Additionally, blood concentrations of corticosterone (CORT), the primary stress hormone in reptiles, and testosterone (T), a metric of male reproductive ability that is often negatively associated with CORT, were assayed just prior to translocation and again at the end of the study. During each of the two sampling periods, in addition to baseline hormone concentrations, stressed hormone concentrations were assayed following the application of an acute stressor (the baseline blood draw plus one hour’s captivity in a plastic bucket). We also studied the effect of LDT on the CORT and T response (stressed concentration minus baseline concentration). Furthermore, we evaluated how LDT impacted a suite of behaviors related to defense and movement, as well as snake body mass and body condition index (BCI). Finally, we assessed the effects of LDT on movements and spatial use (activity range size). We sought to assess the effects of LDT on movements, spatial use, and behavior in order to facilitate comparison with other translocation studies, as well as to evaluate those impacts in a physiological context. In addition to assessing the impact of LDT on CORT and T separately, we evaluated a relationship between the two steroid hormones, and, using a model selection approach, we evaluated relationships between CORT and T and movements and spatial use. The thermal quality of the habitat at our two sites did not differ and we found no effect of LDT on snake body temperature or thermoregulatory effectiveness. We found that spatial use increased following LDT, since the average 100% minimum convex polygon (MCP) activity range size of our translocated snakes was greater than that of our control snakes during the post-translocation period. However, movements (mean distance moved per day and total distance moved) were unaffected by LDT. Translocation was not found to affect snake body mass or BCI, indicating that snake energy demands did not increase as a result of LDT. Of the behaviors that we recorded, many (rattling, tongue-flicking, fleeing, moving vs. stationary when found) were observed too infrequently to carry out satisfactory parametric analyses, though a qualitative assessment leads to the conclusion that LDT did not affect them. The effect of LDT on how often our snakes were visible was marginally significant, but post-hoc testing found no differences. Nonetheless, the translocated snakes tended to be visible more often than the controls, during the post-translocation period. We found no effect of LDT on the percentage of a snake’s body sunlit when visible. Our translocation was not found to any CORT metric, while for T, the only metric that was affected was the baseline concentration. Baseline T was found to be higher in translocated snakes than in control snakes following translocation. We found some evidence for a positive relationship between CORT and T for baseline and stressed concentrations. Our model selection procedure found little evidence for a relationship between snake movements and spatial use and either CORT or T. Our results are encouraging in that we did not find that LDT disrupts thermoregulation or results in a condition of chronic stress, as indicated by the CORT results. The positive effect of LDT on baseline T is somewhat mysterious, but studies on mammals suggest that increased T may aid in spatial learning and memory. Since the site that a snake is translocated to is entirely novel, an elevated capacity for spatial learning and memory could be beneficial to a translocated snake. Our finding that spatial use increased following LDT agrees with other studies of LDT in snakes, but some studies have found that movements increased following LDT, while we did not. In addition to snake movements being unaffected, we translocated our snakes within a relatively thermally benign climate in coastal central California. Translocations carried out in more extreme climates, with either cold winters or hot summers may indeed result in an effect on thermoregulation and a state of chronic stress. Consequently, we advocate further study of the physiological effects of LDT on other snake species in a variety of climates. Additionally, while it was our goal to study the short-term effects of LDT, more long-term studies, which follow the snakes through the entire active season and the winter hibernation period, may be informative.

translocation

rattlesnake

chronic stress

thermoregulation

behavior

Biology

Effects of Motion Sickness on Human Thermoregulatory Mechanisms

Nobel, Gerard

January 2010

The presented studies were performed to investigate the effects of motion sickness (MS) on human autonomic and behavioural thermoregulatory mechanisms during cold stress and in a thermoneutral environment. The roles of histaminergic and cholinergic neuron systems in autonomic thermoregulation and MS-dependent dysfunction of autonomic thermoregulation were studied using a histamine-receptor blocker, dimenhydrinate (DMH), and a muscarine-receptor blocker, scopolamine (Scop). In addition, the effects of these substances on MS-induced nausea and perceptual thermoregulatory responses were studied. MS was found to lower core temperature, during cold stress by attenuation of cold-induced vasoconstriction and decreased shivering thermogenesis, and in a thermoneutral environment by inducing sweating and vasodilatation. The increased core cooling during cold stress was counteracted by DMH but not by Scop. In a thermoneutral environment, the temperature was perceived as uncomfortably warm during and after the MS provocation despite decreases in both core and skin temperature. No such effect was seen during cold-water immersion. Both pharmacologic substances had per se different effects on autonomic thermoregulatory responses during cold stress. Scop decreased heat preservation, but did not affect core cooling, while DMH reduced the rate of core cooling through increased shivering thermogenesis. Both DMH and Scop per se decreased thermal discomfort during cold-water immersion.Findings support the notion of modulating roles of histamine (H) and acetylcholine (Ach) in autonomic thermoregulation and during MS. MS activates cholinergic and histaminergic pathways, thereby increasing the levels of H and Ach in several neuro-anatomical structures. As a secondary effect, MS also elevates blood levels of several neuropeptides, which in turn would influence central and/or peripheral thermoregulatory responses.In conclusion, MS may predispose to hypothermia, by impairment of autonomic thermoregulation in both cold and thermoneutral environments and by modulation of behavioural thermoregulatory input signals. This might have significant implications for survival in maritime accidents. / <p>Medicine doktorsexamen</p>

Motion Sickness

autonomic thermoregulation

behavioural thermoregulation

hypothermia

acetylcholine

histamine

Physiology

Fysiologi

Die Infrarotthermografie zur Visualisierung und Quantifizierung von Hauttemperaturveränderungen infolge von Kraftbelastungen

Weigert, Martin

06 September 2019

Mittels Infrarotthermografie können Veränderungen der Oberflächentemperatur der Haut dargestellt werden. Kraftbeanspruchungen führen zur Wärmeproduktion in der belasteten Muskulatur. Diese erzeugte Wärme wird zur Hautoberfläche weitergeleitet und daraus resultierende Veränderungen der Hauttemperatur können durch den Einsatz der Infrarotthermografie visualisiert und quantifiziert werden. Die vorliegende kumulativ angefertigte Arbeit umfasst Beiträge, die wesentliche Einflussfaktoren auf belastungsinduzierte Hauttemperaturveränderungen nach Kraftbeanspruchungen aufzeigen. Dazu wurden in einer Studie der Einfluss des Belastungsfaktors Trainingsintensität und in einer weiteren Untersuchung wesentliche Faktoren der Körperkomposition überprüft. Eine dritte Untersuchung zeigt einen Ansatz für eine effiziente automatische Messmethode zur Bestimmung der Hauttemperaturen mittels Fusion einer Infrarotkamera mit einer Tiefenbildkamera. Die Arbeit leistet somit einen Beitrag für die Anwendung der Infrarotthermografie im leistungsphysiologischen Kontext.

info:eu-repo/classification/ddc/610

ddc:610

Termoregulační schopnosti rypoše \kur{Fukomys darlingi} a jejich vývoj u mláďat / The Thermoregulatory Abilities in a Mole-rat \kur{Fukomys darlingi} and its Development in Pups

ZEMANOVÁ, Milada

January 2010

The oxygen consumption and body temperature were measured in adults and pups of a social Mashona mole-rat(Fukomys darlingi)to test poikilothermic traits in this species and effect of presence of adults on pup´s thermoregulation abilities. The adult´s resting metabolic rate was 0.76 {$\pm$} 0.20 mlO2g-1hod-1 in the thermoneutral zone 27-34°C. We did not confirm poikilotermic traits in this species, because body temperature was stable (33.0 {$\pm$} 0.5°C) at low ambient temperatures. The pups started to thermoregulate in age of one month and they are able to maintain stable body temperature very late in age of three months. My results indicate that presence of adults is necessary for thermoregulation of pups.

Termoregulační schopnosti rypoše \kur{Fukomys darlingi} a jejich vývoj u mláďat / The Thermoregulatory Abilities in a Mole-rat \kur{Fukomys darlingi} and its Development in Pups

ZEMANOVÁ, Milada

January 2010

The oxygen consumption and body temperature were measured in adults and pups of a social Mashona mole-rat(Fukomys darlingi)to test poikilothermic traits in this species and effect of presence of adults on pup´s thermoregulation abilities. The adult´s resting metabolic rate was 0.76 {$\pm$} 0.20 mlO2g-1hod-1 in the thermoneutral zone 27-34°C. We did not confirm poikilotermic traits in this species, because body temperature was stable (33.0 {$\pm$} 0.5°C) at low ambient temperatures. The pups started to thermoregulate in age of one month and they are able to maintain stable body temperature very late in age of three months. My results indicate that presence of adults is necessary for thermoregulation of pups.