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37 results on '"Front Matter: Discovery"'

5. Assessing the risk of acute kidney injury following exercise in the heat: Timing is important

Author

Zachary J. Schlader and Christopher L. Chapman

Subjects
medicine.medical_specialty, Physical work, Physiology, business.industry, Front Matter: Discovery, Physiology (medical), Acute kidney injury, Medicine, business, Intensive care medicine, medicine.disease
Abstract

There has been a surge of studies published in the last 10 y examining the potential for pathology related to exercise (or physical work) in the heat and the kidneys. For instance, a PubMed search ...

Published
2020
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6. The interaction between neurokinin-1 receptors and cyclooxygenase-2 in fever genesis

Author

Zoltan Rumbus and Patrik Keringer

Subjects
biology, Physiology, business.industry, fungi, food and beverages, Systemic inflammation, Head trauma, Front Matter: Discovery, Physiology (medical), Immunology, medicine, biology.protein, Cyclooxygenase, medicine.symptom, Receptor, business
Abstract

Fever is a common thermoregulatory manifestation in systemic inflammation, which can be triggered by different stimuli, such as infection, head trauma, and neurological disorders. In experimental a...

Published
2019
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7. Central activation of the A1 adenosine receptor in fed mice recapitulates only some of the attributes of daily torpor

Author

Ethan D Borre, Maria A. Vicent, and Steven J. Swoap

Subjects
0301 basic medicine, Hibernation, medicine.medical_specialty, Adenosine, Physiology, Torpor, medicine.medical_treatment, Hypothermia, Targeted temperature management, Biology, Biochemistry, Article, Body Temperature, Electrocardiography, 03 medical and health sciences, Adenosine A1 receptor, 0302 clinical medicine, Endocrinology, Heart Rate, Internal medicine, Heart rate, medicine, Animals, Ecology, Evolution, Behavior and Systematics, Caloric Restriction, Receptor, Adenosine A1, Adenosine receptor, Adenosine A1 Receptor Agonists, Mice, Inbred C57BL, 030104 developmental biology, Front Matter: Discovery, Female, Animal Science and Zoology, medicine.symptom, Locomotion, 030217 neurology & neurosurgery, medicine.drug
Abstract

Mice enter bouts of daily torpor, drastically reducing metabolic rate, core body temperature (T b), and heart rate (HR), in response to reduced caloric intake. Because central adenosine activation has been shown to induce a torpor-like state in the arctic ground squirrel, and blocking the adenosine-1 (A1) receptor prevents daily torpor, we hypothesized that central activation of the A1 adenosine receptors would induce a bout of natural torpor in mice. To test the hypothesis, mice were subjected to four different hypothermia bouts: natural torpor, forced hypothermia (FH), isoflurane-anesthesia, and an intracerebroventricular injection of the selective A1 receptor agonist N6-cyclohexyladenosine (CHA). All conditions induced profound hypothermia. T b fell more rapidly in the FH, isoflurane-anesthesia, and CHA conditions compared to torpor, while mice treated with CHA recovered at half the rate of torpid mice. FH, isoflurane-anesthesia, and CHA-treated mice exhibited a diminished drop in HR during entry into hypothermia as compared to torpor. Mice in all conditions except CHA shivered while recovering from hypothermia, and only FH mice shivered substantially while entering hypothermia. Circulating lactate during the hypothermic bouts was not significantly different between the CHA and torpor conditions, both of which had lower than baseline lactate levels. Arrhythmias were largely absent in the FH and isoflurane-anesthesia conditions, while skipped beats were observed in natural torpor and periodic extended (>1 s) HR pauses in the CHA condition. Lastly, the hypothermic bouts showed distinct patterns of gene expression, with torpor characterized by elevated hepatic and cardiac Txnip expression and all other hypothermic states characterized by elevated c-Fos and Egr-1 expression. We conclude that CHA-induced hypothermia and natural torpor are largely different physiological states.

Published
2017
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8. Lower-limb hot-water immersion acutely induces beneficial hemodynamic and cardiovascular responses in peripheral arterial disease and healthy, elderly controls

Author

James D. Cotter, Andre M. van Rij, Samuel J. E. Lucas, and Kate N. Thomas

Subjects
Male, Hot Temperature, Physiology, medicine.medical_treatment, Hemodynamics, Blood Pressure, 030204 cardiovascular system & hematology, Peripheral Arterial Disease, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), medicine.artery, Immersion, medicine, Humans, Plethysmograph, Aged, Leg, Cross-Over Studies, business.industry, Hyperthermia, Induced, Blood flow, Heat therapy, Popliteal artery, Blood pressure, Front Matter: Discovery, Anesthesia, Female, medicine.symptom, Shear Strength, Claudication, business, Perfusion, Blood Flow Velocity, 030217 neurology & neurosurgery
Abstract

Passive heat induces beneficial perfusion profiles, provides substantive cardiovascular strain, and reduces blood pressure, thereby holding potential for healthy and cardiovascular disease populations. The aim of this study was to assess acute responses to passive heat via lower-limb, hot-water immersion in patients with peripheral arterial disease (PAD) and healthy, elderly controls. Eleven patients with PAD (age 71 ± 6 yr, 7 male, 4 female) and 10 controls (age 72 ± 7 yr, 8 male, 2 female) underwent hot-water immersion (30-min waist-level immersion in 42.1 ± 0.6°C water). Before, during, and following immersion, brachial and popliteal artery diameter, blood flow, and shear stress were assessed using duplex ultrasound. Lower-limb perfusion was measured also using venous occlusion plethysmography and near-infrared spectroscopy. During immersion, shear rate increased ( P < 0.0001) comparably between groups in the popliteal artery (controls: +183 ± 26%; PAD: +258 ± 54%) and brachial artery (controls: +117 ± 24%; PAD: +107 ± 32%). Lower-limb blood flow increased significantly in both groups, as measured from duplex ultrasound (>200%), plethysmography (>100%), and spectroscopy, while central and peripheral pulse-wave velocity decreased in both groups. Mean arterial blood pressure was reduced by 22 ± 9 mmHg (main effect P < 0.0001, interaction P = 0.60) during immersion, and remained 7 ± 7 mmHg lower 3 h afterward. In PAD, popliteal shear profiles and claudication both compared favorably with those measured immediately following symptom-limited walking. A 30-min hot-water immersion is a practical means of delivering heat therapy to PAD patients and healthy, elderly individuals to induce appreciable systemic (chronotropic and blood pressure lowering) and hemodynamic (upper and lower-limb perfusion and shear rate increases) responses.

Published
2017
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9. Fever, hypothermia, and mortality in sepsis

Author

Zoltan Rumbus and András Garami

Subjects
medicine.medical_specialty, Physiology, business.industry, Mortality rate, MEDLINE, 030204 cardiovascular system & hematology, Hypothermia, medicine.disease, Clinical trial, Sepsis, 03 medical and health sciences, 0302 clinical medicine, Front Matter: Discovery, Physiology (medical), Internal medicine, Meta-analysis, medicine, medicine.symptom, business, 030217 neurology & neurosurgery
Abstract

Sepsis presents a major challenge for critical care and the society worldwide. Despite the ample research interest in understanding the underlying mechanisms, mortality rate remains considerably hi...

Published
2018
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10. Cumulative effects of successive workdays in the heat on thermoregulatory function in the aging worker

Author

Sean R. Notley, Robert D. Meade, Gregory W. McGarr, Andrew W. D’Souza, and Glen P. Kenny

Subjects
03 medical and health sciences, 0302 clinical medicine, Physiology, business.industry, Front Matter: Discovery, Physiology (medical), Statistics, Medicine, Cumulative effects, 030229 sport sciences, Function (mathematics), 030204 cardiovascular system & hematology, business
Published
2018
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11. Homeostatic significance of interleukin-1β in the cingulate cortex

Author

Zoltán Karádi and Bettina Csetényi

Subjects
inorganic chemicals, Cingulate cortex, Physiology, fungi, Biology, equipment and supplies, complex mixtures, Interleukin 1β, Front Matter: Discovery, Physiology (medical), bacteria, Constant (mathematics), Neuroscience, Homeostasis
Abstract

Keeping the internal environment constant in a continuously changing external environment, i.e. the maintenance of homeostasis is crucial for the living organisms and it is served by several mechan...

Published
2018
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13. Interactions in human performance: An individual and combined stressors approach

Author

George Havenith and Alex Lloyd

Subjects
Adult, Male, Engineering, Hot Temperature, Knee Joint, Physiology, Applied psychology, MEDLINE, Environment, World Wide Web, Young Adult, 03 medical and health sciences, Oxygen Consumption, 0302 clinical medicine, Stress, Physiological, Physiology (medical), Humans, Knee, Hypoxia, Muscle, Skeletal, Exercise, business.industry, Stressor, Temperature, Human factors and ergonomics, 030229 sport sciences, Cold Temperature, Oxygen, Front Matter: Discovery, Muscle Fatigue, Physical Endurance, business, human activities, 030217 neurology & neurosurgery
Abstract

This study investigated causative factors behind the expression of different interaction types during exposure to multistressor environments. Neuromuscular fatigue rates and time to exhaustion (TTE) were investigated in active men (n = 9) exposed to three climates [5 °C, 50% relative humidity (rh); 23 °C, 50% rh; and 42 °C, 70% rh] at two inspired oxygen fractions (0.209 and 0.125 FiO2; equivalent attitude = 4,100 m). After a 40-min rest in the three climatic conditions, participants performed constant-workload (high intensity) knee extension exercise until exhaustion, with brief assessments of neuromuscular function every 110 s. Independent exposure to cold, heat, and hypoxia significantly (P0.01) reduced TTE from thermoneutral normoxia (reductions of 190, 405, and 505 s from 915 s, respectively). The TTE decrease was consistent with a faster rate of peripheral fatigue development (P0.01) compared with thermoneutral normoxia (increase of 1.6, 3.1, and 4.9%/min from 4.1%/min, respectively). Combined exposure to hypoxic-cold resulted in an even greater TTE reduction (-589 s), likely due to an increase in the rate of peripheral fatigue development (increased by 7.6%/min), but this was without significant interaction between stressors (P0.198). In contrast, combined exposure to hypoxic heat reduced TTE by 609 s, showing a significant antagonistic interaction (P = 0.003) similarly supported by an increased rate of peripheral fatigue development (which increased by 8.3%/min). A small decline (0.4%/min) in voluntary muscle activation was observed only in thermoneutral normoxia. In conclusion, interaction type is influenced by the impact magnitude of the effect of the individual stressors' effect on exercise capacity, whereby the greater the effect of stressors, the greater the probability that one stressor will be abolished by the other. This indicates that humans respond to severe and simultaneous physiological strains on the basis of a worst-strain-takes-precedence principle.

Published
2016
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14. Cryotherapy: Are we freezing the benefits of exercise?

Author

Jonathan M. Peake

Subjects
Adult, Male, Physiology, medicine.medical_treatment, Cryotherapy, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Stress, Physiological, Physiology (medical), Immersion, Integrative, medicine, Humans, HSP70 Heat-Shock Proteins, Nerve Growth Factors, RNA, Messenger, Muscle, Skeletal, Inflammation, 030222 orthopedics, business.industry, Water, Skeletal muscle, Resistance Training, 030229 sport sciences, Cold Temperature, medicine.anatomical_structure, Neutrophil Infiltration, Water immersion, Front Matter: Discovery, Anesthesia, Cytokines, business
Abstract

Cold water immersion and active recovery are common post-exercise recovery treatments. A key assumption about the benefits of cold water immersion is that it reduces inflammation in skeletal muscle. However, no data are available from humans to support this notion. We compared the effects of cold water immersion and active recovery on inflammatory and cellular stress responses in skeletal muscle from exercise-trained men 2, 24 and 48 h during recovery after acute resistance exercise. Exercise led to the infiltration of inflammatory cells, with increased mRNA expression of pro-inflammatory cytokines and neurotrophins, and the subcellular translocation of heat shock proteins in muscle. These responses did not differ significantly between cold water immersion and active recovery. Our results suggest that cold water immersion is no more effective than active recovery for minimizing the inflammatory and stress responses in muscle after resistance exercise.Cold water immersion and active recovery are common post-exercise recovery treatments. However, little is known about whether these treatments influence inflammation and cellular stress in human skeletal muscle after exercise. We compared the effects of cold water immersion versus active recovery on inflammatory cells, pro-inflammatory cytokines, neurotrophins and heat shock proteins (HSPs) in skeletal muscle after intense resistance exercise. Nine active men performed unilateral lower-body resistance exercise on separate days, at least 1 week apart. On one day, they immersed their lower body in cold water (10°C) for 10 min after exercise. On the other day, they cycled at a low intensity for 10 min after exercise. Muscle biopsies were collected from the exercised leg before, 2, 24 and 48 h after exercise in both trials. Exercise increased intramuscular neutrophil and macrophage counts, MAC1 and CD163 mRNA expression (P 0.05). Exercise also increased IL1β, TNF, IL6, CCL2, CCL4, CXCL2, IL8 and LIF mRNA expression (P 0.05). As evidence of hyperalgesia, the expression of NGF and GDNF mRNA increased after exercise (P 0.05). The cytosolic protein content of αB-crystallin and HSP70 decreased after exercise (P 0.05). This response was accompanied by increases in the cytoskeletal protein content of αB-crystallin and the percentage of type II fibres stained for αB-crystallin. Changes in inflammatory cells, cytokines, neurotrophins and HSPs did not differ significantly between the recovery treatments. These findings indicate that cold water immersion is no more effective than active recovery for reducing inflammation or cellular stress in muscle after a bout of resistance exercise.

Published
2017
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15. Electric fan use during heat waves: Turn off for the elderly?

Author

Daniel Gagnon, Craig G. Crandall, and Université de Montréal. Faculté de médecine. Département de pharmacologie et physiologie

Subjects
Engineering, Physiology, business.industry, Electrical engineering, Mechanical engineering, 030229 sport sciences, Heat wave, Front Matter: Comment, 03 medical and health sciences, 0302 clinical medicine, Mechanical fan, Turn off, Front Matter: Discovery, Physiology (medical), 030212 general & internal medicine, business
Abstract

Comment on: Ravanelli NM, Jay O. Electric fan use in heat waves: Turn on or turn off? Temperature. 2016;3:358–360. doi:10.1080/23328940.2016.1211073.

Published
2017
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16. New possibilities of application of differential scanning calorimetry—new clinical diagnostic methods on the horizon?

Author

P. Farkas and D. Lőrinczy

Subjects
Diagnostic methods, Materials science, Field (physics), Physiology, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, 010406 physical chemistry, 0104 chemical sciences, Computational physics, Differential scanning calorimetry, Front Matter: Discovery, Physiology (medical), 0210 nano-technology, Thermal analysis
Abstract

Differential scanning calorimetry (DSC) is the most often used method in thermal analysis mainly applied in the research field, but according to the results, its clinical application emerges too. W...

Published
2017
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17. Cooling down the use of cryotherapy for post-exercise skeletal muscle recovery

Author

Arthur J. Cheng

Subjects
0301 basic medicine, medicine.medical_specialty, biology, Physiology, business.industry, Athletes, medicine.medical_treatment, Skeletal muscle, Cryotherapy, biology.organism_classification, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Water immersion, Physiology (medical), Front Matter: Discovery, Post exercise, medicine, Physical therapy, business, 030217 neurology & neurosurgery, Cooling down
Abstract

Cryotherapy is a popular method used by professional athletes, which is assumed to improve post-exercise recovery of skeletal muscle function. A common cryotherapy method is cold water immersion, w...

Published
2018

18. Role of the median preoptic nucleus in the autonomic response to heat-exposure

Author

Stephen B. G. Abbott and Clifford B. Saper

Subjects
0301 basic medicine, endocrine system, medicine.medical_specialty, Physiology, Biology, Preoptic area, 03 medical and health sciences, Brain region, 030104 developmental biology, 0302 clinical medicine, Endocrinology, Environmental temperature, nervous system, Physiology (medical), Internal medicine, Front Matter: Discovery, medicine, reproductive and urinary physiology, 030217 neurology & neurosurgery, Median preoptic nucleus
Abstract

The preoptic area (POA) is a critical brain region for the regulation of body temperature in mammals. Neurons in the POA are believed to integrate information concerning environmental temperature, ...

Published
2018

19. Humid heat stress affects trained female athletes more than does their menstrual phase

Author

Tze-Huan Lei and Toby Mündel

Subjects
0301 basic medicine, medicine.medical_specialty, biology, Physiology, Athletes, business.industry, media_common.quotation_subject, biology.organism_classification, medicine.disease, Phase (combat), Heat stress, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Increased risk, Heat illness, Physiology (medical), Front Matter: Discovery, Physical therapy, medicine, business, 030217 neurology & neurosurgery, Disadvantage, Menstrual cycle, media_common
Abstract

The prevailing view is that healthy, pre-menopausal women with a regular menstrual cycle face a performance disadvantage and increased risk for heat illness when exercising in a hot environment dur...

Published
2018

20. The TRPM2 channel in temperature detection and thermoregulation

Author

Gretel B. Kamm and Jan Siemens

Subjects
Neurons, 0301 basic medicine, Hot Temperature, Fever, Physiology, Chemistry, TRPM Cation Channels, Hypothermia, Thermoregulation, Preoptic Area, Mice, Mutant Strains, Mice, Inbred C57BL, Mice, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Front Matter: Discovery, Physiology (medical), Electronic engineering, Animals, Female, TRPM2, 030217 neurology & neurosurgery, Body Temperature Regulation, Communication channel
Abstract

Body temperature homeostasis is critical for survival and requires precise regulation by the nervous system. The hypothalamus serves as the principal thermostat that detects and regulates internal temperature. We demonstrate that the ion channel TRPM2 [of the transient receptor potential (TRP) channel family] is a temperature sensor in a subpopulation of hypothalamic neurons. TRPM2 limits the fever response and may detect increased temperatures to prevent overheating. Furthermore, chemogenetic activation and inhibition of hypothalamic TRPM2-expressing neurons in vivo decreased and increased body temperature, respectively. Such manipulation may allow analysis of the beneficial effects of altered body temperature on diverse disease states. Identification of a functional role for TRP channels in monitoring internal body temperature should promote further analysis of molecular mechanisms governing thermoregulation and foster the genetic dissection of hypothalamic circuits involved with temperature homeostasis.

Published
2016
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21. Avoiding apoptosis during mammalian hibernation

Author

Samantha M. Logan and Kenneth B. Storey

Subjects
0301 basic medicine, Physiology, Adipose Tissue, White, Sciuridae, Apoptosis, Biology, Cell biology, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Mammalian hibernation, Front Matter: Discovery, Hibernation, 030220 oncology & carcinogenesis, Physiology (medical), Animals, Apoptosis Regulatory Proteins, Body Temperature Regulation
Abstract

During hibernation, the metabolic rate of thirteen-lined ground squirrels (Ictidomys tridecemlineatus) can drop to5 % of normal resting rate at 37 °C, core body temperature can decrease to as low as 1-5 °C, and heart rate can fall from 350-400 to 5-10 bpm. Energy saved by hibernating allows squirrels to survive the winter when food is scarce, and living off lipid reserves in white adipose tissue (WAT) is crucial. While hibernating, some energy must be used to cope with conditions that would normally be damaging for mammals (e.g., low core body temperatures, ischemia) and could induce cell death via apoptosis. Cell survival is largely dependent on the relative amounts and activities of pro- and anti-apoptotic Bcl-2 family proteins. The present study analyzed how anti-apoptotic proteins respond to protect WAT cells during hibernation. Relative levels of several anti-apoptotic proteins were quantified in WAT via immunoblotting over six time points of the torpor-arousal cycle. These included anti-apoptotic Bcl-2 family members Bcl-2, Bcl-xL, and Mcl-l, as well as caspase inhibitors x-IAP and c-IAP. Changes in the relative protein levels and/or phosphorylation levels were also observed for various regulators of apoptosis (p-JAKs, p-STATs, SOCS, and PIAS). Mcl-1 and x-IAP protein levels increased whereas Bcl-xL, Bcl-2, and c-IAP protein/phosphorylation levels decreased signifying important roles for certain Bcl-2 family members in cell survival over the torpor-arousal cycle. Importantly, the relative phosphorylation of selected STAT proteins increased, suggesting a mechanism for Bcl-2 family activation. These results suggest that an increase in WAT cytoprotective mechanisms supports survival efforts during hibernation.

Published
2016
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22. Why is it easier to run in the cold?

Author

Yaroslav I. Molkov and Dmitry V. Zaretsky

Subjects
Male, 0301 basic medicine, Physiology, Physical activity, Core temperature, Models, Biological, Body Temperature, Running, Rats, Sprague-Dawley, 03 medical and health sciences, 0302 clinical medicine, Physical Conditioning, Animal, Physiology (medical), Animals, Muscle, Skeletal, Overheating (electricity), Rest (physics), Articles, 030229 sport sciences, Limiting, Mechanics, Models, Theoretical, Rats, 030104 developmental biology, Front Matter: Discovery, Environmental science, Algorithms, Body Temperature Regulation
Abstract

The importance of exercise is increasingly emphasized for maintaining health. However, exercise itself can pose threats to health such as the development of exertional heat shock in warm environments. Therefore, it is important to understand how the thermoregulation system adjusts during exercise and how alterations of this can contribute to heat stroke. To explore this we measured the core body temperature of rats (Tc) running for 15 min on a treadmill at various speeds in two ambient temperatures (Ta = 25°C and 32°C). We assimilated the experimental data into a mathematical model that describes temperature changes in two compartments of the body, representing the muscles and the core. In our model the core body generates heat to maintain normal body temperature, and dissipates it into the environment. The muscles produce additional heat during exercise. According to the estimation of model parameters, at Ta = 25°C, the heat generation in the core was progressively reduced with the increase of the treadmill speed to compensate for a progressive increase in heat production by the muscles. This compensation was ineffective at Ta = 32°C, which resulted in an increased rate of heat accumulation with increasing speed, as opposed to the Ta = 25°C case. Interestingly, placing an animal on a treadmill increased heat production in the muscles even when the treadmill speed was zero. Quantitatively, this “ready-to-run” phenomenon accounted for over half of the heat generation in the muscles observed at maximal treadmill speed. We speculate that this anticipatory response utilizes stress-related circuitry.

Published
2016
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24. UCP1 and T3: A key

Author

Ismael, González-García and Miguel, López

Subjects
Front Matter: Discovery
Published
2017

25. Role of the Excitability Brake Potassium Current I(KD) in Cold Allodynia Induced by Chronic Peripheral Nerve Injury

Author

Rodolfo Madrid, Ricardo Piña, Jose A. Gomez-Sanchez, Carlos Restrepo, María Pertusa, Alejandro González, Gonzalo Ugarte, Patricio Orio, and Gaspar Herrera

Subjects
Male, 0301 basic medicine, Models, Neurological, TRPM Cation Channels, Mice, 03 medical and health sciences, 0302 clinical medicine, Peripheral Nerve Injuries, medicine, TRPM8, Animals, Computer Simulation, Cells, Cultured, Research Articles, Mice, Inbred BALB C, business.industry, General Neuroscience, Nociceptors, Nerve injury, Cold Temperature, 030104 developmental biology, Allodynia, Hyperalgesia, Front Matter: Discovery, Chronic Disease, Peripheral nerve injury, Potassium, Nociceptor, Cold sensitivity, Thermoreceptor, medicine.symptom, business, Ion Channel Gating, Neuroscience, 030217 neurology & neurosurgery
Abstract

Cold allodynia is a common symptom of neuropathic and inflammatory pain following peripheral nerve injury. The mechanisms underlying this disabling sensory alteration are not entirely understood. In primary somatosensory neurons, cold sensitivity is mainly determined by a functional counterbalance between cold-activated TRPM8 channels and Shaker-like Kv1.1–1.2 channels underlying the excitability brake current IKD. Here we studied the role of IKDin damage-triggered painful hypersensitivity to innocuous cold. We found that cold allodynia induced by chronic constriction injury (CCI) of the sciatic nerve in mice, was related to both an increase in the proportion of cold-sensitive neurons (CSNs) in DRGs contributing to the sciatic nerve, and a decrease in their cold temperature threshold. IKDdensity was reduced in high-threshold CSNs from CCI mice compared with sham animals, with no differences in cold-induced TRPM8-dependent current density. The electrophysiological properties and neurochemical profile of CSNs revealed an increase of nociceptive-like phenotype among neurons from CCI animals compared with sham mice. These results were validated using a mathematical model of CSNs, including IKDand TRPM8, showing that a reduction in IKDcurrent density shifts the thermal threshold to higher temperatures and that the reduction of this current induces cold sensitivity in former cold-insensitive neurons expressing low levels of TRPM8-like current. Together, our results suggest that cold allodynia is largely due to a functional downregulation of IKDin both high-threshold CSNs and in a subpopulation of polymodal nociceptors expressing TRPM8, providing a general molecular and neural mechanism for this sensory alteration.SIGNIFICANCE STATEMENTThis paper unveils the critical role of the brake potassium current IKDin damage-triggered cold allodynia. Using a well-known form of nerve injury and combining behavioral analysis, calcium imaging, patch clamping, and pharmacological tools, validated by mathematical modeling, we determined that the functional expression of IKDis reduced in sensory neurons in response to peripheral nerve damage. This downregulation not only enhances cold sensitivity of high-threshold cold thermoreceptors signaling cold discomfort, but it also transforms a subpopulation of polymodal nociceptors signaling pain into neurons activated by mild temperature drops. Our results suggest that cold allodynia is linked to a reduction of IKDin both high-threshold cold thermoreceptors and nociceptors expressing TRPM8, providing a general model for this form of cold-induced pain.

Published
2017

26. Applying systems-level approaches to elucidate regulatory function during mammalian hibernation

Author

Frank van Breukelen

Subjects
Transcriptional Activation, Physiology, Torpor, Sciuridae, Computational biology, Biology, Gene Expression Regulation, Liver, Mammalian hibernation, Front Matter: Discovery, Hibernation, Physiology (medical), Animals, Seasons, Function (biology)
Abstract

Presumably to conserve energy, many mammals enter into hibernation during the winter. Homeostatic processes such as transcription and translation are virtually arrested. To further elucidate transcriptional regulation during hibernation, we studied the transcription factor p53. Here, we demonstrate that changes in liver mRNA and protein concentrations of known regulators of p53 are consistent with activation. p53 mRNA and protein concentrations are unrelated. Importantly, p53 protein concentration is increased ~2-fold during the interbout arousal that punctuates bouts of torpor. As a result, both the interbout arousal and the torpid state are characterized by high levels of nuclear-localized p53. Chromatin immunoprecipitation assays indicate that p53 binds DNA during the winter. Furthermore, p53 recruits RNA polymerase II, as indicated by nuclear run-on data. However, and consistent with previous data indicating an arrest of transcriptional elongation during torpor, p53 'activity' does not result in expected changes in target gene transcripts. These data demonstrate the importance of using a systems level-approach in understanding a complex phenotype such as mammalian hibernation. Relying on interpretations of data that are based on steady-state regulation in other systems may be misleading in the context of non-steady-state conditions such as torpor.

Published
2017

27. Clarifying the roles of homeostasis and allostasis in physiological regulation

Author

Stephen C. Woods and Douglas S. Ramsay

Subjects
Feedback, Physiological, obesity, thermoregulation, nitrous oxide, Allostasis, regulation, Opioid-Related Disorders, Adaptation, Physiological, Article, Sign reversal, Hyperalgesia, Front Matter: Discovery, homeostasis, Humans, addiction, sign reversal, Psychology, Neuroscience, General Psychology, Homeostasis, Body Temperature Regulation
Abstract

Homeostasis, the dominant explanatory framework for physiological regulation, has undergone significant revision in recent years, with contemporary models differing significantly from the original formulation. Allostasis, an alternative view of physiological regulation, goes beyond its homeostatic roots, offering novel insights relevant to our understanding and treatment of several chronic health conditions. Despite growing enthusiasm for allostasis, the concept remains diffuse, due in part to ambiguity as to how the term is understood and used, impeding meaningful translational and clinical research on allostasis. Here, we provide a more focused understanding of homeostasis and allostasis by explaining how both play a role in physiological regulation, and a critical analysis of regulation suggests how homeostasis and allostasis can be distinguished. Rather than focusing on changes in the value of a regulated variable (e.g., body temperature, body adiposity, or reward), research investigating the activity and relationship among the multiple regulatory loops that influence the value of these regulated variables may be the key to distinguishing homeostasis and allostasis. The mechanisms underlying physiological regulation and dysregulation are likely to have important implications for health and disease.

Published
2014
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28. In-Play Cooling Interventions for Simulated Match-Play Tennis in Hot/Humid Conditions

Author

Ollie Jay, Daniela Schranner, Babette M Pluim, Lisa Scherer, John R. Brotherhood, Svenja Korder, Julien D. Périard, and Grant Lynch

Subjects
Adult, Male, Materials science, Hot Temperature, Thermal strain, Physical Therapy, Sports Therapy and Rehabilitation, Perceived exertion, Thermal sensation, Heat Stress Disorders, 03 medical and health sciences, 0302 clinical medicine, Animal science, Humans, Orthopedics and Sports Medicine, Activity profile, Ice, Skin temperature, Humidity, 030229 sport sciences, Cryotherapy, Match play, Tennis, Front Matter: Discovery, Exercise intensity, Skin Temperature, Limited resources, 030217 neurology & neurosurgery, Body Temperature Regulation
Abstract

PURPOSE: To assess the efficacy of different in-play cooling strategies for mitigating heat strain during simulated tennis match-play activity in a hot/humid environment representing the most extreme conditions during the US Open (36 degrees C, 50{%} RH). METHODS: On three occasions, nine males completed an intermittent treadmill-protocol with an exercise intensity and activity profile simulating a 4-set tennis match, with 90-s breaks between odd-numbered games and 120-s between sets, according to ITF rules. During breaks, either (1) the currently used cooling strategy - an ice-filled damp towel around the neck and a cold-damp towel on the head and thighs (ICE), (2) wetting of arms, neck, face and lower legs with a sponge in front of an electric fan (FANwet), or (3) no cooling (CON), were applied. Rectal (Tre) and mean skin (Tsk) temperature, and heart rate (HR) were measured throughout. Thermal sensation (TS) and ratings of perceived exertion (RPE) were assessed during breaks. Trials were terminated upon reaching a Tre {\textgreater}/=39.5 degrees C or volitional exhaustion. RESULTS: Seven, five and one participant completed FANwet, ICE and CON respectively. By end set 1, DeltaTre was lower in FANwet (0.92+/-0.15 degrees C) compared to CON (1.09+/-0.09 degrees C; P=0.01), and by end set 2 DeltaTre was lower (P{\textless}0.001) in FANwet (1.55+/-0.23 degrees C) and ICE (1.59+/-0.17 degrees C) compared to CON (1.99+/-0.19 degrees C). Mean RPE (FANwet:13.9+/-2.2; ICE:13.6+/-1.8; CON:16.6+/-1.8), HR (FANwet:163+/-21; ICE 164+/-22; CON: 175+/-19 beats.min), Tsk (FANwet:36.56+/-0.69 degrees C; ICE 36.12+/-0.44 degrees C; CON:37.21+/-0.42 degrees C) and TS were lower in FANwet and ICE (P{\textless}0.05) compared to CON by end set 2. CONCLUSIONS: The currently recommended ICE strategy successfully mitigates thermal strain during simulated tennis match-play in hot/humid conditions. The FANwet intervention is an equally effective alternative that may be more practical in limited resource settings.

Published
2016

29. A cellular pathway controlling functional plasma membrane incorporation of the cold sensor TRPM8

Author

Joris Vriens and Thomas Voets

Subjects
Patch-Clamp Techniques, Sensory Receptor Cells, Physiology, TRPM Cation Channels, Pyrimidinones, R-SNARE Proteins, Mice, Physiology (medical), Ganglia, Spinal, TRPM8, Animals, Humans, Transport Vesicles, Mice, Knockout, Chemistry, Hyperesthesia, Reverse Transcriptase Polymerase Chain Reaction, Cell Membrane, Lysosome-Associated Membrane Glycoproteins, Cell biology, Cold Temperature, Mice, Inbred C57BL, Membrane, HEK293 Cells, Microscopy, Fluorescence, Trigeminal Ganglion, Front Matter: Discovery, Calcium, Female
Abstract

The cation channel TRPM8 plays a central role in the somatosensory system, as a key sensor of innocuously cold temperatures and cooling agents. Although increased functional expression of TRPM8 has been implicated in various forms of pathological cold hypersensitivity, little is known about the cellular and molecular mechanisms that determine TRPM8 abundance at the plasma membrane. Here we demonstrate constitutive transport of TRPM8 towards the plasma membrane in atypical, non-acidic transport vesicles that contain lysosomal-associated membrane protein 1 (LAMP1), and provide evidence that vesicle-associated membrane protein 7 (VAMP7) mediates fusion of these vesicles with the plasma membrane. In line herewith, VAMP7-deficient mice exhibit reduced functional expression of TRPM8 in sensory neurons and concomitant deficits in cold avoidance and icilin-induced cold hypersensitivity. Our results uncover a cellular pathway that controls functional plasma membrane incorporation of a temperature-sensitive TRP channel, and thus regulates thermosensitivity in vivo.

Published
2016
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30. The coding of cutaneous temperature in the spinal cord

Author

Xiaoke Chen, Mark A. Hoon, and Chen Ran

Subjects
0301 basic medicine, Hot Temperature, TRPV1, TRPM Cation Channels, Stimulation, Mice, Transgenic, Article, 03 medical and health sciences, Transient receptor potential channel, 0302 clinical medicine, Calcium imaging, Dorsal root ganglion, Ganglia, Spinal, Biological neural network, medicine, TRPM8, Animals, Cells, Cultured, Neurons, Chemistry, General Neuroscience, Spinal cord, Cold Temperature, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, nervous system, Spinal Cord, Front Matter: Discovery, Calcium, Skin Temperature, Neuroscience, 030217 neurology & neurosurgery
Abstract

The spinal cord is the initial stage that integrates temperature information from peripheral inputs. Here we used molecular genetics and in vivo calcium imaging to investigate the coding of cutaneous temperature in the spinal cord in mice. We found that heating or cooling the skin evoked robust calcium responses in spinal neurons, and their activation threshold temperatures distributed smoothly over the entire range of stimulation temperatures. Once activated, heat-responding neurons encoded the absolute skin temperature without adaptation and received major inputs from transient receptor potential (TRP) channel V1 (TRPV1)-positive dorsal root ganglion (DRG) neurons. By contrast, cold-responding neurons rapidly adapted to ambient temperature and selectively encoded temperature changes. These neurons received TRP channel M8 (TRPM8)-positive DRG inputs as well as novel TRPV1(+) DRG inputs that were selectively activated by intense cooling. Our results provide a comprehensive examination of the temperature representation in the spinal cord and reveal fundamental differences in the coding of heat and cold.

Published
2016

31. Warm vegetarians? Heat waves and diet shifts in tadpoles

Author

Pedro Segurado, N. Goncalves, Anssi Laurila, Bruno M. Carreira, Rui Rebelo, Germán Orizaola, and Vanessa Pinto

Subjects
0106 biological sciences, Amphibian, Hot Temperature, 010504 meteorology & atmospheric sciences, media_common.quotation_subject, 010603 evolutionary biology, 01 natural sciences, biology.animal, Animals, Herbivory, Metamorphosis, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, media_common, Herbivore, Larva, biology, Ecology, Heat wave, biology.organism_classification, Tadpole, Adaptation, Physiological, Diet, Ectotherm, Front Matter: Discovery, Omnivore, Anura
Abstract

Temperature can play an important role in determining the feeding preferences of ectotherms. In light of the warmer temperatures arising with the current climatic changes, omnivorous ectotherms may perform diet shifts toward higher herbivory to optimize energetic intake. Such diet shifts may also occur during heat waves, which are projected to become more frequent, intense, and longer lasting in the future. Here, we investigated how heat waves of different duration affect feeding preferences in omnivorous anuran tadpoles and how these choices affect larval life history. In laboratory experiments, we fed tadpoles of three species on animal, plant, or mixed diet and exposed them to short heat waves (similar to the heat waves these species experience currently) or long heat waves (predicted to increase under climate change). We estimated the dietary choices of tadpoles fed on the mixed diet using stable isotopes and recorded tadpole survival and growth, larval period, and mass at metamorphosis. Tadpole feeding preferences were associated with their thermal background, with herbivory increasing with breeding temperature in nature. Patterns in survival, growth, and development generally support decreased efficiency of carnivorous diets and increased efficiency or higher relative quality of herbivorous diets at higher temperatures. All three species increased herbivory in at least one of the heat wave treatments, but the responses varied among species. Diet shifts toward higher herbivory were maladaptive in one species, but beneficial in the other two. Higher herbivory in omnivorous ectotherms under warmer temperatures may impact species differently and further contribute to changes in the structure and function of freshwater environments.

Published
2016

32. Population data indicate that thyroid regulation is consistent with an equilibrium-point model, but not with a set-point model

Author

Fitzgerald, Stephen Paul, Bean, Nigel Geoffrey, and Fitzgerald, Leah Nicole

Subjects
medicine.medical_specialty, endocrine system, endocrine system diseases, Article Subject, Endocrinology, Diabetes and Metabolism, Population, Physiology, 030209 endocrinology & metabolism, Context (language use), lcsh:Diseases of the endocrine glands. Clinical endocrinology, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Tsh suppression, education, education.field_of_study, lcsh:RC648-665, business.industry, Population variation, Physiological responses, Set point, Endocrinology, 030220 oncology & carcinogenesis, Front Matter: Discovery, Corrigendum, business, hormones, hormone substitutes, and hormone antagonists, Research Article
Abstract

Context. Population studies of the distribution of T4/TSH set points suggest a more complex inverse relationship between T4 and TSH than that suggested by physiological studies. The reasons for the similarities and differences between the curves describing these relationships are unresolved.Methods. We subjected the curve, derived from empiric data, describing the TSH suppression response to T4, and the more mathematically derived curve describing the T4 response to TSH, to the different possible models of population variation. The implied consequences of these in terms of generating a population distribution of T4/TSH equilibrium points (a “population curve”) were generated and compared to the empiric population curve. The physiological responses to primary hypothyroidism and hyperthyroidism were incorporated into the analysis.Conclusions. Though the population curve shows a similarly inverse relationship, it is describing a different relationship than the curve describing the suppression of TSH by T4. The population curve is consistent with the physiological studies of the TSH response to T4 and implies a greater interindividual variation in the positive thyroid T4 response to TSH than in the central inhibitory TSH response to T4. The population curve in the dysthyroid states is consistent with known physiological responses to these states.

Published
2016
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33. Putting life on ice: bacteria that bind to frozen water

Author

Maya Bar Dolev, Ido Braslavsky, Shuaiqi Guo, Peter L. Davies, and Reut Bernheim

Subjects
0301 basic medicine, antifreeze proteins, RTX adhesin, 030106 microbiology, Biomedical Engineering, Biophysics, Antarctic Regions, microfluidic cold finger, Bioengineering, ice-binding proteins, Biochemistry, Bacterial Adhesion, biofilm, Microbiology, Biomaterials, 03 medical and health sciences, Bacterial Proteins, Antifreeze protein, Frozen Water, Marinomonas, biology, Ice, Biofilm, Life Sciences–Physics interface, biology.organism_classification, Bacterial adhesin, 030104 developmental biology, Ice binding, Polyclonal antibodies, Biofilms, Front Matter: Discovery, cold adaptation, biology.protein, Marinomonas primoryensis, Bacteria, Biotechnology, Research Article
Abstract

Ice-binding proteins (IBPs) are typically small, soluble proteins produced by cold-adapted organisms to help them avoid ice damage by either resisting or tolerating freezing. By contrast, the IBP of the Antarctic bacterium Marinomonas primoryensis is an extremely long, 1.5 MDa protein consisting of five different regions. The fourth region, a 34 kDa domain, is the only part that confers ice binding. Bioinformatic studies suggest that this IBP serves as an adhesin that attaches the bacteria to ice to keep it near the top of the water column, where oxygen and nutrients are available. Using temperature-controlled cells and a microfluidic apparatus, we show that M. primoryensis adheres to ice and is only released when melting occurs. Binding is dependent on the mobility of the bacterium and the functionality of the IBP domain. A polyclonal antibody raised against the IBP region blocks bacterial ice adhesion. This concept may be the basis for blocking biofilm formation in other bacteria, including pathogens. Currently, this IBP is the only known example of an adhesin that has evolved to bind ice.

Published
2016

34. The Brazilian Zika virus strain causes birth defects in experimental models

Author

David G. Andrade, Amadou A. Sall, Graciela Conceição Pignatari, Erica A. Mendes, Carlos Alberto Buchpigel, Katia de Oliveira Pimenta Guimarães, Carla Torres Braconi, Isabella Rodrigues Fernandes, Cristiano Rossato, Daniele de Paula Faria, João Leonardo Rodrigues Mendonça Dias, Fabiele Baldino Russo, Fernanda R. Cugola, Beatriz C.G. Freitas, Patricia Cristina Baleeiro Beltrão-Braga, Alysson R. Muotri, Alexandre T. Garcez, Nathalia Almeida, Jean Pierre Schatzmann Peron, Carolina Manganeli Polonio, Cecilia Benazzato, Paolo Marinho de Andrade Zanotto, Carla Longo de Freitas, Sarah Romero, Wesley Nogueira Brandão, and Isabela Werneck da Cunha

Subjects
0301 basic medicine, Microcephaly, Placenta, Prevalence, Apoptosis, Low Birth Weight and Health of the Newborn, Zika virus, Mice, 0302 clinical medicine, Neural Stem Cells, Pregnancy, Infant Mortality, 2.2 Factors relating to the physical environment, 2.1 Biological and endogenous factors, Aetiology, Pediatric, Multidisciplinary, Fetal Growth Retardation, Zika Virus Infection, Brain, 3. Good health, Organoids, Infectious Diseases, Female, Infection, Brazil, General Science & Technology, Intellectual and Developmental Disabilities (IDD), Biology, Arbovirus, Virus, 03 medical and health sciences, Fetus, Rare Diseases, Preterm, medicine, Autophagy, Animals, Progenitor cell, MICROCEFALIA, Cell Proliferation, Animal, Neurosciences, Outbreak, Zika Virus, Perinatal Period - Conditions Originating in Perinatal Period, biology.organism_classification, medicine.disease, Virology, Brain Disorders, Disease Models, Animal, 030104 developmental biology, Front Matter: Discovery, Immunology, Disease Models, Congenital Structural Anomalies, 030217 neurology & neurosurgery
Abstract

Zika virus (ZIKV) is an arbovirus belonging to the genus Flavivirus (family Flaviviridae) and was first described in 1947 in Uganda following blood analyses of sentinel Rhesus monkeys. Until the twentieth century, the African and Asian lineages of the virus did not cause meaningful infections in humans. However, in 2007, vectored by Aedes aegypti mosquitoes, ZIKV caused the first noteworthy epidemic on the Yap Island in Micronesia. Patients experienced fever, skin rash, arthralgia and conjunctivitis. From 2013 to 2015, the Asian lineage of the virus caused further massive outbreaks in New Caledonia and French Polynesia. In 2013, ZIKV reached Brazil, later spreading to other countries in South and Central America. In Brazil, the virus has been linked to congenital malformations, including microcephaly and other severe neurological diseases, such as Guillain-Barre syndrome. Despite clinical evidence, direct experimental proof showing that the Brazilian ZIKV (ZIKV(BR)) strain causes birth defects remains absent. Here we demonstrate that ZIKV(BR) infects fetuses, causing intrauterine growth restriction, including signs of microcephaly, in mice. Moreover, the virus infects human cortical progenitor cells, leading to an increase in cell death. We also report that the infection of human brain organoids results in a reduction of proliferative zones and disrupted cortical layers. These results indicate that ZIKV(BR) crosses the placenta and causes microcephaly by targeting cortical progenitor cells, inducing cell death by apoptosis and autophagy, and impairing neurodevelopment. Our data reinforce the growing body of evidence linking the ZIKV(BR) outbreak to the alarming number of cases of congenital brain malformations. Our model can be used to determine the efficiency of therapeutic approaches to counteracting the harmful impact of ZIKV(BR) in human neurodevelopment.

Published
2016

35. A Novel Candidate Gene for Temperature-Dependent Sex Determination in the Common Snapping Turtle

Author

Alexandra Miller, Turk Rhen, Kelsey J. Metzger, and Anthony L. Schroeder

Subjects
0301 basic medicine, Male, Candidate gene, Gonad, Single-nucleotide polymorphism, Biology, CIRBP, Polymorphism, Single Nucleotide, 03 medical and health sciences, Genetics, medicine, Animals, Allele, Gonads, Allele frequency, Alleles, Temperature-dependent sex determination, Homozygote, RNA-Binding Proteins, Sex Determination Processes, biology.organism_classification, Turtles, Cold Temperature, 030104 developmental biology, medicine.anatomical_structure, Genetic Loci, Front Matter: Discovery, Female, Chelydra
Abstract

Temperature-dependent sex determination (TSD) was described nearly 50 years ago. Researchers have since identified many genes that display differential expression at male- vs. female-producing temperatures. Yet, it is unclear whether these genes (1) are involved in sex determination per se, (2) are downstream effectors involved in differentiation of ovaries and testes, or (3) are thermo-sensitive but unrelated to gonad development. Here we present multiple lines of evidence linking CIRBP to sex determination in the snapping turtle, Chelydra serpentina. We demonstrate significant associations between a single nucleotide polymorphism (SNP) (c63A > C) in CIRBP, transcript levels in embryonic gonads during specification of gonad fate, and sex in hatchlings from a thermal regime that produces mixed sex ratios. The A allele was induced in embryos exposed to a female-producing temperature, while expression of the C allele did not differ between female- and male-producing temperatures. In accord with this pattern of temperature-dependent, allele-specific expression, AA homozygotes were more likely to develop ovaries than AC heterozygotes, which, in turn, were more likely to develop ovaries than CC homozygotes. Multiple regression using SNPs in CIRBP and adjacent loci suggests that c63A > C may be the causal variant or closely linked to it. Differences in CIRBP allele frequencies among turtles from northern Minnesota, southern Minnesota, and Texas reflect small and large-scale latitudinal differences in TSD pattern. Finally, analysis of CIRBP protein localization reveals that CIRBP is in a position to mediate temperature effects on the developing gonads. Together, these studies strongly suggest that CIRBP is involved in determining the fate of the bipotential gonad.

Published
2015

36. Increases in core temperature counterbalance effects of haemoconcentration on blood viscosity during prolonged exercise in the heat

Author

Michael J, Buono, Taylor, Krippes, Fred W, Kolkhorst, Alexander T, Williams, and Pedro, Cabrales

Subjects
Adult, Male, Erythrocytes, Hot Temperature, Dehydration, Fever, Erythrocyte Membrane, Blood Viscosity, Body Temperature, Hematocrit, Front Matter: Discovery, Humans, Female, Exercise, Cell Aggregation
Abstract

What is the central question of this study? The purpose of the present study was to determine the effects of exercise-induced haemoconcentration and hyperthermia on blood viscosity. What is the main finding and its importance? Exercise-induced haemoconcentration, increased plasma viscosity and increased blood aggregation, all of which increased blood viscosity, were counterbalanced by increased red blood cell (RBC) deformability (e.g. RBC membrane shear elastic modulus and elongation index) caused by the hyperthermia. Thus, blood viscosity remained unchanged following prolonged moderate-intensity exercise in the heat. Previous studies have reported that blood viscosity is significantly increased following exercise. However, these studies measured both pre- and postexercise blood viscosity at 37 °C even though core and blood temperatures would be expected to have increased during the exercise. Consequently, the effect of exercise-induced hyperthermia on mitigating change in blood viscosity may have been missed. The purpose of this study was to isolate the effects of exercise-induced haemoconcentration and hyperthermia and to determine their combined effects on blood viscosity. Nine subjects performed 2 h of moderate-intensity exercise in the heat (37 °C, 40% relative humidity), which resulted in significant increases from pre-exercise values for rectal temperature (from 37.11 ± 0.35 to 38.76 ± 0.13 °C), haemoconcentration (haematocrit increased from 43.6 ± 3.6 to 45.6 ± 3.5%) and dehydration (change in body weight = -3.6 ± 0.7%). Exercise-induced haemoconcentration significantly (P0.05) increased blood viscosity by 9% (from 3.97 to 4.33 cP at 300 s(-1)), whereas exercise-induced hyperthermia significantly decreased blood viscosity by 7% (from 3.97 to 3.69 cP at 300 s(-1)). When both factors were considered together, there was no overall change in blood viscosity (from 3.97 to 4.03 cP at 300 s(-1)). The effects of exercise-induced haemoconcentration, increased plasma viscosity and increased red blood cell aggregation, all of which increased blood viscosity, were counterbalanced by increased red blood cell deformability (e.g. red blood cell membrane shear elastic modulus and elongation index) caused by the hyperthermia. Thus, blood viscosity remained unchanged following prolonged moderate-intensity exercise in the heat.

Published
2015

37. Ambient temperature modulates yawning

Author

Andrew C. Gallup

Subjects
Variation (linguistics), Physiology, Evolutionary biology, Front Matter: Discovery, Physiology (medical), Hum, Biology
Abstract

Comment on: Eldakar OT, et al. Temperature-dependent variation in self-reported contagious yawning. Adap Hum Behav Physiol 2015; 1:460-6; http://dx.doi.org/10.1007/s40750-015-0024-6In humans yawnin...

Published
2015
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