scholarly article | Q13442814 |
P2093 | author name string | Suzanne M Schneider | |
Pope Moseley | |||
Fabiano T Amorim | |||
Robert Robergs | |||
Paulette M Yamada | |||
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Exercise increases serum Hsp72 in humans | Q28345140 | ||
Tolerance, danger, and the extended family | Q29547532 | ||
Glucose ingestion attenuates the exercise-induced increase in circulating heat shock protein 72 and heat shock protein 60 in humans | Q33716811 | ||
Exercise induces the release of heat shock protein 72 from the human brain in vivo | Q33716849 | ||
Natural adjuvants: endogenous activators of dendritic cells | Q33878894 | ||
Heat shock proteins and heat adaptation of the whole organism | Q34447069 | ||
Stress hormones, proinflammatory and antiinflammatory cytokines, and autoimmunity | Q34735622 | ||
Role of gastrointestinal permeability in exertional heatstroke | Q35987186 | ||
Endogenous extra-cellular heat shock protein 72: releasing signal(s) and function. | Q36210031 | ||
Releasing signals, secretory pathways, and immune function of endogenous extracellular heat shock protein 72. | Q36357910 | ||
The roles of exercise-induced immune system disturbances in the pathology of heat stroke : the dual pathway model of heat stroke | Q36381210 | ||
Induction of heat shock proteins in B-cell exosomes. | Q40392853 | ||
Exosome-dependent trafficking of HSP70: a novel secretory pathway for cellular stress proteins | Q40436107 | ||
Cytokine induction during exertional hyperthermia is abolished by core temperature clamping: neuroendocrine regulatory mechanisms | Q40529132 | ||
Effect of heat stress on LPS-induced fever and tumor necrosis factor | Q40646084 | ||
Human resting extracellular heat shock protein 72 concentration decreases during the initial adaptation to exercise in a hot, humid environment | Q41604794 | ||
Transcriptional and translational regulation of heat shock proteins in leukocytes of endurance runners | Q42491512 | ||
Strenuous exercise decreases the percentage of type 1 T cells in the circulation | Q43745455 | ||
In vitro studies show that Hsp70 can be released by glia and that exogenous Hsp70 can enhance neuronal stress tolerance | Q43751823 | ||
Thermoregulatory responses during competitive marathon running | Q43817112 | ||
Expression of the molecular chaperone Hsp70 in detergent-resistant microdomains correlates with its membrane delivery and release | Q44394452 | ||
Serum levels of Hsp 72 measured early after trauma correlate with survival | Q46479365 | ||
Plasma cytokine changes in relation to exercise intensity and muscle damage. | Q46694189 | ||
Physiologically relevant increase in temperature causes an increase in intestinal epithelial tight junction permeability | Q46890648 | ||
A NEW WEIGHTING SYSTEM FOR MEAN SURFACE TEMPERATURE OF THE HUMAN BODY. | Q47801107 | ||
Calculation of percentage changes in volumes of blood, plasma, and red cells in dehydration | Q47844537 | ||
Serum Hsp70 as an early predictor of fatal outcome after severe traumatic brain injury in males | Q48771529 | ||
Exercise induces hepatosplanchnic release of heat shock protein 72 in humans | Q59326285 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | interleukins | Q194908 |
P304 | page(s) | 1196-1204 | |
P577 | publication date | 2007-07-05 | |
P1433 | published in | Journal of Applied Physiology | Q1091719 |
P1476 | title | Effect of heat acclimation on heat shock protein 72 and interleukin-10 in humans | |
P478 | volume | 103 |
Q41985668 | Acute exercise boosts cell proliferation and the heat shock response in lymphocytes: correlation with cytokine production and extracellular-to-intracellular HSP70 ratio. |
Q38460638 | Adaptations and mechanisms of human heat acclimation: Applications for competitive athletes and sports |
Q93051251 | Could Heat Therapy Be an Effective Treatment for Alzheimer's and Parkinson's Diseases? A Narrative Review |
Q36660965 | Cross Acclimation between Heat and Hypoxia: Heat Acclimation Improves Cellular Tolerance and Exercise Performance in Acute Normobaric Hypoxia |
Q48285267 | Delayed vestibulopathy after heat exposure |
Q33668046 | Effects of heat acclimation on changes in oxidative stress and inflammation caused by endurance capacity test in the heat |
Q83841459 | Effects of heat acclimation on endurance capacity and prolactin response to exercise in the heat |
Q83062189 | Effects of whole-body heat acclimation on cell injury and cytokine responses in peripheral blood mononuclear cells |
Q51709364 | Elevation of body temperature is an essential factor for exercise-increased extracellular heat shock protein 72 level in rat plasma. |
Q39502798 | Eleven days of moderate exercise and heat exposure induces acclimation without significant HSP70 and apoptosis responses of lymphocytes in college-aged males |
Q40435509 | Exercise-heat acclimation in humans alters baseline levels and ex vivo heat inducibility of HSP72 and HSP90 in peripheral blood mononuclear cells |
Q28299626 | Extracellular Hsp72 concentration relates to a minimum endogenous criteria during acute exercise-heat exposure |
Q38201381 | Fever, immunity, and molecular adaptations |
Q50981719 | From Lab to Real World: Heat Acclimation Considerations for Elite Athletes. |
Q36208909 | Glutamine may repress the weak LPS and enhance the strong heat shock induction of monocyte and lymphocyte HSP72 proteins but may not modulate the HSP72 mRNA in patients with sepsis or trauma |
Q41160152 | Heat Acclimation-Mediated Cross-Tolerance: Origins in within-Life Epigenetics? |
Q38943453 | Heat acclimation and cross tolerance to hypoxia: Bridging the gap between cellular and systemic responses |
Q35601537 | Heat acclimation and exercise training interact when combined in an overriding and trade-off manner: physiologic-genomic linkage |
Q51610356 | Heat acclimation attenuates physiological strain and the HSP72, but not HSP90α, mRNA response to acute normobaric hypoxia. |
Q83964953 | Heat acclimation decreased oxidative DNA damage resulting from exposure to high heat in an occupational setting |
Q39090034 | Heat acclimation: Gold mines and genes |
Q90285379 | Heat alleviation strategies for athletic performance: A review and practitioner guidelines |
Q42576131 | Heat and exercise acclimation increases intracellular levels of Hsp72 and inhibits exercise-induced increase in intracellular and plasma Hsp72 in humans. |
Q50542199 | Heat exposure does not alter eccentric exercise-induced increases in mitochondrial calcium and respiratory dysfunction. |
Q37246996 | Heat shock protein 72 response to exercise in humans |
Q34464470 | Heat shock response and autophagy--cooperation and control |
Q41334385 | Human monocyte heat shock protein 72 responses to acute hypoxic exercise after 3 days of exercise heat acclimation. |
Q26745777 | Insights into the role of heat shock protein 72 to whole-body heat acclimation in humans |
Q38111729 | Integrated physiological mechanisms of exercise performance, adaptation, and maladaptation to heat stress |
Q40973896 | Isothermic and fixed-intensity heat acclimation methods elicit equal increases in Hsp72 mRNA. |
Q41222071 | Moderate- and high-intensity exhaustive exercise in the heat induce a similar increase in monocyte Hsp72. |
Q50649042 | No effects of acclimation to heat on immune and hormonal responses to passive heating in healthy volunteers. |
Q40350774 | Palm cooling does not reduce heat strain during exercise in a hot, dry environment |
Q97524536 | Pathophysiology and pathological findings of heatstroke in dogs |
Q98177816 | Recent Advances in Genetic and Epigenetic Modulation of Animal Exposure to High Temperature |
Q40343305 | Response of mice to continuous 5-day passive hyperthermia resembles human heat acclimation |
Q38815417 | The Effects of Heat Adaptation on Physiology, Perception and Exercise Performance in the Heat: A Meta-Analysis. |
Q81786265 | The effect of the rate of heat storage on serum heat shock protein 72 in humans |
Q37884092 | The pathopysiology of heat stroke: an integrative view of the final common pathway. |
Q38281607 | Thermal sensation and cell adaptability |
Q35160073 | Thermotolerance and heat acclimation may share a common mechanism in humans |
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