| scholarly article | Q13442814 |
| P50 | author | Neal R Glaviano | Q56394685 |
| P2093 | author name string | Carl M Maresh | |
| Lawrence E Armstrong | |||
| Douglas J Casa | |||
| Matthew S Ganio | |||
| Robert A Huggins | |||
| Christopher M Brown | |||
| Susan W Yeargin | |||
| Melissa W Roti | |||
| Jason Siegler | |||
| Neal R Glaviano | |||
| Julie A Blowers | |||
| Shannon M Becker | |||
| P2860 | cites work | Measurement of cardio-respiratory fitness and body composition in the clinical setting | Q71509431 |
| Effect of cold exposure on various sites of core temperature measurements | Q71740519 | ||
| Core temperature measurement during supine exercise: esophageal, rectal, and intestinal temperatures | Q72991274 | ||
| Telemetry pill measurement of core temperature in humans during active heating and cooling | Q74397025 | ||
| Accuracy of an infrared tympanic thermometer | Q77339483 | ||
| Temperature measurement in intensive care patients: comparison of urinary bladder, oesophageal, rectal, axillary, and inguinal methods versus pulmonary artery core method | Q78954935 | ||
| Statistical methods for assessing agreement between two methods of clinical measurement | Q26778461 | ||
| National Athletic Trainers' Association Position Statement: Exertional Heat Illnesses | Q28203351 | ||
| Exertional heat stroke in competitive athletes | Q28281307 | ||
| Body temperature and thermoregulation during submaximal exercise after 115-day spaceflight. | Q32103681 | ||
| Core temperature monitoring of firefighters during hazardous materials training sessions. | Q33571527 | ||
| Comparison of axillary temperature with rectal or oral temperature and determination of optimum placement time in children | Q34331278 | ||
| Core temperature measurement: methods and current insights | Q34994334 | ||
| The ingestible telemetric body core temperature sensor: a review of validity and exercise applications | Q36688019 | ||
| Emergency treatment of exertional heatstroke and comparison of whole body cooling techniques | Q38142830 | ||
| Re-evaluation of the tympanic thermometer in the emergency department | Q39245054 | ||
| The impact of moderate ambient temperature variance on the relationship between oral, rectal, and tympanic membrane temperatures | Q39255443 | ||
| Accuracy of digital tympanic, oral, axillary, and rectal thermometers compared with standard rectal mercury thermometers | Q39553040 | ||
| Accuracy of a noninvasive temporal artery thermometer for use in infants. | Q39560349 | ||
| Body temperature measurement | Q39824479 | ||
| When body temperature changes, does rectal temperature lag? | Q40532067 | ||
| Screening for fever in an adult emergency department: oral vs tympanic thermometry | Q40672997 | ||
| Natural selective cooling of the human brain: evidence of its occurrence and magnitude | Q41573018 | ||
| Calculating correlation coefficients with repeated observations: Part 1--Correlation within subjects | Q41972849 | ||
| Continuous core temperature monitoring of search and rescue divers during extreme conditions | Q42053343 | ||
| Does forehead liquid crystal temperature accurately reflect "core" temperature? | Q42633667 | ||
| Perceptual responses in the heat after brief intravenous versus oral rehydration | Q48673043 | ||
| Assessing Core Temperature in Collapsed Athletes | Q49614918 | ||
| A physiological strain index to evaluate heat stress. | Q50872557 | ||
| Reliability of an infrared forehead skin thermometer for core temperature measurements. | Q51156794 | ||
| The accuracy and precision of body temperature monitoring methods during regional and general anesthesia. | Q51410061 | ||
| Comparison of esophageal, tympanic, and forehead skin temperatures in adult patients. | Q51562330 | ||
| Liquid crystal skin thermometry: an accurate reflection of core temperature? | Q51667213 | ||
| Statistical methods for assessing measurement error (reliability) in variables relevant to sports medicine. | Q52182223 | ||
| Practical Assessment of Body Composition. | Q52670173 | ||
| Comparison of rectal, axillary, and forehead temperatures. | Q52886749 | ||
| The validity and reliability of intestinal temperature during intermittent running. | Q53013034 | ||
| Effect of head skin temperature on tympanic and oral temperature in man | Q66957905 | ||
| Independence of brain and tympanic temperatures in an unanesthetized human | Q68468558 | ||
| Perceptual and physiological responses during exercise in cool and cold water | Q70036003 | ||
| Estimation of body sites temperatures from tympanic measurements | Q70150455 | ||
| The effect of head cooling on deep body temperature and thermal comfort in man | Q70446153 | ||
| Influence of ambient and core temperatures on auditory canal temperature | Q70819269 | ||
| P433 | issue | 3 | |
| P304 | page(s) | 333-342 | |
| P577 | publication date | 2007-07-01 | |
| P1433 | published in | Journal of Athletic Training | Q15764649 |
| P1476 | title | Validity of devices that assess body temperature during outdoor exercise in the heat | |
| P478 | volume | 42 |
| Q77791866 | Activity modification in heat: critical assessment of guidelines across athletic, occupational, and military settings in the USA |
| Q24646949 | Acute whole-body cooling for exercise-induced hyperthermia: a systematic review |
| Q92587148 | Application of evidence-based recommendations for heat acclimation: Individual and team sport perspectives |
| Q33727143 | Aural canal, esophageal, and rectal temperatures during exertional heat stress and the subsequent recovery period |
| Q24610183 | Cold-water immersion and the treatment of hyperthermia: using 38.6°C as a safe rectal temperature cooling limit |
| Q36130428 | Collapsed athlete - atraumatic |
| Q37237387 | Comparison of Gastrointestinal and Rectal Temperatures During Recovery After a Warm-Weather Road Race |
| Q30419589 | Comparison of rectal and aural core body temperature thermometry in hyperthermic, exercising individuals: a meta-analysis |
| Q34473540 | Core temperature and sweat responses in professional women's tennis players during tournament play in the heat |
| Q34296617 | Core-Temperature Sensor Ingestion Timing and Measurement Variability |
| Q33727149 | Current knowledge, attitudes, and practices of certified athletic trainers regarding recognition and treatment of exertional heat stroke |
| Q24657031 | Does creatine supplementation hinder exercise heat tolerance or hydration status? A systematic review with meta-analyses |
| Q89144593 | Drug-induced hyperthermia in critical care |
| Q36163895 | Evidence-based medicine and the recognition and treatment of exertional heat stroke, part II: a perspective from the clinical athletic trainer |
| Q36163889 | Evidence-based practice and the recognition and treatment of exertional heat stroke, part I: a perspective from the athletic training educator |
| Q99613912 | Exertional Heat-Stroke Management Practices and Intentions Among Secondary School Football Athletic Trainers |
| Q28950602 | Heat exposure in central Florida fernery workers: results of a feasibility study |
| Q64226747 | Inconsistency in the Standard of Care-Toward Evidence-Based Management of Exertional Heat Stroke |
| Q50053746 | Individualized estimation of human core body temperature using non-invasive measurements |
| Q36163910 | Is oral temperature an accurate measurement of deep body temperature? A systematic review |
| Q93113064 | Monitoring of Storage and Transportation Temperature Conditions in Red Blood Cell Units: A Cross-Sectional Study |
| Q88306380 | Multi-sector thermo-physiological head simulator for headgear research |
| Q33166136 | National Athletic Trainers' Association Position Statement: Exertional Heat Illnesses |
| Q86183763 | National Athletic Trainers' Association Position Statement: Exertional Heat Illnesses |
| Q36161202 | National athletic trainers' association position statement: preventing sudden death in sports |
| Q37714007 | Non-invasive Measures of Core Temperature versus Ingestible Thermistor during Exercise in the Heat |
| Q64064694 | Normal Body Temperature: A Systematic Review |
| Q36167136 | Novel Analytic Methods Needed for Real-Time Continuous Core Body Temperature Data |
| Q36252212 | On Time Domain Analysis of Photoplethysmogram Signals for Monitoring Heat Stress |
| Q35788378 | Pulmonary artery and intestinal temperatures during heat stress and cooling. |
| Q32944327 | Recruitment, methods, and descriptive results of a physiologic assessment of Latino farmworkers: the California Heat IIlness Prevention Study |
| Q36798534 | Reflective Blankets Do Not Effect Cooling Rates after Running in Hot, Humid Conditions |
| Q36504402 | Repeat work bouts increase thermal strain for Australian firefighters working in the heat. |
| Q54989297 | Sickle Cell Trait and Sudden Death. |
| Q47971314 | Soft, skin-mounted microfluidic systems for measuring secretory fluidic pressures generated at the surface of the skin by eccrine sweat glands |
| Q34711142 | Telemetric measurement of body core temperature in exercising unconditioned Labrador retrievers. |
| Q38815417 | The Effects of Heat Adaptation on Physiology, Perception and Exercise Performance in the Heat: A Meta-Analysis. |
| Q92959494 | The Impact of an Ice Slurry-Induced Gastrointestinal Heat Sink on Gastrointestinal and Rectal Temperatures Following Exercise |
| Q33607346 | The Systematic Bias of Ingestible Core Temperature Sensors Requires a Correction by Linear Regression |
| Q36525924 | The effect of cold water endurance swimming on core temperature in aspiring English Channel swimmers. |
| Q36227771 | Towards Investigating Global Warming Impact on Human Health Using Derivatives of Photoplethysmogram Signals |
| Q42103074 | Using an Ingestible Telemetric Temperature Pill to Assess Gastrointestinal Temperature During Exercise. |
| Q31142869 | Validation of an ingestible temperature data logging and telemetry system during exercise in the heat |
| Q39736158 | Validation of the thermophysiological model by Fiala for prediction of local skin temperatures |
| Q37131680 | Validity and reliability of devices that assess body temperature during indoor exercise in the heat |
| Q40068654 | Validity of Core Temperature Measurements at 3 Rectal Depths During Rest, Exercise, Cold-Water Immersion, and Recovery |
| Q64967282 | Validity of a noninvasive estimation of deep body temperature when wearing personal protective equipment during exercise and recovery. |
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