“Deep-forehead” temperature correlates well with blood temperature

Harioka, Tokuya; Matsukawa, Takashi; Ozaki, Makoto; Nomura, Koichiro; Sone, T; Kakuyama, Masahiro; Toda, Hiroshi

doi:10.1007/bf03024869

Cited by 39 publications

(27 citation statements)

References 21 publications

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“…[83][84][85][86] Oral, tympanic membrane, and temporal artery thermometers have been compared using the ICU population, but only three studies sampled perianesthesia patients. [86][87][88] Overall, the research on perianesthesia temperature measurement is weak due to a lack of controls, insufficient statistical analysis, and lack of replication. In an effort to reduce complications and costs associated with perioperative hypothermia, it is imperative to maintain normothermia throughout the course of the surgical continuum ( Figure 1).…”

Section: Guideline Intent and Definitionsmentioning

confidence: 98%

ASPAN's Evidence-Based Clinical Practice Guideline for the Promotion of Perioperative Normothermia

Hooper¹,

Chard²,

Clifford³

et al. 2009

Journal of PeriAnesthesia Nursing

102

133

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Section: Guideline Intent and Definitionsmentioning

confidence: 98%

ASPAN's Evidence-Based Clinical Practice Guideline for the Promotion of Perioperative Normothermia

Hooper¹,

Chard²,

Clifford³

et al. 2009

Journal of PeriAnesthesia Nursing

102

133

View full text Add to dashboard Cite

“…Temporal measurement records the highest temperature from an infrared scan, presumably of the temporal artery. 5 Although this last method is the least invasive, Low et al 6 reported that temporal measurements can underestimate core temperature during athletic events. The goal of each measure is to associate distal temperature measurements with the blood temperature of the hypothalamus, which regulates blood flow to the periphery and shivering for control of body temperature.…”

mentioning

confidence: 99%

Core-Temperature Sensor Ingestion Timing and Measurement Variability

Domitrovich

Cuddy

Ruby

2010

Journal of Athletic Training

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Context: Telemetric core-temperature monitoring is becoming more widely used as a noninvasive means of monitoring core temperature during athletic events.Objective: To determine the effects of sensor ingestion timing on serial measures of core temperature during continuous exercise.Design: Crossover study. Setting: Outdoor dirt track at an average ambient temperature of 4.46C 6 4.16C and relative humidity of 74.1% 6 11.0%.Patients or Other Participants: Seven healthy, active participants (3 men, 4 women; age 5 27.0 6 7.5 years, height 5 172.9 6 6.8 cm, body mass 5 67.5 6 6.1 kg, percentage body fat 5 12.7% 6 6.9%, peak oxygen uptake [V O 2peak ] 5 54.4 6 6.9 mLNkg 21 Nmin 21 ) completed the study.Intervention(s): Participants completed a 45-minute exercise trial at approximately 70% V O 2peak . They consumed coretemperature sensors at 24 hours (P1) and 40 minutes (P2) before exercise.Main Outcome Measure(s): Core temperature was recorded continuously (1-minute intervals) using a wireless data logger worn by the participants. All data were analyzed using a 2-way repeated-measures analysis of variance (trial 3 time), Pearson product moment correlation, and Bland-Altman plot.Results: Fifteen comparisons were made between P1 and P2. The main effect of time indicated an increase in core temperature compared with the initial temperature. However, we did not find a main effect for trial or a trial 3 time interaction, indicating no differences in core temperature between the sensors (P1 5 38.36C 6 0.26C, P2 5 38.36C 6 0.46C).Conclusions: We found no differences in the temperature recordings between the 2 sensors. These results suggest that assumed sensor location (upper or lower gastrointestinal tract) does not appreciably alter the transmission of reliable and repeatable measures of core temperature during continuous running in the cold.Key Words: thermal response, continuous exercise, body temperature Key Points N The telemetric core-temperature sensors recorded consistent core-temperature data independent of the time of ingestion and the assumed location of the sensor in the lower gastrointestinal tract during continuous running in the cold.N The wireless core-temperature sensors could give health care providers a reliable way to track core-temperature changes in athletes during sporting events and to respond more effectively to heat-related symptoms in at-risk participants.T he practical ability to monitor core body temperature might be critical in athletic settings where the probability for developing heat or cold illness is elevated 1 and athletic performance subsequently decreases. 2 The more common methods for measuring core temperature include pulmonary artery, esophageal, rectal, and temporal measurements, which are impractical in a sport or occupational setting. Each of these measurement techniques has different applications for various scenarios. Pulmonary arterial blood temperature is measured with insertion of a catheter into the right pulmonary artery. 3 Measuring esophageal temperature involves positioni...

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“…A temperature difference, or bias of 0.5 C was defined to be clinically acceptable in a study of 41 patients undergoing abdominal and thoracic surgery examining the accuracy of ''deep-forehead'' temperatures compared with PA core temperature. 7 The bias was found to be 0.0 C, with a standard deviation of 0.3 C. Myny and colleagues collected data on 57 orally intubated intensive care unit (ICU) patients with PA catheters and found no significant difference (mean difference 0.14 C; SD 0.51 C) between temporal artery thermometers and PA catheter temperatures. 8 Lawson and colleagues 6 studied 60 adult ICU patients and found that the temporal artery temperatures slightly overestimated the PA temperatures with a mean difference of 20.02 C (SD 0.47 C).…”

Section: Temporal Artery Thermometrymentioning

confidence: 96%

“…5 The studies to date have included PA catheters as a means of measuring core temperature. [6][7][8][9] However, these studies may not necessarily be generalizable to other populations outside of the ICU because PA catheters are usually restricted to ICU settings.…”

Section: Temporal Artery Thermometrymentioning

confidence: 98%

Temperature Measurement in Patients Undergoing Colorectal Surgery and Gynecology Surgery: A Comparison of Esophageal Core, Temporal Artery, and Oral Methods

Calonder

Sendelbach

Hodges

et al. 2010

Journal of PeriAnesthesia Nursing

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“Deep-forehead” temperature correlates well with blood temperature

Abstract: We have demonstrated that the "deep-forehead" temperature has excellent accuracy and clinically sufficient precision as well as other three core temperatures, compared with blood temperature.

Cited by 39 publications

References 21 publications

ASPAN's Evidence-Based Clinical Practice Guideline for the Promotion of Perioperative Normothermia

ASPAN's Evidence-Based Clinical Practice Guideline for the Promotion of Perioperative Normothermia

Core-Temperature Sensor Ingestion Timing and Measurement Variability

Temperature Measurement in Patients Undergoing Colorectal Surgery and Gynecology Surgery: A Comparison of Esophageal Core, Temporal Artery, and Oral Methods

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