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Observational Study
. 2019 Oct;33(5):917-923.
doi: 10.1007/s10877-018-0227-z. Epub 2018 Nov 22.

The focus of temperature monitoring with zero-heat-flux technology (3M Bair-Hugger): a clinical study with patients undergoing craniotomy

Eero Pesonen  1 Marja Silvasti-Lundell  2 Tomi T Niemi  2 Riku Kivisaari  3 Juha Hernesniemi  3 Marja-Tellervo Mäkinen  2
Affiliations
Observational Study

The focus of temperature monitoring with zero-heat-flux technology (3M Bair-Hugger): a clinical study with patients undergoing craniotomy

Eero Pesonen et al. J Clin Monit Comput. 2019 Oct.

Abstract

In the noninvasive zero-heat-flux (ZHF) method, deep body temperature is brought to the skin surface when an insulated temperature probe with servo-controlled heating on the skin creates a region of ZHF from the core to the skin. The sensor of the commercial Bair-Hugger ZHF device is placed on the forehead. According to the manufacturer, the sensor reaches a depth of 1-2 cm below the skin. In this observational study, the anatomical focus of the Bair-Hugger ZHF sensor was assessed in pre- and postoperative CT or MRI images of 29 patients undergoing elective craniotomy. Assuming the 2-cm depth from the forehead skin surface, the temperature measurement point preoperatively reached the brain cortex in all except one patient. Assuming the 1-cm depth, the preoperative temperature measurement point did not reach the brain parenchyma in any of the patients and was at the cortical surface in two patients. Corresponding results were obtained postoperatively, although either sub-arachnoid fluid or air was observed in all CT/MRI images. Craniotomy did not have a detectable effect on the course of the ZHF temperatures. In Bland-Altman analysis, the agreement of ZHF temperature with the nasopharyngeal temperature was 0.11 (95% confidence interval - 0.54 to 0.75) °C and with the bladder temperature - 0.14 (- 0.81 to 0.52) °C. As conclusions, within the reported range of the Bair-Hugger ZHF measurement depth, the anatomical focus of the sensor cannot be determined. Craniotomy did not have a detectable effect on the course of the ZHF temperatures that showed good agreement with the nasopharyngeal and bladder temperatures.

Keywords: Body temperature; Craniotomy; Thermometer; Zero-heat-flux temperature.

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Conflict of interest statement

M-TM has been on a member of 3M patient temperature management advisory board until the end of 2016. No other conflicts of interest to declare.

Figures

Fig. 1
Fig. 1
A representative postoperative axial CT scan. Distance from the skin to the cortical surface measured from the ocular papillary line 2 cm from the eyebrow
Fig. 2
Fig. 2
A representative postoperative sagittal CT scan. Distance from the skin to the cortical surface measured from the ocular papillary line 2 cm from the eyebrow
Fig. 3
Fig. 3
The zero-heat flux (ZHF), nasopharyngeal (Naso) and urinary bladder (Bladder) temperatures at 5-min intervals starting from anesthesia induction
Fig. 4
Fig. 4
Bland–Altman plot between the zero-heat flux (ZHF) and nasopharyngeal (Naso) temperatures
Fig. 5
Fig. 5
Bland–Altman plot between the zero-heat flux (ZHF) and urinary bladder (Bladder) temperatures
See this image and copyright information in PMC

Comment in

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