[HTML][HTML] A newly developed tool for intra-tracheal temperature and humidity assessment in laryngectomized individuals: the Airway Climate Explorer (ACE)
JK Zuur, SH Muller, FHC De Jongh… - Medical & biological …, 2007 - Springer
JK Zuur, SH Muller, FHC De Jongh, MJ Van der Horst, M Shehata, J Van Leeuwen…
Medical & biological engineering & computing, 2007•SpringerThe aim of this study is to develop a postlaryngectomy airway climate explorer (ACE) for
assessment of intratracheal temperature and humidity and of influence of heat and moisture
exchangers (HMEs). Engineering goals were within-device condensation prevention and
fast response time characteristics. The ACE consists of a small diameter, heated air-
sampling catheter connected to a heated sensor house, containing a humidity sensor. Air is
sucked through the catheter by a controlled-flow pump. Validation was performed in a …
assessment of intratracheal temperature and humidity and of influence of heat and moisture
exchangers (HMEs). Engineering goals were within-device condensation prevention and
fast response time characteristics. The ACE consists of a small diameter, heated air-
sampling catheter connected to a heated sensor house, containing a humidity sensor. Air is
sucked through the catheter by a controlled-flow pump. Validation was performed in a …
Abstract
The aim of this study is to develop a postlaryngectomy airway climate explorer (ACE) for assessment of intratracheal temperature and humidity and of influence of heat and moisture exchangers (HMEs). Engineering goals were within-device condensation prevention and fast response time characteristics. The ACE consists of a small diameter, heated air-sampling catheter connected to a heated sensor house, containing a humidity sensor. Air is sucked through the catheter by a controlled-flow pump. Validation was performed in a climate chamber using a calibrated reference sensor and in a two-flow system. Additionally, the analyser was tested in vivo. Over the clinically relevant range of humidity values (5–42 mg H2O/l air) the sensor output highly correlates with the reference sensor readings (R 2 > 0.99). The 1–1/e response times are all <0.5 s. A first in vivo pilot measurement was successful. The newly developed, verified, fast-responding ACE is suitable for postlaryngectomy airway climate assessment.
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