通过鼻阻力测量法测量的鼻黏膜温度与鼻气流的关系。

Nasal mucosal temperature in relation to nasal airflow as measured by rhinomanometry.

作者信息

Lindemann Joerg, Keck Tilman, Scheithauer Marc Oliver, Leiacker Richard, Wiesmiller Kerstin

机构信息

Department of Otorhinolaryngology, University of Ulm, Frauensteige 12, D-89075 Ulm, Germany.

出版信息

Am J Rhinol. 2007 Jan-Feb;21(1):46-9. doi: 10.2500/ajr.2007.21.2983.

DOI:10.2500/ajr.2007.21.2983

PMID:17283560

Abstract

BACKGROUND

The aim of this study was to measure in vivo nasal mucosal temperature and assess its relationship to nasal patency.

METHODS

Nasal mucosal temperature of 30 nasal cavities was measured by means of a miniaturized thermocouple within the anterior turbinate area during respiration. Temperature values were compared with corresponding rhinomanometrical data.

RESULTS

The median mucosal temperature ranged from 30.2 degrees C (range, 28.9-31.7 degrees C) after inspiration to 32.2 degrees C (range, 31.0-33.9 degrees C) after expiration. The end-inspiratory (r = -0.85) and end-expiratory mucosal temperature values (r = -0.88) negatively correlated with the rhinomanometrical data.

CONCLUSION

This study supports the fact that there is a negative correlation between nasal mucosal temperature and nasal resistance. Changes in nasal patency seem to influence nasal mucosal temperature. Within this context, nasal thermoreceptors might play an important role concerning the perception of nasal patency.

摘要

背景

本研究的目的是测量体内鼻黏膜温度，并评估其与鼻腔通畅度的关系。

方法

在呼吸过程中，通过置于前鼻甲区域的小型热电偶测量30个鼻腔的鼻黏膜温度。将温度值与相应的鼻阻力测量数据进行比较。

结果

吸气后黏膜温度中位数范围为30.2℃（范围28.9 - 31.7℃），呼气后为32.2℃（范围31.0 - 33.9℃）。吸气末（r = -0.85）和呼气末黏膜温度值（r = -0.88）与鼻阻力测量数据呈负相关。

结论

本研究支持鼻黏膜温度与鼻阻力之间存在负相关这一事实。鼻腔通畅度的变化似乎会影响鼻黏膜温度。在此背景下，鼻温度感受器可能在鼻腔通畅度感知方面发挥重要作用。

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通过鼻阻力测量法测量的鼻黏膜温度与鼻气流的关系。

Nasal mucosal temperature in relation to nasal airflow as measured by rhinomanometry.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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