請用此 Handle URI 來引用此文件: http://hdl.handle.net/11455/35387
標題: 人類口部呼吸之溫度與濕度量測技術
Technology of Human Oral Breath Humidity and Temperature Measurement
作者: 吳樂禾
Wu, Yao-Ho
關鍵字: temperature
溫度
humidity
oral respiratory
濕度
溫度量測系統
濕度量測系統
口部呼吸
出版社: 生物產業機電工程學系所
引用: 1 姜壽德。1978。呼吸生理學。初版,33-37。臺北:環球社。 2 陳加忠、沈德欽、雷鵬魁。1996。乾濕球溫度對於相對濕度量測誤差之影響。農業工程學報。第45卷第2期。87–99。 3 黃基礎、史金燾、施河。1998。人體生理學。第二版,71-80。臺 北:藝軒圖書出版社。 4 蔡穎睿。2005。人體排汗量測系統之研究。碩士論文。台中:中興大學生物產業機電工程學研究所。 5 Albright, L. D. 1990. Environment for Animals and Plants. St. Joseph, MI:ASAE. 6 Antonelli, M., M. A. Pennisi and L. Montini. 2005. Clinical review: Noninvasive ventilation in the clinical setting-experience from the past 10 years. Critical Care. 9(1). 98–103. 7 Carlson, B. W., V. J. Neelon and H. Hsiao. 1999. Evaluation of a non-invasive respiratory monitoring system for sleeping subjects. Physiol. Meas. 20. 53–63. 8 Cao, W. and Y. Duan. 2006. Breath Analysis: Potential for Clinical Diagnosis and Exposure Assessment. Clinical Chemistry 52:5 800–811. 9 Devore, J. L. 2007. Probability and Statistics for Engineering and the Sciences.7th ed., pp:255–258, 389–391. Duxbury. 10 Elad, David., Michael Wolf and Tilman Keck. 2008. Air-conditioning in the human nasal cavity. Respiratory Physiology & Neurobiology. 163. 121–127. 11 Greenspan, Lewis. 1977. Humidity Fixed Points of Binary Saturated Aqueous Solutions. Journal of Research of the National Bureau of Standards-A. Physics and Chemistry 81 A, No. 1. 89–96. 12 Jaffe, M. B. and J. A. Orr. 2010. Continuous monitoring of respiratory flow and CO2: Challenges of on-airway measurements. In “IEEE Engineering in Medicine and Biology Magazine”. 44–52 13 Johansson, A. and B.Hök. 2004. Sensors for Respiratory monitoring. In:" Sensors in Medicine and Health Care". 161-186,eds. P.A. öberg. T. Togawa. and F.A. Spelman. Wiley-VCH Verlag GmbH & Co. KGaA. Weinheim. 14 Kaufman, J. K. 1997. Dependence of human respiratory thermal washout on extrathoracic airway conditions. Eur Respir J. 10. 2778–2783. 15 Kaufman, J. K. and K. Farahmand. 2005. In vivo measurements of human oral cavity heat and water vapor transport. Respiratory Physiology & Neurobiology. 150. 261–277. 16 Liener, K., J. Dürr, R. Leiacker, A. Rozsasi and T. Keck. 2006. Measurement of tracheal humidity and temperature. Respiration. 73. 324–328. 17 Lindemann, J., Leiacker. R, Stehmer. V, Rettinger. G and Keck, T. 2001. Intranasal temperature and humidity profile in patients with nasal septal perforation before and after surgical closure. Clin. Otolaryngol. 26. 433–437. 18 Mäkinen, T. M., R. Juvonen, J. Jokelainen, T. H. Harju, A. Peitso, A. Bloigu, S. Silvennoinen-Kassinen, M. Leinonen and J. Hassi. 2008. Cold temperature and low humidity are associated with increased occurrence of respiratory tract infections. Respiratory Medicine (2009) 103, 456–462. 19 Matsukawa, T., M. Ozaki, D. I. Sessler, T. Nishiyama, M. Imamura and T. Kumazawa. 1998. Accuracy and precision of “deep sternal”and tracheal temperatures at high-and low-fresh-gas flows. British Journal of Anaesthesia 81: 171–1175 20 Okubo, M., Y. Imai, T. Ishikawa, T. Hayasaka, S. Ueno and T. Yamaguchi. 2008. Development of automatic respiration monitoring for home-care patients of respiratory diseases with therapeutic aids. In: ”ECIFMBE”. TFMBE. 22. 1117–1120,eds. J. Vander Sloten, P.Verdonck, M. Nyssen and J. Haueisen. Berlin Heidelberg: Springer-Verlag. 21 Pallàs-Areny, R. and J. G. Webster. 2001. Sensors and Signal Conditioning. 2nd ed. Canada: John Wiley & Sons. 22 Simon, M. G. and C. E. Davis. 2010. Instrumentation and sensors for human breath analysis. In:“Adv. in Biomedical Sensing”. LNEE55. 144–165. Eds. S.C. Mukhopadhyay and A. Lay-Ekuakille. Berlin Heidelberg: Springer-Verlag. 23 White, M. D. and M. Cabanac. 1995. Respiretory heat loss and core temperatures during submaximal exercise. J.therm. Biol. 20(6). 489–496. 24 Zuur, J. K., S.H. Muller, F.H. C. de Jongh, M.J. van der Horst, M. Shehata, J. van Leeuwen, M. Sinaasappel and F. J. M. Hilgers. 2007. A newly developed tool for intra-tracheal temperature and humidity assessment in laryngectomized individuals: the Airway Climate Explorer (ACE). Med Bio Eng Comput. 45. 737–745.
摘要: Gas analysis and monitoring of human respiratory is a topic which has been strived in the medicine. Lots of research and instruments are used for physical/ chemical human breathing gas measured. Excepting the expensive instruments, some portable sensors have been studied on human breathing. The human airway has the ability to warm and humidify the nearby air. The temperature and humidity of the inhaled air can be measured and served as an index for human breathing analysis. The quantifications of the changed temperature and humidity by the breath of test people were discussed in this study. The measurand were served as the personal air-conditioning index of the airway for the clinical. The sensing system of this study could be integrated with other sensors for physical/ chemical human breathing gas measuring. To ensure the correction of the measurement for the human breathing temperature and humidity, a sensing system with the traceability must be built. Then the temperature and humidity from oral breathing and the environment were measured with calibrated thermocouple and humidity sensors. These data were coupled with DAQ. Changes of temperature and humidity by human oral breathing among different physical states and sexes were analysed with statistic test. Humidity should be transferred into absolute humidity to express its meaning. According to the result, the temperatures and humidities from human oral breathing were changed with different actions. In this study, the average temperature and humidity changed by oral breathing of female samples were higher than that of the male's.
人體呼吸氣體檢測分析與監控是醫學界正致力研究的題目,目前檢測人類呼吸的物理/化學量的儀器與研究也非少見。除了使用昂貴的分析儀器,也有以感測器形式之機構針對人體呼吸的研究。 人類呼吸道有暖化與濕化週遭空氣的能力,溫度與濕度也能成為人類呼吸偵測的指標。 本實驗即以此為出發點,探討個人改變空氣之溫度與濕度的量化程度,以此提供醫學界建立個人呼吸道空調指數的方法,作為判斷身體狀況的輔助。此外本實驗之量測系統也可供它類感測器於量測人體呼吸之物理/化學量時的作溫度或濕度值的補償。 欲測得正確的人體呼吸溫度與濕度需建立一套涵蓋於追涉制度下的感測系統。本實驗以經校正之溫度與濕度感測器搭配訊號擷取卡,量測人體呼氣以及環境之溫度與濕度,以統計檢定討論於不同運動狀態下人體口部呼吸對溫濕度的改變,以及性別間的差異。其中濕度需經計算轉換為絕對濕度。 實驗結果,發現運動狀態會影響人體口部呼吸量測到的溫度與濕度。此外本研究中女性受試者之溫度與絕對濕度與環境的差值之平均,較男性受試者的平均值為高。
URI: http://hdl.handle.net/11455/35387
其他識別: U0005-1107201113241600
文章連結: http://www.airitilibrary.com/Publication/alDetailedMesh1?DocID=U0005-1107201113241600
顯示於類別:生物產業機電工程學系

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