Title :
Monitoring of breathing tube position and patency in situ using reflected sound
Author :
Mansfield, Jeffrey P. ; Wodicka, George R.
Author_Institution :
Sch. of Electr. Eng., Purdue Univ., West Lafayette, IN, USA
Abstract :
A new technique that acoustically interrogates an intubated breathing tube to yield clinically useful patency and position information was developed. A miniature speaker connected to the proximal tube end generates a sonic pulse that propagates down the tube, and the resulting echoes from within the tube and airways are measured by a miniature microphone. During intubations of anesthetized canines, the technique: 1) reliably differentiated between tracheal, bronchial, and esophageal intubations; 2) accurately quantified tube movements; 3) provided the location and degree of lumenal obstructions; and 4) detected extubation or disconnection from the ventilator hose. This technique offers an inexpensive and noninvasive mechanism to monitor breathing tubes in situ
Keywords :
bioacoustics; biomedical equipment; patient monitoring; patient treatment; pneumodynamics; position measurement; accurately quantified tube movements; acoustical monitoring; anesthetized canines; breathing tube patency monitoring; breathing tube position; bronchial intubation; echoes; esophageal intubation; extubation; inexpensive noninvasive mechanism; lumenal obstructions; miniature microphone; miniature speaker; proximal tube end; reflected sound; sonic pulse; tracheal intubation; ventilator hose disconnection; Acoustic measurements; Acoustic propagation; Acoustic pulses; Esophagus; Hoses; Loudspeakers; Microphones; Monitoring; Pulse generation; Pulse measurements;
Conference_Titel :
Engineering in Medicine and Biology Society, 1995., IEEE 17th Annual Conference
Conference_Location :
Montreal, Que.
Print_ISBN :
0-7803-2475-7
DOI :
10.1109/IEMBS.1995.575313
