Development of a continuous respiration olfactometer for odorant delivery synchronous with natural respiration during recordings of brain electrical activity
The continuous respiration olfactometer (CRO) was designed as a respiration-synchronous method for delivering odorants during recordings of brain electrical activity, providing control and monitoring of the timing of the delivery as well as the quantities of odorant involved. The CRO incorporates a...
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| Published in | IEEE transactions on biomedical engineering Vol. 49; no. 8; pp. 852 - 858 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
IEEE
01.08.2002
Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9294 1558-2531 |
| DOI | 10.1109/TBME.2002.800765 |
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| Abstract | The continuous respiration olfactometer (CRO) was designed as a respiration-synchronous method for delivering odorants during recordings of brain electrical activity, providing control and monitoring of the timing of the delivery as well as the quantities of odorant involved. The CRO incorporates a purpose-built electronic system designed with very specific temporal and quantitative characteristics, and is composed of four main parts: the respiratory monitoring apparatus, the odorant/air delivery system, the serial interface device and the respiratory monitoring software. Tests were undertaken to determine the performance of the system with reference to the accuracy and precision of timing and control of odorant delivery. Tests were also undertaken to determine the effects of variations in natural respiration between subjects on the capability of the respiratory monitoring system, using a group of 50 subjects, to test the success of a variable gain control to optimize the range of the digitized respiratory output. The delivery system was able to provide information concerning quantities of air or odorant delivered, and the stimulus timing information required for integration with neurophysiological recording techniques. |
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| AbstractList | The continuous respiration olfactometer (CRO) was designed as a respiration-synchronous method for delivering odorants during recordings of brain electrical activity, providing control and monitoring of the timing of the delivery as well as the quantities of odorant involved. The CRO incorporates a purpose-built electronic system designed with very specific temporal and quantitative characteristics, and is composed of four main parts: the respiratory monitoring apparatus, the odorant/air delivery system, the serial interface device and the respiratory monitoring software. Tests were undertaken to determine the performance of the system with reference to the accuracy and precision of timing and control of odorant delivery. Tests were also undertaken to determine the effects of variations in natural respiration between subjects on the capability of the respiratory monitoring system, using a group of 50 subjects, to test the success of a variable gain control to optimize the range of the digitized respiratory output. The delivery system was able to provide information concerning quantities of air or odorant delivered, and the stimulus timing information required for integration with neurophysiological recording techniques.The continuous respiration olfactometer (CRO) was designed as a respiration-synchronous method for delivering odorants during recordings of brain electrical activity, providing control and monitoring of the timing of the delivery as well as the quantities of odorant involved. The CRO incorporates a purpose-built electronic system designed with very specific temporal and quantitative characteristics, and is composed of four main parts: the respiratory monitoring apparatus, the odorant/air delivery system, the serial interface device and the respiratory monitoring software. Tests were undertaken to determine the performance of the system with reference to the accuracy and precision of timing and control of odorant delivery. Tests were also undertaken to determine the effects of variations in natural respiration between subjects on the capability of the respiratory monitoring system, using a group of 50 subjects, to test the success of a variable gain control to optimize the range of the digitized respiratory output. The delivery system was able to provide information concerning quantities of air or odorant delivered, and the stimulus timing information required for integration with neurophysiological recording techniques. Tests were also undertaken to determine the effects of variations in natural respiration between subjects on the capability of the respiratory monitoring system, using a group of 50 subjects, to test the success of a variable gain control to optimize the range of the digitized respiratory output. The continuous respiration olfactometer (CRO) was designed as a respiration-synchronous method for delivering odorants during recordings of brain electrical activity, providing control and monitoring of the timing of the delivery as well as the quantities of odorant involved. The CRO incorporates a purpose-built electronic system designed with very specific temporal and quantitative characteristics, and is composed of four main parts: the respiratory monitoring apparatus, the odorant/air delivery system, the serial interface device and the respiratory monitoring software. Tests were undertaken to determine the performance of the system with reference to the accuracy and precision of timing and control of odorant delivery. Tests were also undertaken to determine the effects of variations in natural respiration between subjects on the capability of the respiratory monitoring system, using a group of 50 subjects, to test the success of a variable gain control to optimize the range of the digitized respiratory output. The delivery system was able to provide information concerning quantities of air or odorant delivered, and the stimulus timing information required for integration with neurophysiological recording techniques. |
| Author | Owen, C.M. Patterson, J. Simpson, D.G. |
| Author_xml | – sequence: 1 givenname: C.M. surname: Owen fullname: Owen, C.M. email: cowen@swin.edu.au organization: Sensory Neurosci. Lab., Swinbume Univ. of Technol., Victoria, Australia – sequence: 2 givenname: J. surname: Patterson fullname: Patterson, J. – sequence: 3 givenname: D.G. surname: Simpson fullname: Simpson, D.G. |
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| Cites_doi | 10.1016/S0167-8760(99)00020-3 10.1093/chemse/15.2.165 10.1007/978-1-4684-3483-5_19 10.1093/chemse/18.6.751 10.1016/0301-0082(89)90007-5 10.1093/chemse/26.4.351 10.1007/s004050050223 10.3758/BF03327319 10.1068/p120099 10.1016/S0167-8760(96)00061-X 10.1002/lary.5541040517 10.1093/chemse/25.1.1 10.1177/074823379401000528 |
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| References | ref13 Dravnieks (ref8) 1975 ref15 ref14 ref11 ref2 ref1 ref17 ref16 Owen (ref20) 2000; 35 Owen (ref19) ref7 ref9 Lorig (ref12) 1988; 25 ref4 Prah (ref3) 1995 ref6 ref5 Owen (ref21) Tonoike (ref10) 1982; 46 Patterson (ref18) |
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| SubjectTerms | 1-Butanol - administration & dosage Adult Australia Biological and medical sciences Brain Control systems Delivery systems Drug Delivery Systems - instrumentation Drug Delivery Systems - methods Electroencephalography Equipment Design Equipment Failure Analysis Evoked Potentials - physiology Female Food manufacturing Food technology Humans Male Medical sciences Middle Aged Monitoring Monitoring systems Odorants Olfactory Packaging Recording Reproducibility of Results Respiration Respiratory Physiological Phenomena Sensitivity and Specificity Sensory Thresholds - physiology Smell - physiology Stimulation, Chemical System testing Time measurements Timing |
| Title | Development of a continuous respiration olfactometer for odorant delivery synchronous with natural respiration during recordings of brain electrical activity |
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