Supra-threshold inspiratory loads elicit respiratory related evoked potentials in healthy subjects
Respiratory-related evoked potential (RREP) are well-established cerebral correlates of respiratory perceptions. The early components N1/P1 reflect first-order sensory processing of afferent respiratory signals in brain sensorimotor regions while the late ones P2/P3 involve higher-order cognitive pr...
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| Published in | Neurophysiologie clinique Vol. 48; no. 4; p. 221 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
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Elsevier Masson SAS
01.09.2018
Elsevier Science Ltd Elsevier Masson |
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| ISSN | 0987-7053 1769-7131 |
| DOI | 10.1016/j.neucli.2018.06.006 |
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| Abstract | Respiratory-related evoked potential (RREP) are well-established cerebral correlates of respiratory perceptions. The early components N1/P1 reflect first-order sensory processing of afferent respiratory signals in brain sensorimotor regions while the late ones P2/P3 involve higher-order cognitive processing [1]. The current stimuli used to elicited RREP are short occlusions at the onset of an inspiration or a transiant interruption of the inspiration [1]. Durations of the inspiratory occlusion do not affect RREP components [3] while there is a linear relationship between inspiratory loads and RREP components amplitudes. Moreover, an inspiration load needs to reach some threshold value to elicit RREP [1,2]. Here, we investigated whether supra-threshold load inspiration could induce RREP without occlusion.
EEG was synchronously recorded with the respiratory signals in 11 healthy volunteers breathing into a mouthpiece connected to a non-rebreathing valve. Four consecutives inspiration loads were produced by a pressure-threshold device connected to the non-rebreathing valve: no_Load, 10, 20 and 30cmH2O/L/sec. Each load was presented during 5minutes and there is a 3-min resting time between two consecutives loads presentations. Magnitude estimation (ME) for each load was scored with the A1 subscale of the Multi-dimensional profile of dyspnea. Inspiration onset time locked EEG epochs were averaged for each breathing conditions and examined for presence of RREP components.
The no_load condition did not elicit any peak of RREP, but 10, 20 and 30cmH2O/L/sec produced N1 and P3 RREP components with amplitudes correlating with the loads as well as the loads’ magnitude estimation. Mean amplitudes of the N1 and P3 RREP components for 10, 20 and 30cmH2O/L/sec were respectively 3.6±0.5, 5.6±0.9, 3.8±1.3 and −4.5±1.3, −11.4±2.4, −7.6±2.2μV.
Supra-threshold load inspiration could induce RREP without occlusion. This method should be compared with the standard inspiration occlusion method. |
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| AbstractList | Respiratory-related evoked potential (RREP) are well-established cerebral correlates of respiratory perceptions. The early components N1/P1 reflect first-order sensory processing of afferent respiratory signals in brain sensorimotor regions while the late ones P2/P3 involve higher-order cognitive processing [1]. The current stimuli used to elicited RREP are short occlusions at the onset of an inspiration or a transiant interruption of the inspiration [1]. Durations of the inspiratory occlusion do not affect RREP components [3] while there is a linear relationship between inspiratory loads and RREP components amplitudes. Moreover, an inspiration load needs to reach some threshold value to elicit RREP [1,2]. Here, we investigated whether supra-threshold load inspiration could induce RREP without occlusion.
EEG was synchronously recorded with the respiratory signals in 11 healthy volunteers breathing into a mouthpiece connected to a non-rebreathing valve. Four consecutives inspiration loads were produced by a pressure-threshold device connected to the non-rebreathing valve: no_Load, 10, 20 and 30cmH2O/L/sec. Each load was presented during 5minutes and there is a 3-min resting time between two consecutives loads presentations. Magnitude estimation (ME) for each load was scored with the A1 subscale of the Multi-dimensional profile of dyspnea. Inspiration onset time locked EEG epochs were averaged for each breathing conditions and examined for presence of RREP components.
The no_load condition did not elicit any peak of RREP, but 10, 20 and 30cmH2O/L/sec produced N1 and P3 RREP components with amplitudes correlating with the loads as well as the loads’ magnitude estimation. Mean amplitudes of the N1 and P3 RREP components for 10, 20 and 30cmH2O/L/sec were respectively 3.6±0.5, 5.6±0.9, 3.8±1.3 and −4.5±1.3, −11.4±2.4, −7.6±2.2μV.
Supra-threshold load inspiration could induce RREP without occlusion. This method should be compared with the standard inspiration occlusion method. Introduction Respiratory-related evoked potential (RREP) are well established cerebral correlates of respiratory perceptions. The early components N1/P1 reflect first-order sensory processing of afferent respiratory signals in brain sensorimotor regions while the late ones P2/P3 involve higher-order cognitive processing [1]. The current stimuli used to elicited RREP are short occlusions at the onset of an inspiration or a transiant interruption of the inspiration [1]. Durations of the inspiratory occlusion do not affect RREP components [2] while there is a linear relationship between inspiratory loads and RREP components amplitudes. Moreover, an inspiration load need to reach some threshold value to elicit RREP [1,3]. Here, we investigated whether supra-threshold load inspiration could induce RREP without occlusion. Methods: EEG was synchronously recorded with the respiratory signals in 11 healthy volunteers breathing into a mouthpiece connected to a non-rebreathing valve. Four consecutives inspiration loads were produced by a pressure-threshold device connected to the non-rebreathing valve: no_Load, 10, 20 and 30 cmH2O/L/sec. Each load was presented during 5 minutes and there is a 3-min resting time between two consecutives loads presentations. Magnitude estimation (ME) for each load was scored with the A1 subscale of the Multi-dimensional profile of dyspnea. Inspiration onset time locked EEG epochs were averaged for each breathing conditions and examined for presence of RREP components. Results: The no_load condition did not elicit any peak of RREP, but 10, 20 and 30 cmH2O/L/sec produced N1 and P3 RREP components with amplitudes correlating with the loads as well as the loads' magnitude estimation. Mean amplitudes of the N1 and P3 RREP components for 10, 20 and 30 cmH2O/L/sec were respectively 3.6 ±0.5, 5.6 ±0.9, 3.8 ±1.3 and-4.5 ±1.3,-11.4 ±2.4,-7.6 ±2.2 µV. Conclusion: Supra-threshold load inspiration could induce RREP without occlusion. This method should be compared with the standard inspiration occlusion method. Objectives Respiratory-related evoked potential (RREP) are well-established cerebral correlates of respiratory perceptions. The early components N1/P1 reflect first-order sensory processing of afferent respiratory signals in brain sensorimotor regions while the late ones P2/P3 involve higher-order cognitive processing [1]. The current stimuli used to elicited RREP are short occlusions at the onset of an inspiration or a transiant interruption of the inspiration [1]. Durations of the inspiratory occlusion do not affect RREP components [3] while there is a linear relationship between inspiratory loads and RREP components amplitudes. Moreover, an inspiration load needs to reach some threshold value to elicit RREP [1], [2]. Here, we investigated whether supra-threshold load inspiration could induce RREP without occlusion. Methods EEG was synchronously recorded with the respiratory signals in 11 healthy volunteers breathing into a mouthpiece connected to a non-rebreathing valve. Four consecutives inspiration loads were produced by a pressure-threshold device connected to the non-rebreathing valve: no_Load, 10, 20 and 30 cmH2O/L/sec. Each load was presented during 5 minutes and there is a 3-min resting time between two consecutives loads presentations. Magnitude estimation (ME) for each load was scored with the A1 subscale of the Multi-dimensional profile of dyspnea. Inspiration onset time locked EEG epochs were averaged for each breathing conditions and examined for presence of RREP components. Results The no_load condition did not elicit any peak of RREP, but 10, 20 and 30 cmH2O/L/sec produced N1 and P3 RREP components with amplitudes correlating with the loads as well as the loads’ magnitude estimation. Mean amplitudes of the N1 and P3 RREP components for 10, 20 and 30 cmH2O/L/sec were respectively 3.6 ± 0.5, 5.6 ± 0.9, 3.8 ± 1.3 and −4.5 ± 1.3, −11.4 ± 2.4, −7.6 ± 2.2 μV. Conclusion Supra-threshold load inspiration could induce RREP without occlusion. This method should be compared with the standard inspiration occlusion method. |
| Author | Petitjean, Michel Chevallier, Sylvain Bussel, Bernard Prigent, Hélène Bao, Guillaume Lofaso, Fréderic Azabou, Eric Marlats, Fabienne Mayaud, Louis |
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| Keywords | Inspiratory load Dyspnea Respiratory related evoked potentials |
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| References | Knafelc, Davenport (bib0025) 1999; 87 Webster, Colrain (bib0030) 2000; 37 Davenport, Chan, Zhang, Chou (bib0020) 2007; 102 Davenport (10.1016/j.neucli.2018.06.006_bib0020) 2007; 102 Webster (10.1016/j.neucli.2018.06.006_bib0030) 2000; 37 Knafelc (10.1016/j.neucli.2018.06.006_bib0025) 1999; 87 |
| References_xml | – volume: 37 start-page: 310 year: 2000 end-page: 318 ident: bib0030 article-title: The respiratory-related evoked potential: effects of attention and occlusion duration publication-title: Psychophysiology – volume: 87 start-page: 516 year: 1999 end-page: 522 ident: bib0025 article-title: Relationship between magnitude estimation of resistive loads, inspiratory pressures, and the RREP P(1) peak publication-title: J Appl Physiol – volume: 102 start-page: 276 year: 2007 end-page: 285 ident: bib0020 article-title: Detection threshold for inspiratory resistive loads and respiratory-related evoked potentials publication-title: J Appl Physiol – volume: 102 start-page: 276 year: 2007 ident: 10.1016/j.neucli.2018.06.006_bib0020 article-title: Detection threshold for inspiratory resistive loads and respiratory-related evoked potentials publication-title: J Appl Physiol doi: 10.1152/japplphysiol.01436.2005 – volume: 37 start-page: 310 year: 2000 ident: 10.1016/j.neucli.2018.06.006_bib0030 article-title: The respiratory-related evoked potential: effects of attention and occlusion duration publication-title: Psychophysiology doi: 10.1111/1469-8986.3730310 – volume: 87 start-page: 516 year: 1999 ident: 10.1016/j.neucli.2018.06.006_bib0025 article-title: Relationship between magnitude estimation of resistive loads, inspiratory pressures, and the RREP P(1) peak publication-title: J Appl Physiol doi: 10.1152/jappl.1999.87.2.516 |
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| Snippet | Respiratory-related evoked potential (RREP) are well-established cerebral correlates of respiratory perceptions. The early components N1/P1 reflect first-order... Objectives Respiratory-related evoked potential (RREP) are well-established cerebral correlates of respiratory perceptions. The early components N1/P1 reflect... Introduction Respiratory-related evoked potential (RREP) are well established cerebral correlates of respiratory perceptions. The early components N1/P1... |
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| SubjectTerms | Auditory evoked potentials Cerebral blood flow Cognition & reasoning Cognitive ability Dyspnea EEG Electroencephalography Human health and pathology Information processing Inspiratory load Ischemia Life Sciences Neurons and Cognition Pulmonology and respiratory tract Respiration Respiratory diseases Respiratory related evoked potentials Sensorimotor system Sensory integration Sensory neurons |
| Title | Supra-threshold inspiratory loads elicit respiratory related evoked potentials in healthy subjects |
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