Relation Between CIA and Principal Variables of Breathing Pattern
Relationships between output from the central respiratory center and principal variables of breathing patterns were analyzed by a program, designated as MAP (multi-analysis program) using a microcomputer. Written in BASIC with 370 program steps, MAP processes raw data into eleven linear and nonlinea...
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| Published in | Nihon Kyōbu Shikkan Gakkai zasshi Vol. 24; no. 11; pp. 1266 - 1274 |
|---|---|
| Main Author | |
| Format | Journal Article |
| Language | Japanese |
| Published |
Japan
The Japanese Respiratory Society
01.11.1986
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0301-1542 1883-471X |
| DOI | 10.11389/jjrs1963.24.1266 |
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| Abstract | Relationships between output from the central respiratory center and principal variables of breathing patterns were analyzed by a program, designated as MAP (multi-analysis program) using a microcomputer. Written in BASIC with 370 program steps, MAP processes raw data into eleven linear and nonlinear regression lines and displays the graphs on a CRT screen within 70 to 100 seconds. Twenty healthy normal men and women participated as subjects in this study. Ventilatory and occlusion pressure (p0.1) response to CO2 were 1.92±1.13L/mmHg, and 0.57±43cmH2O/mmHg respectively. These data were in accordance with the normal values reported elsewhere. Three basic types of patterns pertaining to the changes of VT, T1 and TE in response to progressive hypercapnia were demonstrated on the newly devised VT, T1 and TE diagrams. Four subject showed no significant changes in T1 and TE (A type). Six subjects demonstrated remarkable shortening of TE (B type). Both T1 and TE were shortened in ten subjects (C type). P0.1 (CIA) related well with mean inspiratory flow VT/T1 in all types. A significant linear correlation between P0.1 and 1/T1 (r=0.968±0.023) were noted in ten subjects in type C. These breathing patterns were not related to anthropometric data nor pulmonary mechanics of the subjects in this study. Inspiratory duty cycle T1/TTOT changed significantly only in type B. While ventilation was increasing, tidal volume increased up to 50% of FEV1.0, and thereafter shortening of T1 resulted in an increase in mean inspiratory flow VT/T1. Effective compliance was 184.0±78.9ml/cmH2O when tidal volume increased from resting level to 50% of FEV1.0. Effective impedance was 7.24±3.02cmH2O/L/sec. The results of this new analysis of breathing patterns were considered to be valuable in studying breathing control. |
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| AbstractList | Relationships between output from the central respiratory center and principal variables of breathing patterns were analyzed by a program, designated as MAP (multi-analysis program) using a microcomputer. Written in BASIC with 370 program steps, MAP processes raw data into eleven linear and nonlinear regression lines and displays the graphs on a CRT screen within 70 to 100 seconds. Twenty healthy normal men and women participated as subjects in this study. Ventilatory and occlusion pressure (p0.1) response to CO2 were 1.92±1.13L/mmHg, and 0.57±43cmH2O/mmHg respectively. These data were in accordance with the normal values reported elsewhere. Three basic types of patterns pertaining to the changes of VT, T1 and TE in response to progressive hypercapnia were demonstrated on the newly devised VT, T1 and TE diagrams. Four subject showed no significant changes in T1 and TE (A type). Six subjects demonstrated remarkable shortening of TE (B type). Both T1 and TE were shortened in ten subjects (C type). P0.1 (CIA) related well with mean inspiratory flow VT/T1 in all types. A significant linear correlation between P0.1 and 1/T1 (r=0.968±0.023) were noted in ten subjects in type C. These breathing patterns were not related to anthropometric data nor pulmonary mechanics of the subjects in this study. Inspiratory duty cycle T1/TTOT changed significantly only in type B. While ventilation was increasing, tidal volume increased up to 50% of FEV1.0, and thereafter shortening of T1 resulted in an increase in mean inspiratory flow VT/T1. Effective compliance was 184.0±78.9ml/cmH2O when tidal volume increased from resting level to 50% of FEV1.0. Effective impedance was 7.24±3.02cmH2O/L/sec. The results of this new analysis of breathing patterns were considered to be valuable in studying breathing control. |
| Author | Tamaya, Seiji |
| Author_xml | – sequence: 1 fullname: Tamaya, Seiji organization: Department of Emergency and Critical Care Medicine, School of Medicine, Tokai University |
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| References | 4) Read, D. J. C.: A clinical method for assessing the ventilatory response to CO2. Australas, Ann. Med., 16: 20, 1967. 7) Burns, D., Spragg, R. G. & Moser, K. M.: The effective impedance of the respiratory system with increasing ventilatory drive in sheep. Am. Rev. Resp. Dis., 123 (Suppl.): 203, 1981. 3) Magdy, K. & Remmers, J. E.: Control of tidal volume and respiratory frequency: Regulation of breathing, edited by Hornbein, T. F., Lung Biology in Health and Disease, vol. 17. Part 1, Exective Editor C. Lenfant, New York Marcel Dekker, Inc., 1981, p. 621. 6) Remmers, J. E.: Analysis of ventilatory response. Chest, vol. 70 (Suppl.): 134, 1976. 5) 玉谷青史: P0.1. 呼吸, vol. 13, 763, 1984. 14) Clark, F. J. & von Euler, C.: On the depth and rate of breathing. J. Physiol. (London), 222: 267, 1972. 8) Hey, E. N., Lloyd, B. B., Cunningham, D. J. C., Jukes, M. G. H. & Bolton, D. P. G.: Effects of various respiratory stimuli on the depth and frequency of breathing in man. Respir. Physiol., 1: 193, 1966. 10) 吉川隆志, 山本宏司, 西村正治, 浅沼義英, 川上義和, 村尾誠: 換気応答自動測定による健常者および慢性肺気腫患者の呼吸調節機能の解析. 日胸疾会誌, 20: 530, 1982. 12) Gautier, H.: Pattern of breathing during hypoxia or hypercapnia of the awake or anesthetized cats. Resp. Physiol., 27: 193, 1976. 9) Sullivan, T. V. & Yu, P.: Reproducibility of CO2 response curves with ten minutes separating each rebreathing test. Am. Rev. Resp. Dis., 129: 23, 1984. 13) Grunstein, M. M., Younes, M. & Milic-Emili, J.: Control of tidal volume and respiratory frequency in anesthetized cats. J. Appl. Physiol., 35: 463, 1973. 1) Milic-Emili, J.: Recent advances in clinical assessment of control of breathing. Lung, 160: 1, 1982. 16) Mead, J.: Control of respiratory frequency. J. Appl. Physiol., 15: 325, 1960. 11) Phillipson, E. A.: Vagal control of breathing pattern independent of lung inflation in conscious dogs. J. Appl. Physiol., 37: 183, 1974. 2) Whitelaw, W. A., Derenne, J. P. H. & Milic-Emili, J.: Occlusion pressure as a measure of respiratory center output in conscious man. Respi. Physiol., 23: 181, 1975. 15) Newsom-Davis, J. & Stagg, D.: Interrelationships of the volume and time components of individual breaths in resting man. J. Physiol. (London), 245: 481, 1975. |
| References_xml | – reference: 4) Read, D. J. C.: A clinical method for assessing the ventilatory response to CO2. Australas, Ann. Med., 16: 20, 1967. – reference: 5) 玉谷青史: P0.1. 呼吸, vol. 13, 763, 1984. – reference: 7) Burns, D., Spragg, R. G. & Moser, K. M.: The effective impedance of the respiratory system with increasing ventilatory drive in sheep. Am. Rev. Resp. Dis., 123 (Suppl.): 203, 1981. – reference: 13) Grunstein, M. M., Younes, M. & Milic-Emili, J.: Control of tidal volume and respiratory frequency in anesthetized cats. J. Appl. Physiol., 35: 463, 1973. – reference: 1) Milic-Emili, J.: Recent advances in clinical assessment of control of breathing. Lung, 160: 1, 1982. – reference: 11) Phillipson, E. A.: Vagal control of breathing pattern independent of lung inflation in conscious dogs. J. Appl. Physiol., 37: 183, 1974. – reference: 16) Mead, J.: Control of respiratory frequency. J. Appl. Physiol., 15: 325, 1960. – reference: 8) Hey, E. N., Lloyd, B. B., Cunningham, D. J. C., Jukes, M. G. H. & Bolton, D. P. G.: Effects of various respiratory stimuli on the depth and frequency of breathing in man. Respir. Physiol., 1: 193, 1966. – reference: 3) Magdy, K. & Remmers, J. E.: Control of tidal volume and respiratory frequency: Regulation of breathing, edited by Hornbein, T. F., Lung Biology in Health and Disease, vol. 17. Part 1, Exective Editor C. Lenfant, New York Marcel Dekker, Inc., 1981, p. 621. – reference: 6) Remmers, J. E.: Analysis of ventilatory response. Chest, vol. 70 (Suppl.): 134, 1976. – reference: 12) Gautier, H.: Pattern of breathing during hypoxia or hypercapnia of the awake or anesthetized cats. Resp. Physiol., 27: 193, 1976. – reference: 9) Sullivan, T. V. & Yu, P.: Reproducibility of CO2 response curves with ten minutes separating each rebreathing test. Am. Rev. Resp. Dis., 129: 23, 1984. – reference: 2) Whitelaw, W. A., Derenne, J. P. H. & Milic-Emili, J.: Occlusion pressure as a measure of respiratory center output in conscious man. Respi. Physiol., 23: 181, 1975. – reference: 10) 吉川隆志, 山本宏司, 西村正治, 浅沼義英, 川上義和, 村尾誠: 換気応答自動測定による健常者および慢性肺気腫患者の呼吸調節機能の解析. 日胸疾会誌, 20: 530, 1982. – reference: 14) Clark, F. J. & von Euler, C.: On the depth and rate of breathing. J. Physiol. (London), 222: 267, 1972. – reference: 15) Newsom-Davis, J. & Stagg, D.: Interrelationships of the volume and time components of individual breaths in resting man. J. Physiol. (London), 245: 481, 1975. |
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| Title | Relation Between CIA and Principal Variables of Breathing Pattern |
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