Summary
Five subjects were tested to determine the threshold for detection of au added resistance to inspiration in three tests, one at rest and two with exercise (mild = 50 W; moderate = 100 W) on a cycle ergometer. Changes in the breathing pattern were examined at added resistances near the perceptual threshold. Added inspiratory resistances with a 50% probability of detection were very variable at rest; they decreased significantly from rest (250 Pa · l−1 · s−1) to moderate exercise (98 Pa · l−1 · s−1) in four subjects. It is suggested that physical exercise may cause discomfort even when workers wearing a respirator do not have any abnormal sensation during sedentary work. Breathing patterns were compared between resistance loaded and unloaded breathing during each test. Decreases in inspiratory peak flow and acceleration of flow early in inspiration were found in resistance loaded breathing in almost all tests and a tendency for tidal volume to decrease was found during moderate exercise only. The ratios of resistance loaded to unloaded breathing for inspiratory time (t i) and total time (t t) tended to be greater in the detected than in the undetected responses at rest and during mild exercise but not during moderate exercise. This would imply that further prolongation oft i andt t in the detected responses was attributable to conscious or subconscious aspects of the resistance loading responses; however, these adjustments in breathing, which reduce frequency, would be less likely to occur as the work rate increases.
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References
Axen K, Haas SS (1979) Range of first-breath ventilatory responses to added mechanical loads in naive men. J Appl Physiol 46:743–751
Bennett ED, Jayson MIV, Rubenstein D, Campbell EJM (1962) The ability of man to detect added non-elastic loads to breathing. Clin Sci 23:155–162
Burdon JGW, Killian KJ, Campbell EJM (1982) Detection latency of added loads to breathing. Clin Sci 63:11–15
Burdon JGW, Killian KJ, Stubbing DG, Campbell EJM (1983) Effect of background loads on the perception of added loads to breathing. J Appl Physiol 54:1222–1228
Burki NK, Mitchell K, Chaudhary BA, Zechman FW (1978) The ability of asthmatics to detect added resistive loads. Am Rev Respir Dis 117:71–75
Campbell EJM, Howell JBL (1963) The sensation of breathlessness. Br Med Bull 19:36–40
Campbell EJM, Freedman S, Smith PS, Taylor ME (1961) The ability of man to detect added elastic loads to breathing. Clin Sci 20:223–231
Daubenspeck JA, Bennett FM (1983) Immediate human breathing pattern responses to loads near the perceptual threshold. J Appl Physiol 55:1160–1166
Harber P, SooHoo K (1984) Effects of industrial respirators on respiratory pattern and load sensitivity. Am Rev Respir Dis [Suppl] 129:A151-A152
Harber P, Tamimie J, Bhattacharya A, Barber M (1984) Effects of exercise using industrial respirators. Am Ind Hyg Assoc J 45:603–609
Harber P, Shimozaki S, Barrett T, Fine G (1988a) Determinants of pattern of breathing during respirator use. Am J Ind Med 13:253–262
Harber P, SooHoo K, Lew M (1988b) Effects of industrial respirators on respiratory timing and psychophysiologic load sensitivity. J Occup Med 30:256–262
Hudgel DW, Kinsman RA (1983) Interactions among behavioral style, ventilatory drive, and load recognition. Am Rev Respir Dis 128:246–248
Hudgel DW, Cooperson DM, Kinsman RA (1982) Recognition of added resistive loads in asthma. Am Rev Respir Dis 126:121–125
ImHof V, West P, Younes M (1986) Steady-state response of normal subjects to inspiratory resistive load. J Appl Physiol 60:1471–1481
Kawakami Y, Yoshikawa T, Shida A, Asanuma Y, Murao M (1982) Control of breathing in young twins. J Appl Physiol 52:537–542
Killian KJ, Campbell EJM, Howell JBL (1979) The effect of increased ventilation on resistive load discrimination. Am Rev Respir Dis 120:1233–1238
Killian KJ, Mahutte CK, Howell JBL, Campbell EJM (1980) Effect of timing, flow, lung volume, and threshold pressures on resistive load detection. J Appl Physiol 49:958–963
Lerman Y, Shefer A, Epstein Y, Keren G (1983) External inspiratory resistance of protective respiratory devices: effects on physical performance and respiratory function. Am J Ind Med 4:733–740
Louhevaara V, Smolander J, Korhonen O, Tuomi T (1986) Effects of industrial respirators on breathing pattern at different work levels. Eur J Appl Physiol 55:142–146
Mahutte CK, Campbell EJM, Killian KJ (1983) Theory of resistive load detection. Respir Physiol 51:131–139
Newsom Davis J (1967) Contribution of somatic receptors in the chest wall to detection of added inspiratory airway resistance. Clin Sci 33:249–260
Raven PB, Dodson AT, Davis TO (1979) The physiological consequences of wearing industrial respirators: a review. Am Ind Hyg Assoc J 40:517–534
Revelette WR, Zechman FW Jr (1984) Effect of background loading on perception of inspiratory loads. J Appl Physiol 56:404–410
Sato M, Yamasaki K, Tsuda T (1976) Estimation of maximal oxygen intake from submaximal works at air temperature of 20°C, 30°C, and 40°C. J Anthropol Soc Nippon 84:259–265
Shimozaki S, Harber P, Barrett T, Loisides P (1988) Subjective tolerance of respirator loads and its relationship to physiological effects. Am Ind Hyg Assoc J 49:108–116
Snedecor GW, Cochran WG (1967) Statistical methods, 6th edn [in Japanese]. Iowa State University Press (1972). Iwanamishoten, Tokyo, pp 376–377
Stubbing DG, Killian KJ, Campbell EJM (1983) Weber's law and resistive load detection. Am Rev Respir Dis 127:5–7
Wiley RL, Zechman FW Jr (1966/67) Perception of added airflow resistance in humans. Respir Physiol 2:73–87
Yasukouchi A (1986a) Characteristics of pulmonary diffusing capacity in Japanese — on the sexual and ethnic differences. J Anthropol Soc Nippon 94:19–32
Yasukouchi A (1986b) Characteristics of pulmonary diffusing capacity in Japanese — aging effect on the sex and ethnic differences. Ann Physiol Anthropol 5:27–37
Yasukouchi A, Serita F (1986) On the analysis of the expiratory pattern by personal computer. Ann Physiol Anthropol 5:247–248
Yasukouchi A, Serita F (1987) Detection of added resistive loads to breathing (abstract in Japanese). Jpn J Ind Health 29:752
Yokoyama T, Mitsufuji M (1972) Statistical representation of the ventilatory capacity of 2,247 healthy Japanese adults. Chest 61:655–661
Zechman FW, Burki NK (1976) Tracking procedure to assess load detection threshold. Chest 70:165–168
Zechman FW, Davenport PW (1978) Temporal differences in the detection of resistive and elastic loads to breathing. Respir Physiol 34:267–277
Zechman FW, Wiley RL, Davenport PW, Burki NK (1979) Load detection latencies and temporal patterns of added load sensation. Am Rev Respir Dis [Suppl] 119:73–75
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Yasukouchi, A., Serita, F. Changes in breathing pattern at loads near perceptual threshold at different work levels. Europ. J. Appl. Physiol. 60, 337–345 (1990). https://doi.org/10.1007/BF00713496
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DOI: https://doi.org/10.1007/BF00713496