Abstract
Exercise and hyperventilation are two stimuli which are known to provoke acute airway narrowing in patients with clinically recognised asthma. The sensitivity of a subject to the effects of exercise or hyperventilation is often expressed by symptoms of cough, dyspnea or wheezing and frequently occur as the first sign of asthma, particularly in childhood.
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References
Ahmed T, Danta I (1988) Effect of cold air exposure and exercise on nonspecific bronchial reactivity. Chest 93: 1132–1136
Ahrens RC, Bonham AC, Maxwell GA, Weinberger MM (1984) A method for comparing the peak intensity and duration of action of aerosolized bronchodilators using bronchoprovocation with methacholine. Am Rev Respir Dis 129: 903–906
Anderson SD (1972) Physiological aspects of bronchoconstriction. Ph D Thesis, University of London
Anderson SD (1984) Is there a unifying hypothesis for exercise-induced asthma. J Allergy Clin Immunol 73: 660–665
Anderson SD (1985) Issues in exercise-induced asthma. J Allergy Clin Immuol 76: 763–772
Anderson SD (1988) Exercise-induced asthma. In: Middleton E, Reed C, Ellis E, Adkinson NF, Yunginger JW (eds) Allergy: Principles and Practice, vol 2, 3rd edn. Mosby, St Louis, pp 1156–1175
Anderson SD, Daviskas E, Schoeffel RE, Unger SF (1979) Prevention of severe exercise-induced asthma with hot humid air. Lancet 2: 629
Anderson SD, Daviskas E, Smith CM (1989) Exercise-induced asthma: a difference in opinion regarding the stimulus. Allergy Proc 10: 215–226.
Anderson SD, McEvoy JDS, Bianco S (1972) Changes in lung volumes and airway resistance after exercise in asthmatic subjects. Am Rev Respir Dis 106: 30–37
Anderson SD, Schoeffel RE (1983) The importance of standardizing exercise tests in the evaluation of asthmatic children. In: Oseid S, Edwards A (eds) The asthmatic child in play and sport. Pitman Medical London, pp 145–158
Anderson SD, Schoeffel RE (1985) Standardization of exercise testing in the asthmatic patient: a challenge in itself. In: Hargreave FE, Woolcock AJ (eds) Airway responsiveness: measurement and interpretation. Proceedings of a workshop, edited by Astra Pharmaceuticals Canada, Ontario, pp 51–59
Anderson SD, Schoeffel RE, Black JL, Daviskas E (1985) Airway cooling as the stimulus to exercise-induced asthma. A re-evaluation. Eur J Respir Dis 67: 20–30
Anderson SD, Schoeffel RE, Follet R, Perry CP, Daviskas E, Kendall M (1982) Sensitivity to heat and water loss at rest and during exercise in asthmatic patients. Eur J Respir Dis 63: 459–471
Anderson SD, Seale JP, Ferris L, Schoeffel RE, Lindsay DA (1979) An evaluation of pharmacotherapy for exercise-induced asthma. J Allergy Clin Immunol 64: 612–624
Anderson SD, Silverman M, Konig P, Godfrey S (1975) Exercise-induced asthma. A Review. Br J Dis Chest 69: 1–39
Anderson SD, Smith CM (1989) The use of nonisotonic aerosols for evaluating bronchial hyperresponsiveness. In: Spector SL (ed) Provocating challenge procedures: background and methodolgy. Futura, Mt Kisco, pp 227–252
Anderton RC, Cuff MT, Frith PA, Cockcroft DW, Morse JLC, Jones NL, Hargreave FE (1979) Bronchial responsiveness to inhaled histamine and exercise. J Allergy Clin Immunol 63: 315–320
Aquilina AT (1983) Comparison of airway reactivity induced by histamine, methacholine, and isocapnic hyperventilation in normal and asthmatic subjects. Thorax 38: 766–770
Assoufi BK, Dally AJ, Newman-Taylor A, Denison DM (1986) Cold air test: a simplified standard method for airway reactivity. Bull Eur Physiopathol Respir 22: 349–357
Banner AS, Green J, O’Connor M (1984) Relation of respiratory water loss to coughing after exercise. N Engl J Med 311: 883–886
Bar-Yishay E, Ben-Dov I, Godfrey S (1983) Refractory period after hyperventilation-induced asthma. Am Rev Respir Dis 127: 572–574
Bar-Yishay E, Godfrey S (1984) Mechanisms of exercise-induced asthma. Lung 162: 195–204
Bar-Yishay E, Gur I, Inbar 0 (1982) Differences between running and swimming as stimuli for exercise-induced asthma. Eur J Appl Physiol 48: 387–397
Belcher NG, Lee TH, Rees PJ (1979) Airway responses to hypertonic saline, exercise and histamine challenges in bronchial asthma. J Allergy Clin Immunol 63: 315–320
Ben-Dov I, Bar-Yishay E, Godfrey S (1982) Exercise-induced asthma without respiratory heat loss. Thorax 37: 630–631
Bon-Dov I, Gur I, Bar-Yishay E, Godfrey S (1983) Refractory period following induced asthma: contributions of exercise and isocapnic hyperventilation. Thorax 38: 849–853
Boulet LP, Legris C, Thibault L, Turcotte H (1987) Comparative bronchial responses to hyperosmolar saline and methacholine in asthma. Thorax 42: 953–958
Breslin FJ, McFadden ER, Ingram RH (1980) The effects of cromolyn sodium on the airway response to hyperpnea and cold air in asthma. Am Rev Respir Dis 122: 11–16
Buckley JM, Souhrada JF (1975) A comparison of pulmonary function tests in detecting exercise-induced bronchoconstriction. Pediatrics 56: 883–889
Burr NL, Eldridge BA, Borysiewicz LK (1974) Peak expiratory flow rates before and after exercise in schoolchildren. Arch Dis Child 49: 923–926
Caire N, Cartier A, Ghezzo H, Malo JL (1989) Influence of the duration of inhalation of cold dry air on the resulting bronchoconstriction in asthmatic subjects. Eur Respir J 2: 741–745
Chan-Yeung MM, Vyas MN, Grzybowski S (1971) Exercise-induced asthma. Am Rev Respir Dis 104: 915–923
Chen WY, Horton DJ (1977) Heat and water loss from the airways and exercise-induced asthma. Respiration 34: 305–313
Cropp GJ (1975) Grading, time course, and incidence of exercise-induced airway obstruction and hyperinflation in asthmatic children. Paediatrics 56: 868–879
Deal EC, McFadden ER, Ingram RH, Breslin F, Jaeger JJ (1980) Airway responsiveness to cold air and hyperpnea in normal subjects and in those with hay fever and asthma. Am Rev Respir Dis 121: 621–628
Deal EC, McFadden ER, Ingram RH, Jaeger JJ (1979) Hyperpnea and heat flux: initial reaction sequence in exercise-induced asthma. J Appl Physiol Respir Environ Exercise Physiol 46: 476–483
Deal EC, McFadden ER, Ingram RH, Strauss RH, Jaeger JJ (1979) Role of respiratory heat exchange in production of exercise-induced asthma. J Appl Physiol Respir Environ Exercise Physiol 46: 467–475
Decramer M, Demedts M, van de Woestijne KP (1984) Isocapnic hyperventilation with cold air in healthy non-smokers, smokers and asthmatic subjects. Bull Eur Physiopathol Respir 20: 237–243
Dejaegher P, Rochette F, Clarysse I, Demedis M (1987) Hypocapnic hyperventilation versus isocapnic hyperventilation with ambient air or with dry air in asthmatics. Eur J Respir Dis 70: 102–109
Dente FL, Del Bono L, Del Bono W (1986) Cold-air isocapnic hyperventilation test in the study of the effects and duration of action of duovent. Comparison with fenoterol, salbutamol, disodium cromoglycate and placebo. Respiration 50 [Suppl 2]: 1965–2005
Desjardins A, De Luca S, Cartier A, L’Archeveque J, Ghezzo H, Malo JL (1988) Nonspecific bronchial hyperresponsiveness to inhaled histamine and hyperventilation of cold dry air in subjects with respiratory symptoms of uncertain etiology. Am Rev Respir Dis 137: 1020–1025
Eggleston PA (1975) Exercise-induced asthma in children with intrinsic and extrinsic asthma. Pediatrics 56: 856–859
Eggleston PA, Kagey-Sobotka A, Lichtenstein LM (1987) A comparison of the osmotic activation of basophils and human lung mast cells. Am Rev Respir Dis 135: 1043–1048
Eschenbacher WL, Sheppard D (1985) Respiratory heat loss is not the sole stimulus for bronchoconstriction induced by isocapnic hyperpnea with dry air. Am Rev Respir Dis 131: 894–901
Fabbri LM, Mapp CE, Hendrick DJ (1984) Comparison of ultrasonically nebulized distilled water and hyperventilation with cold air in asthma. Ann Allergy 53: 172–177
Filuk RB, Serrette C, Anthonisen NR (1989) Comparison of responses to methacholine and cold air in patients suspected of having asthma. Chest 95: 948–952
Foresi A, Mattoli S, Corbo GM, Polidori G, Ciappi G (1986) Comparison of bronchial responses to ultrasonically nebulized distilled water, exercise, and methacholine in asthma. Chest 90: 822–826
Freed AN, Kelly LJ, Menkes HA (1987) Airflow-induced bronchospasm. Imbalance between airway cooling and airway drying. Am Rev Respir Dis 136: 595–599
Geller DE, Morgan WJ, Cota KA, Wright AL, Taussig LM (1988) Airway responsiveness to cold, dry air in normal infants. Pediatr Pulmonol 4: 90–97
Gilbert IA, Fouke JM, McFadden ER (1987) Heat and waterflux in the intrathoracic airways and exercise-induced asthma. J Appl Physiol 63: 1681–1691
Gillioz F, Orehek J (1983) Reponse bronchique au carbachol et a l’hyperventilation isocapnique dans l’asthme. Bull Eur Physiophathol Respir 19: 563–566
Godfrey S (1989) Bronchial challenge by exercise or hyperventilation. In: Spector SL (eds) Provocative challenge procedures: background and methodology. Futura, Mt Kisco, pp 365–394
Hahn A, Anderson SD, Morton AR, Black JL, Fitch KD (1984) A re-interpretation of the effect of temperature and water content of the inspired air in exercise-induced asthma. Am Rev Respir Dis 130: 575–579
Hahn AG, Nogrady SG, Tumulty DMcA, Lawrence SR, Morton AR (1984) Histamine reactivity during the refractory period after exercise induced asthma. Thorax 39: 919–923
Hargreave FE, Dolovich J, Boulet LP (1983) Inhalation provocation tests. Sem-in Respir Med 4: 224–236
Herxheimer H (1946) Hyperventilation asthma. Lancet 1: 83–87
Hodgson WC, Cotton DJ, Werner GD, Cockcroft DW, Dosman JA (1984) Relationship between bronchial response to respiratory heat exchange and nonspecific airways reactivity in asthmatic patients. Chest 85: 465–470
Houdas Y, Colin J (1966) Echanges thermiques et hydriques par les voies respiratoires de l’homme. Pathol Biol 14: 229–238
Ingelstedt S (1956) Studies on conditioning of air in the respiratory tract. Acta Otolaryngol (Stockh) 131: 1S - 80S
Jones RS, Buston MH, Wharton MJ (1962) The effect of exercise on ventilatory function on the child with asthma. Br J Dis Chest 56: 78–86
Juniper EF, Latimer KM, Morris MM, Roberts RS, Hargreave FE (1986) Airway responses to hyperventilation of cold dry air: duration of protection by cromolyn sodium. J Allergy Clin Immunol 78: 387–391
Kilham H, Tooley M, Silverman M (1979) Running, walking, and hyperventilation causing asthma in children. Thorax 34: 582–586
Kivity S, Souhrada JF (1980) Hyperpnea: the common stimulus for bronchospasm in asthma during exercise and voluntary isocapnic hyperpnea. Respiration 40: 169–177
Lebecque OP, Spiers S, Lapierre JG, Lamarre A, Zinman R, Coates AL (1987) Histamine challenge test in children using forced oscillation to measure total respiratory resistance. Chest 92: 313–318
Lee TH, Assoufi BK, Kay AB (1983) The link between exercise, respiratory heat exchange, and the mast cell in bronchial asthma. Lancet i: 520–522
Lim TK, Pride NB, Ingram RH (1987) Effects of volume history during spontaneous and acutely induced air-flow obstruction in asthma. Am Rev Respir Dis 135: 591–596
Malo JL, L’Archeveque J, Cartier A (1990) Comparative effects of volume history on bronchoconstriction induced by hyperventilation and methacholine in asthmatic subjects. Eur Respir J 3: 639–643
Malo JL, Cartier A, L’Archeveque J, Ghezzo H, Martin RR (1986) Cold air inhalation has a cumulative bronchospastic effect when inhaled in consecutive doses for progressively increasing degrees of ventilation. Am Rev Respir Dis 134: 990–993
Malo JL, Cartier A, L’Archeveque J, Ghezzo M, Martin RR (1988) Kinetics of the recovery from bronchial obstruction due to hyperventilation of cold air in asthmatic subjects. Eur Respir J 1: 384–388
Malo JL, Ghezzo H, Trudeau C, Cartier A, Morris J (1989) Duration of action of inhaled terbutaline at two different doses and of albuterol in protecting against bronchoconstriction induced by hyperventilation of dry cold air in asthmatic subjects. Am Rev Respir Dis 140: 817–821
Margolskee DJ, Bigby BG, Boushey HA (1988) Indomethacin blocks airway tolerance to repetitive exercise but not to eucapnic hyperpnea in asthmatic subjects. Am Rev Respir Dis 137: 842–846
McFadden ER, Ingram RH (1979) Exercise-induced asthma. Observations on the initiating stimulus. N Engl J Med 301: 763–769
McFadden ER, Lenner KAM, Strohl KP (1986) Postexertional airway rewarming and thermally induced asthma. New insights into pathophysiology and possible pathogenesis. J Clin Invest 78: 18–25
McFadden ER, Pichurko BM (1985) Intraairway thermal profiles during exercise and hyperventilation in normal man. J Clin Invest 76: 1007–1010
Mellis CM, Kattan M, Keens TG, Levison H (1978) Comparative study of histamine and exercise challenges in asthmatic children. Am Rev Respir Dis 117: 911–915
Meriand N, Cartier A, L’Archeveque J, Ghezzo H, Malo JL (1988) Theophylline minimally inhibits bronchoconstriction induced by cold dry air inhalation in asthmatic subjects. Am Rev Respir Dis 137: 1304–1308
Nagakura T, Lee TH, Assoufi BK, Newman-Taylor AJ, Denison DM, Kay AB (1983) Neutrophil chemotactic factor in exercise and hyperventilation-induced asthma. Am Rev Respir Dis 128: 294–296
Neijens HJ, Hofkamp M, Degenhart HJ, Kerribijn KF (1982) Bronchial responsiveness as a function of inhaled histamine and the methods of measurement. Bull Eur Physiopathol Respir 18: 427–438
Noviski N, Bar-Yishay E, Gur I, Godfrey S (1987) Exercise intensity determines and climatic conditions modify the severity of exercise-induced asthma. Am Rev Respir Dis 136: 592–594
O’Byrne PM, Jones GL (1986) The effect of indomethacin on exercise-induced bronchoconstriction. Am Rev Respir Dis 134: 69–72
O’Byrne PM, Ryan G, Morris M, McCormack D, Jones NL, Morse JLC, Hargreave FE (1982) Asthma induced by cold air and its relation to non specific bronchial responsiveness to methacholine. Am Rev Respir Dis 125: 281–285
O’Byrne PM, Thomson NC, Morris M, Roberts RS, Daniel EE, Hargreave FE (1983) The protective effect of inhaled chlorpheniramine and atropine on bronchoconstriction stimulated by airway cooling. Am Rev Respir Dis 128: 611–617
Patel KR, Berkin KE, Kerr JW (1982) Dose-response study of sodium cromoglycate in exercise-induced asthma. Thorax 37: 663–666
Phillips YY, Jaeger JJ, Laube BL, Rosenthal RR (1985) Eucapnic voluntary hyperventilation of compressed gas mixture. A simple system for bronchial challenge by respiratory heat loss. Am Rev Respir Dis 131: 31–35
Rakotosihanaka F, Melaman F, d’Athis P, Florentin D, Dessanges JF, Lockhart A (1986) Refractoriness after hyperventilation-induced asthma. Bull Eur Physiopathol Respir 22: 581–587
Reisman J, Mappa L, De Benedictis F, McLaughlin J, Levison H (1987) Cold air challenge in children with asthma. Pediatr. Pulmonol 3: 251–254
Rosenthal RR, Laube B, Jaeger JJ, Phillips YY, Norman PS (1984) Methacholine sensitivity is unchanged during the refractory period following an exercise or isocapnic challenge. J Allergy Clin Immunol 73 [Suppl]: 281A
Sakula A (1984) Sir John Floyers’s “A treatise of the asthma” (1698). Torax 39: 248–254
Scharf SM, Heimer D, Walters D (1985) Bronchial challenge with room temperature isocapnic hyperventilation. A comparison with histamine challenge. Chest 88: 586–593
Schoeffel RE, Anderson SD, Gillam I, Lindsay DA (1980) Multiple exercise and histamine challenge in asthmatic patients. Thorax 35: 164–170
Silverman M, Anderson SD (1972) Standardization of exercise tests in asthmatic children. Arch Dis Child 47: 882–889
Smith CM, Anderson SD (1986) Hyperosmolarity as the stimulus to asthma induced by hyperventilation? J Allergy Clin Immunol 77: 729–736
Smith CM, Anderson SD (1989) A comparison between the airway response to isocapnic hyperventilation and hypertonic saline in subjects with asthma. Eur Respir J 2: 36–43
Smith CM, Anderson SD (1990) Inhalational challenge using hypertonic (4.5%) saline in asthmatic subjects: a comparison with responses to hyperpnea, methacholine, and water. Eur Respir J 3: 144–151
Smith CM, Anderson SD, Seale JP (1988) The duration of action of the combination of fenoterol hydrobromide and ipratropium bromide in protecting against asthma provoked by hyperpnea. Chest 94: 709–717
Smith CM, Anderson SD, Walsh S, McElrea M (1989) An investigation of the effects of heat and water exchange in the recovery period after exercise in children with asthma. Am Rev Respir Dis 140: 598–605
Sterling GM (1968) The mechanism of bronchoconstriction due to hypocapnia in man. Clin Sci 34: 277–285
Strauss RH, McFadden ER, Ingram RH, Deal EC, Jaeger JJ, Stearns D (1978) Influence of heat and humidity on the airway obstruction induced by exercise in asthma. J Clin Invest 61: 433–440
Strauss RH, McFadden ER, Ingram RH, Jaeger JJ (1977) Enhancement of exercise-induced asthma by cold air. N Engl J Med 297: 743–747
Suzuki S, Chonan T, Sasaki H, Takishima T (1985) Bronchial hyperresponsiveness to methacholine after exercise in asthmatics. Ann Allergy 54: 136–141
Tabka Z, Ben Jebria A, Guenard H (1987) Effect of breathing dry warm air on respiratory water loss at rest and during exercise. Respir Physiol 67: 115–125
Tager IB, Weiss ST, Munoz A, Welty C, Speizer FE (1986) Determinants of response to eucapnic hyperventilation with cold air in a population-based study. Am Rev Respir Dis 134: 502–508
Tepper RS, Morgan WJ, Cota K, Taussig LM (1986) Physiologic growth and development of the lung during the first year of life. Am Rev Respir Dis 134: 513–519
Tessier P, Cartier A, Ghezzo H, Martin RR, Malo JL (1988) Bronchoconstriction due to exercise combined with cold air inhalation does not generally influence bronchial responsiveness to inhaled histamine in asthmatic subjects. Eur Respir J 1: 133–138
Tessier P, Cartier A, L’Archeveque J, Ghezzo J, Martin RR, Malo J-L (1986) Within-and between-day reproducibility of isocapnic cold air challenges in subjects with asthma. J Allergy Clin Immutiol 78: 379–787
Tessier P, Ghezzo H, L’Archeveque J, Cartier A, Martin RR, Malo JL (1987) Shape of the dose-response curve to cold air inhalation in normal and asthmatic subjects. Am Rev Respir Dis 136: 1418–1423
Walden SM, Britt EJ, Permutt S, Bleecker ER (1985) The effect of alpha-adrenergic and antihistaminic blockade on conditioned cold air and exercise-induced asthma. Chest 87: 195S - 197S
Weiss JW, Rossing TH, McFadden ER, Ingram RH (1983) Relationship between bronchial responsiveness to hyperventilation with cold and methacholine in asthma. J Allergy Clin Immunol 72: 140–144
Wilson BA, Evans JN (1981) Standardization of work intensity for evaluation of exercise-induced bronchoconstriction. Eur J Appl Physiol 47: 289–294
Wilson NM, Barnes PJ, Vickers H, Silverman M (1982) Hyperventilation-induced asthma: evidence for two mechanisms. Thorax 37: 657–662
Woolcock AJ, Permutt S (1986) Bronchial hyperresponsiveness. In: Fishman AP, Macklem PT, Mead J, Geiger SR (eds) The respiratory system. Mechanics of breathing (Handbook of physiology, vol 3, section 3). Williams and Wilkins, Baltimore, pp 727–736
Woolcock AJ, Salome CM, Yan K (1984) The shape of the dose-response curve to histamine in asthmatic and normal subjects. Am Rev Respir Dis 130: 71–75
Woolley M, Anderson SD, Quigley B (1990) The duration of the protective effect of terbutaline sulphate and sodium cromoglycate alone, and in combination on exercise-induced asthma. Chest 97: 39–45
Zawadski DK, Lenner KA, McFadden ER (1988) Comparison of intraairway temperatures in normal and asthmatic subjects after hyperpnea with hot, cold, and ambient air. Am Rev Respir Dis 139: 1553–1558
Zach MS, Polgar G (1987) Cold air challenge of airway hyperreactivity in children: dose-response interrelation with a reaction plateau. J Allergy Clin Immuno180: 9–17
Zeballos RJ, Shturman-Ellestein R, McNally JF, Hirsch JE, Souhrada JF (1978) The role of hyperventilation in exercise-induced bronchoconstriction. Am Rev Respir Dis 118: 884–887
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Anderson, S., Tessier, P., Smith, C.M., Malo, J.L. (1993). Exercise and Hyperventilation Provocation Challenges. In: Allegra, L., Braga, P.C., Dal Negro, R. (eds) Methods in Asthmology. Springer, Milano. https://doi.org/10.1007/978-88-470-2263-8_17
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