Acute pulmonary effects of nitrogen dioxide exposure during exercise in competitive athletes.

The acute pulmonary responses of athletes after short-term exposure to ambient concentrations of NO2 during heavy exercise have been examined. Intercollegiate male athletes were screened for history of cardiac disease, respiratory disease, allergic conditions and extensive exposure to pollutants. After completion of serum IgE level determination, exercise tolerance test and methacholine challenge test with normal results, nine healthy subjects 18 to 23 years of age were exposed to filtered air and to 0.18 and 0.30 ppm NO2 for 30 min on different days while exercising on a treadmill. Pulmonary function parameters were measured before and after each exposure. In this study, no statistically significant changes were observed in FEV1, RT PEFR, and Vmax50% after exposure to 0.18 and 0.30 ppm NO2. For these selected healthy athletes, short-term exposure to ambient NO2 levels during heavy exercise does not affect adversely the pulmonary function.

[1]  W. Pierson,et al.  The Pulmonary Effects of Ozone and Nitrogen Dioxide Alone and Combined in Healthy and Asthmatic Adolescent Subjects , 1988, Toxicology and industrial health.

[2]  W. Pierson,et al.  The effects of ozone and nitrogen dioxide on pulmonary function in healthy and in asthmatic adolescents. , 1987, The American review of respiratory disease.

[3]  J. Koenig Pulmonary reaction to environmental pollutants. , 1987, The Journal of allergy and clinical immunology.

[4]  T Lindvall,et al.  Effects of short-term exposure to ambient nitrogen dioxide concentrations on human bronchial reactivity and lung function. , 1985, Experientia. Supplementum.

[5]  D. Tashkin,et al.  Impaired exercise performance and pulmonary function in elite cyclists during low-level ozone exposure in a hot environment. , 1986, The American review of respiratory disease.

[6]  W. C. Adams,et al.  Reduced exercise time in competitive simulations consequent to low level ozone exposure. , 1986, Medicine and science in sports and exercise.

[7]  K. Sekizawa,et al.  Dose-response effects of methacholine in normal and in asthmatic subjects. Relationship between the site of airway response and overall airway hyperresponsiveness. , 1986, The American review of respiratory disease.

[8]  E. Avol,et al.  Effects of exposure to 4 ppm nitrogen dioxide in healthy and asthmatic volunteers. , 1985, Archives of environmental health.

[9]  R. Townley,et al.  Specificity and sensitivity of methacholine inhalation challenge in normal and asthmatic children. , 1984, The Journal of allergy and clinical immunology.

[10]  W. C. Adams,et al.  Ozone and high ventilation effects on pulmonary function and endurance performance. , 1983, Journal of applied physiology: respiratory, environmental and exercise physiology.

[11]  D. House,et al.  Pulmonary effects of ozone exposure during exercise: dose-response characteristics. , 1983, Journal of applied physiology: respiratory, environmental and exercise physiology.

[12]  Horvath Sm Nitrogen dioxide, pulmonary function, and respiratory disease. , 1980 .

[13]  R. Frank,et al.  Acute effects of inhaled SO2 plus NaCl droplet aerosol on pulmonary function in asthmatic adolescents. , 1980, Environmental research.

[14]  Laurie J. Smith,et al.  Guidelines for the methodology of exercise challenge testing of asthmatics. Study Group on Exercise Challenge, Bronchoprovocation Committee, American Academy of Allergy. , 1979, The Journal of allergy and clinical immunology.

[15]  J. Steel Environmental Health Criteria. 4. Oxides of Nitrogen , 1979 .

[16]  W. Linn,et al.  Experimental studies on human health effects of air pollutants. IV. Short-term physiological and clinical effects of nitrogen dioxide exposure. , 1978, Archives of environmental health.

[17]  S. Horvath,et al.  Effect of 0.62 ppm NO2 on cardiopulmonary function in young male nonsmokers. , 1978, Environmental research.

[18]  H. Dickie,et al.  Nitrogen dioxide-induced pulmonary disease: five new cases and a review of the leterature. , 1978, Journal of occupational medicine. : official publication of the Industrial Medical Association.

[19]  J. Mead,et al.  A simplified measurement of respiratory resistance by forced oscillation. , 1970, Journal of applied physiology.

[20]  G Grimby,et al.  Frequency dependence of flow resistance in patients with obstructive lung disease. , 1968, The Journal of clinical investigation.

[21]  J. H. Comroe,et al.  A rapid plethysmographic method for measuring thoracic gas volume: a comparison with a nitrogen washout method for measuring functional residual capacity in normal subjects. , 1956, The Journal of clinical investigation.