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Exercise induced bronchospasm (EIB), also known as exercise induced asthma (EIA) is a transient obstruction to airflow triggered by exertion.
It is now a well known identity, center of discussion in recent years, particularly in the athletes' world. It is more common in asthmatic individuals (regardless of severity of disease), but it is also seen in otherwise healthy subjects, leading to the general consensus that the pathophysiology is different than asthma.
The concentration of exhaled nitric oxide (FeNO) in various airway & respiratory disorders, particularly asthma, has been deeply studied. Its use for noninvasive monitoring of asthma control (reflecting airway eosinophilic inflammation) is being closely examined and put into clinical practice. FeNO is significantly elevated in asthma. Elevated FeNO levels have also been noted in patients hospitalized with a COPD exacerbation, acidosis, rhinitis, bronchiectasis, active pulmonary sarcoidosis, active fibrosing alveolitis, and acute lung allograft rejection. Decreased FeNO levels have been seen in patients with primary ciliary dyskinesia, cystic fibrosis, PiZZ phenotype-related alpha-1 antitrypsin deficiency, and pulmonary hypertension
Two studies have addressed the variations on FeNO after EIB and they had contradictory results. Scollo et al. found no change in FeNO in either healthy or asthmatic children after a 6-min of vigorous exertion in an exercise laboratory when they studied 24 asthmatic and 18 control children. Terada et al. reported, for 39 subjects, a decrease in FeNO in subjects with EIB and an increase in healthy controls.
It is well accepted that the pathophysiology of exercise induced bronchospasm it is not similar to that of asthma. Certainly the inflammation in the airway does not appear to be eosinophilic. Understanding the disease mechanism is a key factor to adequately manage it.
This will be a prospective study measuring online exhaled nitric oxide involving children 8 to 21 years old. The study group will include any children coming for a pulmonary exercise test in the exercise laboratory located in the Pediatric Pulmonary Division office.
The study will be conducted from the fall of 2009 until the spring of 2011. The change in the FeNO measurement will be correlated with the change in % predicted FEV1. We will consider significant a decrease in FEV1 post exercise of 15% and/or decrease on FEF25-75 of 20% that will persist until 15 minutes after completing exercise.
We will also record any symptoms reported by the subject during or after the test.
An exercise test is a standard of care when suspecting exercise-induced asthma. The subjects and their parents coming for exercise test will be offered the opportunity to participate in the study.
The subject will come for the exercise test and will perform spirometry and FeNO measurement prior to start the test. According to our exercise laboratory protocol 1 minute of warm up at a low speed, followed by 6 minutes of high speed (enough to increase heart rate to 90% predicted or more) and 3 minutes of cool down at a low speed will be performed.
Then spirometry will be repeated at 3, 5, 10 and 15 minutes and FeNO measurement will be taken at 5, 10 and 15 minutes.
We will analyze the data to find if there is any significant change in FeNO measurements after exercise.
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| Measure | Description | Time Frame |
|---|---|---|
| Variations in the fraction of exhaled nitric oxide in subjects with exercise induced asthma | The exhaled Nitric Oxide (FeNO) will be measured before the exercise test and at 5, 10 and 15 min after completion of the exercise to detect variations in the value | 1 year |
| Measure | Description | Time Frame |
|---|---|---|
| Correlation between level of FeNO and reduction in FEV1 | Variations in the FeNO will be compared to FEV1 changes to see if they correlate | 1 year |
| Correlation between level of FeNO and severity of symptoms |
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Inclusion Criteria:
Exclusion Criteria:
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Subject with symptoms consistent with exercise induced asthma
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| Name | Affiliation | Role |
|---|---|---|
| Melodi Pirzada, MD | Winthrop University Hospital | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Winthrop University Hospital | Mineola | New York | 11501 | United States |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 18554705 | Background | Anderson SD, Kippelen P. Airway injury as a mechanism for exercise-induced bronchoconstriction in elite athletes. J Allergy Clin Immunol. 2008 Aug;122(2):225-35; quiz 236-7. doi: 10.1016/j.jaci.2008.05.001. Epub 2008 Jun 12. | |
| 8730329 | Background | Sue-Chu M, Larsson L, Bjermer L. Prevalence of asthma in young cross-country skiers in central Scandinavia: differences between Norway and Sweden. Respir Med. 1996 Feb;90(2):99-105. doi: 10.1016/s0954-6111(96)90206-1. |
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| ID | Term |
|---|---|
| D001250 | Asthma, Exercise-Induced |
| ID | Term |
|---|---|
| D001249 | Asthma |
| D001982 | Bronchial Diseases |
| D012140 | Respiratory Tract Diseases |
| D012130 | Respiratory Hypersensitivity |
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Variations in FeNO will be correlated with symptoms reported
| 1 year |
| 12166573 | Background | Baraldi E, de Jongste JC; European Respiratory Society/American Thoracic Society (ERS/ATS) Task Force. Measurement of exhaled nitric oxide in children, 2001. Eur Respir J. 2002 Jul;20(1):223-37. doi: 10.1183/09031936.02.00293102. |
| 15269335 | Background | Ricciardolo FL, Sterk PJ, Gaston B, Folkerts G. Nitric oxide in health and disease of the respiratory system. Physiol Rev. 2004 Jul;84(3):731-65. doi: 10.1152/physrev.00034.2003. |
| 15817806 | Background | American Thoracic Society; European Respiratory Society. ATS/ERS recommendations for standardized procedures for the online and offline measurement of exhaled lower respiratory nitric oxide and nasal nitric oxide, 2005. Am J Respir Crit Care Med. 2005 Apr 15;171(8):912-30. doi: 10.1164/rccm.200406-710ST. No abstract available. |
| 1971425 | Background | Bult H, Boeckxstaens GE, Pelckmans PA, Jordaens FH, Van Maercke YM, Herman AG. Nitric oxide as an inhibitory non-adrenergic non-cholinergic neurotransmitter. Nature. 1990 May 24;345(6273):346-7. doi: 10.1038/345346a0. |
| 1440473 | Background | Anderson SD, Daviskas E. The airway microvasculature and exercise induced asthma. Thorax. 1992 Sep;47(9):748-52. doi: 10.1136/thx.47.9.748. |
| 10712361 | Result | Scollo M, Zanconato S, Ongaro R, Zaramella C, Zacchello F, Baraldi E. Exhaled nitric oxide and exercise-induced bronchoconstriction in asthmatic children. Am J Respir Crit Care Med. 2000 Mar;161(3 Pt 1):1047-50. doi: 10.1164/ajrccm.161.3.9905043. |
| 16236842 | Result | Buchvald F, Hermansen MN, Nielsen KG, Bisgaard H. Exhaled nitric oxide predicts exercise-induced bronchoconstriction in asthmatic school children. Chest. 2005 Oct;128(4):1964-7. doi: 10.1378/chest.128.4.1964. |
| 11734440 | Result | Terada A, Fujisawa T, Togashi K, Miyazaki T, Katsumata H, Atsuta J, Iguchi K, Kamiya H, Togari H. Exhaled nitric oxide decreases during exercise-induced bronchoconstriction in children with asthma. Am J Respir Crit Care Med. 2001 Nov 15;164(10 Pt 1):1879-84. doi: 10.1164/ajrccm.164.10.2009105. |
| 17654135 | Result | Nishio K, Odajima H, Motomura C, Nakao F, Nishima S. Exhaled nitric oxide and exercise-induced bronchospasm assessed by FEV1, FEF25-75% in childhood asthma. J Asthma. 2007 Jul-Aug;44(6):475-8. doi: 10.1080/02770900701424090. |
| 17120347 | Result | Garcia-Rio F, Ramirez M, Mediano O, Lores V, Rojo B, Villasante C, Villamor J. Exhaled nitric oxide and airway caliber during exercise-induced bronchoconstriction. Int J Sports Med. 2006 Nov;27(11):905-10. doi: 10.1055/s-2006-923775. |
| D000092202 |
| Exercise-Induced Allergies |
| D006969 | Hypersensitivity, Immediate |
| D006967 | Hypersensitivity |
| D007154 | Immune System Diseases |