Allergic Rhinitis Clinical Trial
Official title:
The Acute Effect of High Intensity Interval Exercise on Respiratory Function and Rhinitis Symptoms in Patients With Allergic Rhinitis
Verified date | March 2023 |
Source | Chulalongkorn University |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
The purpose of this study was to determine the acute effect of high intensity interval exercise on respiratory function and rhinitis symptoms in allergic rhinitis patients.
Status | Completed |
Enrollment | 12 |
Est. completion date | December 20, 2022 |
Est. primary completion date | October 1, 2022 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years to 35 Years |
Eligibility | Inclusion Criteria: - Subjects had a clinical history of persistent rhinitis, and had positive skin prick test to house dust mite (D. pteronyssinus) - Persistent allergic rhinitis - Subjects with known asthma, chronic rhinosinusitis, Lung cancer and Emphysema diseases were excluded. - BMI 18.5 - 24.9 kg/m2 - Subjects will ask to abstain from taking antihistamine for at least 5 days, leukotriene receptor antagonist for at least 1 week, and nasal steroids for at least 2 weeks prior to the start of the experiment. - Subjects will ask to abstain from taking any form of dietary supplement during the experiment. - Subjects had no exercise training program (not exercise regularly or not exercise for 30 minutes or more at least 3 times per week during the past 6 months) Exclusion Criteria: - Accident that are unable to continue the research, such as accidental injury or illness, etc. - Participants did not voluntarily participate. |
Country | Name | City | State |
---|---|---|---|
Thailand | Faculty of Sports Science, Chulalongkorn University | Pathum Wan | Bangkok |
Lead Sponsor | Collaborator |
---|---|
Chulalongkorn University |
Thailand,
Andrade DC, Arce-Alvarez A, Parada F, Uribe S, Gordillo P, Dupre A, Ojeda C, Palumbo F, Castro G, Vasquez-Munoz M, Del Rio R, Ramirez-Campillo R, Izquierdo M. Acute effects of high-intensity interval training session and endurance exercise on pulmonary function and cardiorespiratory coupling. Physiol Rep. 2020 Aug;8(15):e14455. doi: 10.14814/phy2.14455. — View Citation
Dunham C, Harms CA. Effects of high-intensity interval training on pulmonary function. Eur J Appl Physiol. 2012 Aug;112(8):3061-8. doi: 10.1007/s00421-011-2285-5. Epub 2011 Dec 23. — View Citation
Gao M, Huang Y, Wang Q, Liu K, Sun G. Effects of High-Intensity Interval Training on Pulmonary Function and Exercise Capacity in Individuals with Chronic Obstructive Pulmonary Disease: A Meta-Analysis and Systematic Review. Adv Ther. 2022 Jan;39(1):94-116. doi: 10.1007/s12325-021-01920-6. Epub 2021 Nov 18. Erratum In: Adv Ther. 2022 Jul;39(7):3424. — View Citation
Kalpaklioglu AF, Kalkan IK. Comparison of orally exhaled nitric oxide in allergic versus nonallergic rhinitis. Am J Rhinol Allergy. 2012 Mar-Apr;26(2):e50-4. doi: 10.2500/ajra.2012.26.3717. — View Citation
Min YG. The pathophysiology, diagnosis and treatment of allergic rhinitis. Allergy Asthma Immunol Res. 2010 Apr;2(2):65-76. doi: 10.4168/aair.2010.2.2.65. Epub 2010 Mar 24. — View Citation
Savoure M, Bousquet J, Jaakkola JJK, Jaakkola MS, Jacquemin B, Nadif R. Worldwide prevalence of rhinitis in adults: A review of definitions and temporal evolution. Clin Transl Allergy. 2022 Mar;12(3):e12130. doi: 10.1002/clt2.12130. — View Citation
Tongtako W, Klaewsongkram J, Jaronsukwimal N, Buranapraditkun S, Mickleborough TD, Suksom D. The effect of acute exhaustive and moderate intensity exercises on nasal cytokine secretion and clinical symptoms in allergic rhinitis patients. Asian Pac J Allergy Immunol. 2012 Sep;30(3):185-92. — View Citation
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Rhinitis symptom scores change | Nasal symptoms were assessed using Total Nasal Symptom Score (TNSS) questionnaire. The subjects were asked to score symptoms of persistent allergic rhinitis before and after yoga training protocol. The total nasal symptom scores were computed as the sum of four individual nasal symptom scores; nasal congestion, itching, sneezing, and rhinorrhea. The scores ranged from 0 to 3 scale (0=none, 1=mild, 2=moderate, 3= severe) | Change after each exercise immediately, 15 minutes, 30 minutes, 45 minutes, and 60 minutes | |
Primary | Peak nasal inspiratory flow change | The subjects placed a mask, which is turned onto a plastic cylinder through which the air passes during inspiration, over the nose and mouth and inspired forcefully through the nose, with lips tightly closed. Inside the cylinder, there is a diaphragm that moves to the airflow, and the maximum peak flow is registered in a scale range from 30-370 L/min. During the procedure, the subjects placed a mask over the nose and mouth and inspired forcefully through the nose, with lips tightly closed. | Change after each exercise immediately, 15 minutes, 30 minutes, 45 minutes, and 60 minutes | |
Primary | Nasal blood flow change | Laser Doppler flowmetry (DRT4 moor instrument, UK.) was used to measure of the nasal blood flow (NBF). Before the test each subject rested for one hour in a separate room. During the test, they were instructed to breathe normally breathe and not to speak, cough, or move. A lateral endoscopic probe with a flexible nylon sheath 1.34-mm-diameter flexible nylon sheath was placed to the front of the nose. Nasal blood flow measurements were performed before immediately, 15 minutes, 30 minutes, 45 minutes, and 60 minutes after exercise for each exercise program. | Change after each exercise immediately, 15 minutes, 30 minutes, 45 minutes, and 60 minutes | |
Primary | Pulmonary functions change | The participants were asked to wear a nose clip while sitting on a chair, and the researcher gave the participants the step-by-step protocol to prevent an incorrect maneuver. For the FVC maneuver, three cycles of slow normal breathing were performed before demonstrating forced inspiration and expiration. | Change after each exercise immediately, 15 minutes, 30 minutes, 45 minutes, and 60 minutes | |
Primary | Respiratory muscle strength change | Respiratory muscle strength was assessed by measuring Maximal Inspiratory Pressure (MIP) and Maximal Expiratory Pressure (MEP) in cmH2O. The participants were in a sitting position using a portable handheld mouth pressure meter (i.e., MicroRPM) with a nose clip. For the MIP measurement, the participants were asked to exhale until they felt no air remaining in their lungs (starting with the functional residual capacity [FRC] point), then held the device on their mouth and inhaled forcefully for 1-2 seconds. For the MEP measurement, the participants were asked to inhale until their lungs were completely filled with air (starting with the total lung capacity [TLC] point), then they kept the device on their mouth and exhaled forcefully for 1-2 seconds | Change after each exercise immediately, 15 minutes, 30 minutes, 45 minutes, and 60 minutes | |
Secondary | Fractional exhaled nitric oxide | Participants inhaled deeply for two to three seconds before exhaling slowly. Normally, it took 10 seconds to exhale. | Change after each exercise immediately, 15 minutes, 30 minutes, 45 minutes, and 60 minutes |
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