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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT05174689
Other study ID # E68/21
Secondary ID
Status Recruiting
Phase N/A
First received
Last updated
Start date August 1, 2021
Est. completion date September 2022

Study information

Verified date December 2021
Source Johann Wolfgang Goethe University Hospital
Contact Melanie Dreßler, MD
Phone +49-69-6301-4588
Email melanie.dressler@kgu.de
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The purpose of this study is to investigate the micro ribonucleic acid (mRNA) profiles of patients with EIA without allergic sensitization and EIA with house dust mite sensitization compared to that of healthy controls.


Description:

Patients with known EIA are periodically reexamined by medical history, clinical examination, bodyplethysmography, spirometry, exhaled nitric oxide (eNO), skin prick test, methacholin challenge test and exercise-challenge in a cold-chamber at 2-4°C (ECC). Additionally the investigators gathers the questionnaires: Asthma Control Test (ACT) and Dyspnoe Index (DI). Besides these standard procedures the investigators want to investigate the micro-RNA profiles in two EIA subgroups: EIA with house-dust allergy (n = 24) and EIA without house-dust allergy (n = 24). Both groups are characterized by different eNO levels. The patients with EIA and house-dust allergy should have an eNO > 30 ppb, the patients with EIA without house-dust allergy an eNO < 20 ppb. The micro-RNA profiles of the both EIA subgroups will be compared the micro RNA profiles of 20 healthy controls . Therefore blood will be taken (for a complete blood count and micro RNA analysis) at three points of time: before ECC, directly after ECC and after 24 hours ± 4 hours after ECC.


Recruitment information / eligibility

Status Recruiting
Enrollment 68
Est. completion date September 2022
Est. primary completion date August 2022
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 12 Years to 24 Years
Eligibility For EIA patients Inclusion Criteria: - written agreement - age >=12 and <= 24 - known exercise induced asthma - Group 1: skin prick test positiv house-dust allergy, eNO > 30 ppb, MCT PD20 < 0,1 mg - Group 2: skin prick test negative house-dust allergy, eNO < 20 ppb, MCT PD20 < 1 mg - lung function before ECC forced vital capacity (FVC) = 75% and forced exspiratory pressure in one second (FEV1) = 70% Exclusion Criteria: - age < 12 und > 24 years - lung function FVC < 75% und FEV1< 70% - inability to understand the range of the study - chronic asthma with systemic cortisone therapy - regular therapy with inhalative corticosteroids or leukotriene-antagonists <14 days before visit 1 - intake of long acting beta-agonists (LABA) 48 h before examination - intake of short acting beta-agonists (SABA) 8 h before examination - acute severe infection (pneumonia) within the last 4 weeks - other chronic diseases or infections (HIV, Tbc) - pregnancy For healthy controls Inclusion Criteria: - written agreement - age >=18 and <= 24 Exclusion Criteria: - age < 18 and > 24 years - known asthma bronchiale or other chronic lung diseases - lung function FVC < 90% and FEV1 < 80% - allergic sensitization in skin prick test - eNO > 30 ppb - inability to understand the range of the study - acute severe infection (pneumonia) within the last 4 weeks - other chronic diseases or infections (HIV, Tbc) - pregnancy

Study Design


Intervention

Diagnostic Test:
Exercise challenge in the cold chamber (ECC)
Exercise challenge (defined as running on a treadmill for 6-8 minutes on submaximal work load in a cold chamber. Gradient: 10%, temperature 2-4°C. After the exercise challenge controlling bodyplethysmography and spirometry after 5, 10, 15 and 30 minutes. A positive reaction is a decrease of = 10% of FEV1 in comparison to the initial value.
mRNA profile
Blood taking with full blood exam and PAXgene tube for investigation oft the micro RNA profiles. The PAXgene Blood RNA kit insulates total RNA inclusive miRNA and small RNA which are centrifugated, pelletised, washed and incubated to detach proteins. For mapping the particular miRNA there will be generated libraries with specifical codes to match the analysis to the original probe. Next generation sequencing will be performed by MISeq REagent Kit v3 and the analysis oft the different expressions in the R Version 3.2.3. The divergent expressions will be refurbished by computer and databased.
standard diagnostic
bodyplethysmography, spirometry, exhaled NO, skin prick test, asthma control test (ACT)

Locations

Country Name City State
Germany Universitätsklinikum Frankfurt Frankfurt Hessen

Sponsors (1)

Lead Sponsor Collaborator
Johann Wolfgang Goethe University Hospital

Country where clinical trial is conducted

Germany, 

References & Publications (27)

Anderson SD, Charlton B, Weiler JM, Nichols S, Spector SL, Pearlman DS; A305 Study Group. Comparison of mannitol and methacholine to predict exercise-induced bronchoconstriction and a clinical diagnosis of asthma. Respir Res. 2009 Jan 23;10:4. doi: 10.1186/1465-9921-10-4. — View Citation

Chiba Y, Tanabe M, Goto K, Sakai H, Misawa M. Down-regulation of miR-133a contributes to up-regulation of Rhoa in bronchial smooth muscle cells. Am J Respir Crit Care Med. 2009 Oct 15;180(8):713-9. doi: 10.1164/rccm.200903-0325OC. Epub 2009 Jul 30. — View Citation

Dreßler M, Friedrich T, Lasowski N, Herrmann E, Zielen S, Schulze J. Predictors and reproducibility of exercise-induced bronchoconstriction in cold air. BMC Pulm Med. 2019 May 16;19(1):94. doi: 10.1186/s12890-019-0845-3. — View Citation

Dreßler M, Salzmann-Manrique E, Zielen S, Schulze J. Exhaled NO as a predictor of exercise-induced asthma in cold air. Nitric Oxide. 2018 Jun 1;76:45-52. doi: 10.1016/j.niox.2018.03.004. Epub 2018 Mar 8. — View Citation

Driessen JM, van der Palen J, van Aalderen WM, de Jongh FH, Thio BJ. Inspiratory airflow limitation after exercise challenge in cold air in asthmatic children. Respir Med. 2012 Oct;106(10):1362-8. doi: 10.1016/j.rmed.2012.06.017. Epub 2012 Jul 11. — View Citation

Feng MJ, Shi F, Qiu C, Peng WK. MicroRNA-181a, -146a and -146b in spleen CD4+ T lymphocytes play proinflammatory roles in a murine model of asthma. Int Immunopharmacol. 2012 Jul;13(3):347-53. doi: 10.1016/j.intimp.2012.05.001. Epub 2012 May 10. — View Citation

Fussbroich D, Kohnle C, Schwenger T, Driessler C, Dücker RP, Eickmeier O, Gottwald G, Jerkic SP, Zielen S, Kreyenberg H, Beermann C, Chiocchetti AG, Schubert R. A combination of LCPUFAs regulates the expression of miRNA-146a-5p in a murine asthma model and human alveolar cells. Prostaglandins Other Lipid Mediat. 2020 Apr;147:106378. doi: 10.1016/j.prostaglandins.2019.106378. Epub 2019 Nov 4. — View Citation

Garbacki N, Di Valentin E, Huynh-Thu VA, Geurts P, Irrthum A, Crahay C, Arnould T, Deroanne C, Piette J, Cataldo D, Colige A. MicroRNAs profiling in murine models of acute and chronic asthma: a relationship with mRNAs targets. PLoS One. 2011 Jan 28;6(1):e16509. doi: 10.1371/journal.pone.0016509. — View Citation

Jerkic SP, Michel F, Donath H, Herrmann E, Schubert R, Rosewich M, Zielen S. Calprotectin as a New Sensitive Marker of Neutrophilic Inflammation in Patients with Bronchiolitis Obliterans. Mediators Inflamm. 2020 May 1;2020:4641585. doi: 10.1155/2020/4641585. eCollection 2020. — View Citation

Kumar M, Mabalirajan U, Agrawal A, Ghosh B. Proinflammatory role of let-7 miRNAs in experimental asthma? J Biol Chem. 2010 Nov 26;285(48):le19: author reply le20. doi: 10.1074/jbc.L110.145698. — View Citation

Liu X, Nelson A, Wang X, Kanaji N, Kim M, Sato T, Nakanishi M, Li Y, Sun J, Michalski J, Patil A, Basma H, Rennard SI. MicroRNA-146a modulates human bronchial epithelial cell survival in response to the cytokine-induced apoptosis. Biochem Biophys Res Commun. 2009 Feb 27;380(1):177-82. doi: 10.1016/j.bbrc.2009.01.066. Epub 2009 Jan 22. — View Citation

Lu TX, Munitz A, Rothenberg ME. MicroRNA-21 is up-regulated in allergic airway inflammation and regulates IL-12p35 expression. J Immunol. 2009 Apr 15;182(8):4994-5002. doi: 10.4049/jimmunol.0803560. — View Citation

Mattes J, Collison A, Plank M, Phipps S, Foster PS. Antagonism of microRNA-126 suppresses the effector function of TH2 cells and the development of allergic airways disease. Proc Natl Acad Sci U S A. 2009 Nov 3;106(44):18704-9. doi: 10.1073/pnas.0905063106. Epub 2009 Oct 20. — View Citation

Mayoral RJ, Pipkin ME, Pachkov M, van Nimwegen E, Rao A, Monticelli S. MicroRNA-221-222 regulate the cell cycle in mast cells. J Immunol. 2009 Jan 1;182(1):433-45. — View Citation

Omran A, Elimam D, Yin F. MicroRNAs: new insights into chronic childhood diseases. Biomed Res Int. 2013;2013:291826. doi: 10.1155/2013/291826. Epub 2013 Jun 27. Review. — View Citation

Parsons JP, Hallstrand TS, Mastronarde JG, Kaminsky DA, Rundell KW, Hull JH, Storms WW, Weiler JM, Cheek FM, Wilson KC, Anderson SD; American Thoracic Society Subcommittee on Exercise-induced Bronchoconstriction. An official American Thoracic Society clinical practice guideline: exercise-induced bronchoconstriction. Am J Respir Crit Care Med. 2013 May 1;187(9):1016-27. doi: 10.1164/rccm.201303-0437ST. — View Citation

Polikepahad S, Knight JM, Naghavi AO, Oplt T, Creighton CJ, Shaw C, Benham AL, Kim J, Soibam B, Harris RA, Coarfa C, Zariff A, Milosavljevic A, Batts LM, Kheradmand F, Gunaratne PH, Corry DB. Proinflammatory role for let-7 microRNAS in experimental asthma. J Biol Chem. 2010 Sep 24;285(39):30139-49. doi: 10.1074/jbc.M110.145698. Epub 2010 Jul 14. — View Citation

Rosewich M, Zissler UM, Kheiri T, Voss S, Eickmeier O, Schulze J, Herrmann E, Dücker RP, Schubert R, Zielen S. Airway inflammation in children and adolescents with bronchiolitis obliterans. Cytokine. 2015 May;73(1):156-62. doi: 10.1016/j.cyto.2014.10.026. Epub 2015 Mar 6. — View Citation

Schulze J, Rosewich M, Dressler M, Riemer C, Rose MA, Zielen S. Bronchial allergen challenge using the Medicaid dosimeter. Int Arch Allergy Immunol. 2012;157(1):89-97. doi: 10.1159/000324473. Epub 2011 Sep 7. — View Citation

Schulze J, Rosewich M, Riemer C, Dressler M, Rose MA, Zielen S. Methacholine challenge--comparison of an ATS protocol to a new rapid single concentration technique. Respir Med. 2009 Dec;103(12):1898-903. doi: 10.1016/j.rmed.2009.06.007. Epub 2009 Jul 10. — View Citation

Schulze J, Smith HJ, Fuchs J, Herrmann E, Dressler M, Rose MA, Zielen S. Methacholine challenge in young children as evaluated by spirometry and impulse oscillometry. Respir Med. 2012 May;106(5):627-34. doi: 10.1016/j.rmed.2012.01.007. Epub 2012 Feb 10. — View Citation

Schulze J, Voss S, Zissler U, Rose MA, Zielen S, Schubert R. Airway responses and inflammation in subjects with asthma after four days of repeated high-single-dose allergen challenge. Respir Res. 2012 Sep 19;13:78. — View Citation

Sharma A, Kumar M, Ahmad T, Mabalirajan U, Aich J, Agrawal A, Ghosh B. Antagonism of mmu-mir-106a attenuates asthma features in allergic murine model. J Appl Physiol (1985). 2012 Aug;113(3):459-64. doi: 10.1152/japplphysiol.00001.2012. Epub 2012 Jun 14. — View Citation

Tan Z, Randall G, Fan J, Camoretti-Mercado B, Brockman-Schneider R, Pan L, Solway J, Gern JE, Lemanske RF, Nicolae D, Ober C. Allele-specific targeting of microRNAs to HLA-G and risk of asthma. Am J Hum Genet. 2007 Oct;81(4):829-34. Epub 2007 Aug 20. Erratum in: Am J Hum Genet. 2008 Jan;82(1):251. — View Citation

Williams AE, Larner-Svensson H, Perry MM, Campbell GA, Herrick SE, Adcock IM, Erjefalt JS, Chung KF, Lindsay MA. MicroRNA expression profiling in mild asthmatic human airways and effect of corticosteroid therapy. PLoS One. 2009 Jun 12;4(6):e5889. doi: 10.1371/journal.pone.0005889. — View Citation

Zhang YY, Zhong M, Zhang MY, Lv K. [Expression and clinical significance of miR-155 in peripheral blood CD4(+);T cells of patients with allergic asthma]. Xi Bao Yu Fen Zi Mian Yi Xue Za Zhi. 2012 May;28(5):540-3. Chinese. — View Citation

Zielen S, Lieb A, De La Motte S, Wagner F, de Monchy J, Fuhr R, Munzu C, Koehne-Voss S, Rivière GJ, Kaiser G, Erpenbeck VJ. Omalizumab protects against allergen- induced bronchoconstriction in allergic (immunoglobulin E-mediated) asthma. Int Arch Allergy Immunol. 2013;160(1):102-10. doi: 10.1159/000339243. Epub 2012 Aug 28. — View Citation

* Note: There are 27 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary Dysregulation of miRNA-146 The primary endpoint is the dysregulation of miRNA-146 in comparison to the control group and within the subgroups which play an determined role in the bronchial inflammation.
Therefore the total RNA, including miRNA, will be isolated using the PAXgene Blood miRNA Kit (Qiagen, Hilden, Germany). Concentration of RNA will be assessed using Nanodrop Lite spectrometry (Thermo Scientific, Dreieich, Germany). MiRNA libraries are generated with the QIAseq miRNA Library Kit (Qiagen, Hilden, Germany). Next generation sequencing (NGS) will be performed with the MiSeq Reagent Kit v3, the PhiX Sequencing Control v3 and the MiSeq™ Desktop Sequencer (all Illumina Inc., San Diego, CA, USA). Differential expression analysis will be performed in RStudio 1.2.1335 (https://cran.r-project.org/). False discovery rate correction will be applied and miRNAs are considered to be differentially expressed with p < 0.05.
1 Year
Secondary Dysregulation miRNAs affecting Th2 mediated bronchial inflammation (miRNA-126, miRNA-21, miRNA-145, let7-mimic) Dysregulation of other miRNAs affecting the Th2 mediated bronchial inflammation (miRNA-126, miRNA-21, miRNA-145, let7-mimic) and compare to the control group.
MiRNA preparation and measurement processes are described in Outcome 1.
1 Year
Secondary Cange of eNO Change of eNO after ECC in the EIA subgroups compared to the healthy controls 1 Year
Secondary Change of leucocytes and neutrophile granulocytes Change of leucocytes and neutrophile granulocytes after ECC in the EIA subgroups compared to the healthy controls 1 Year
Secondary FEV1-decrease in ECC Comparison of the FEV1-decrease in ECC with significant dysregulated miRNA in the EIA subgroups compared to the healthy controls 1 Year
Secondary Comparison eNO with significant dysregulated miRNA Comparison of the initial value of exhaled NO with significant dysregulated miRNA in the EIA subgroups compared to the healthy controls 1 Year
Secondary Comparison of change of leucocytes and neutrophile granulocytes with significant dysregulated miRNA Comparison of the increase of leucocytes and neutrophile granulocytes after ECC significant dysregulated miRNA in the EIA subgroups compared to the healthy controls 1 Year
Secondary Comparison of ACT with significant dysregulated miRNA Comparison of the score in ACT with significant dysregulated miRNA in the EIA subgroups compared to the healthy controls 1 Year
Secondary Comparison of DI with significant dysregulated miRNA Comparison of the scoresin DI with significant dysregulated miRNA in the EIA subgroups compared to the healthy controls 1 Year
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