Study Results
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Basic Information
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RECRUITING
NA
200 participants
INTERVENTIONAL
2015-01-31
2028-12-31
Brief Summary
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Detailed Description
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For all subjects, the Baseline visit will include 129Xe and/or 3He MRI, chest CT, sputum induction, Pulmonary Function Tests, Airwave Oscillation test, Lung Clearance Index test, BORG Dyspnea Scale, and MRC Dyspnea Scale. All procedures will be before, during and after methacholine challenge (MCh). For V2, all but CT and MCh will be acquired.
Visits 1a and 1b will include MRI, Pulmonary Function Tests including Airwave Oscillation and Lung Clearance Index, and dyspnea questionnaires; Visit 1c will also include sputum induction.
There will be a telephone call at 52+/- 2 weeks, and 104 +/- 2 weeks. to track exacerbations and update medications. Subjects will complete self-assessments in the form of a) the Asthma Quality of Life Questionnaire with Standardized Activities (AQLQ(S)) bi-weekly, and the Asthma Control Diary (weekly) between visits. Self-reported data (the weekly asthma control diary and bi-weekly AQLQ(S)) will be uploaded by each subject monthly to the investigators website using a confidential and password protected upload (www.imaging.robarts.ca/\~gep/ForPatients.htm).
Conditions
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Study Design
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NA
SINGLE_GROUP
BASIC_SCIENCE
NONE
Study Groups
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Asthma Patients
All enrolled asthma patients will undergo hyperpolarized noble gas MRI with Helium-3 and/or Xenon-129, Pulmonary Function Tests, Quality of Life Questionnaires, dyspnea scales in two visits over three years.
Hyperpolarized Noble Gas MRI
Hyperpolarized Helium-3 and/or Xenon-129. Noble gas magnetic resonance imaging (MRI) has recently emerged as another research approach for the non-invasive measurement of lung structure and function, including conduction of gas through airways and into airspaces.
Noble gas MRI provides a complimentary and alternative method for evaluating lung disease and may be superior to CT because it allows simultaneous visualization of both airway and airspace structure and function.
Interventions
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Hyperpolarized Noble Gas MRI
Hyperpolarized Helium-3 and/or Xenon-129. Noble gas magnetic resonance imaging (MRI) has recently emerged as another research approach for the non-invasive measurement of lung structure and function, including conduction of gas through airways and into airspaces.
Noble gas MRI provides a complimentary and alternative method for evaluating lung disease and may be superior to CT because it allows simultaneous visualization of both airway and airspace structure and function.
Eligibility Criteria
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Inclusion Criteria
* Smoking history ≤ 1 pack/year
* Subject understands the study procedures and is willing to participate in the study as indicated by signature on the informed consent
* Subject is judged to be in otherwise stable health on the basis of medical history
* Subject able to perform reproducible pulmonary function testing (i.e., the 3 best acceptable spirograms have FEV1 values that do not vary more than 5% of the largest value or more than 100 ml, whichever is greater.)
* FEV1 \>60% predicted
Exclusion Criteria
* Patient is unable to perform spirometry or plethysmography maneuvers
* Subject has an implanted mechanically, electrically or magnetically activated device or any metal in their body which cannot be removed, including but not limited to pacemakers, neurostimulators, biostimulators, implanted insulin pumps, aneurysm clips, bioprosthesis, artificial limb, metallic fragment or foreign body, shunt, surgical staples (including clips or metallic sutures and/or ear implants.) (At the discretion of the MRI Technologist/3T Manager)
* In the investigator's opinion, subject suffers from any physical, psychological or other condition(s) that might prevent performance of the MRI, such as severe claustrophobia.
* Patient is pregnant
18 Years
60 Years
ALL
No
Sponsors
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Dr. Grace Parraga
OTHER
Responsible Party
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Dr. Grace Parraga
PhD, Scientist. Robarts Research Institute
Principal Investigators
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Grace E Parraga, PhD
Role: PRINCIPAL_INVESTIGATOR
Robarts Research Institute, The University of Western Ontario
Locations
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Robarts Research Institute; The University of Western Ontario; London Health Sciences Centre
London, Ontario, Canada
Countries
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Central Contacts
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Facility Contacts
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References
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McIntosh MJ, Kooner HK, Eddy RL, Wilson A, Serajeddini H, Bhalla A, Licskai C, Mackenzie CA, Yamashita C, Parraga G. CT Mucus Score and 129Xe MRI Ventilation Defects After 2.5 Years' Anti-IL-5Ralpha in Eosinophilic Asthma. Chest. 2023 Jul;164(1):27-38. doi: 10.1016/j.chest.2023.02.009. Epub 2023 Feb 11.
Capaldi DPI, Guo F, Xing L, Parraga G. Pulmonary Ventilation Maps Generated with Free-breathing Proton MRI and a Deep Convolutional Neural Network. Radiology. 2021 Feb;298(2):427-438. doi: 10.1148/radiol.2020202861. Epub 2020 Dec 8.
Eddy RL, Svenningsen S, Kirby M, Knipping D, McCormack DG, Licskai C, Nair P, Parraga G. Is Computed Tomography Airway Count Related to Asthma Severity and Airway Structure and Function? Am J Respir Crit Care Med. 2020 Apr 15;201(8):923-933. doi: 10.1164/rccm.201908-1552OC.
Other Identifiers
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ROB0037
Identifier Type: -
Identifier Source: org_study_id
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