Effect of Positive Airway Pressure on Reducing Airway Reactivity in Patients With Asthma (CPAP)

This study is currently recruiting participants.
Verified August 2013 by American Lung Association Asthma Clinical Research Centers
Sponsor:
Collaborator:
Information provided by (Responsible Party):
Robert A. Wise, M.D., American Lung Association Asthma Clinical Research Centers
ClinicalTrials.gov Identifier:
NCT01629823
First received: June 25, 2012
Last updated: August 1, 2013
Last verified: August 2013
  Purpose

The CPAP trial is a 3-arm parallel design randomized sham-controlled trial. Participants are randomly assigned in equal allocation to one of three treatments: CPAP 10 cm H2O (high) vs. CPAP 5 cm H2O (medium) vs. CPAP Sham (less than 1 cm H2O, Low). The treatment period is 12 weeks with airways reactivity assessed at baseline, 6 and 12 weeks of treatment and after a 2 week washout.


Condition Intervention Phase
Asthma
Device: Continuous Positive Airway Pressure device (Resmed, Swift, Mirage)
Phase 2

Study Type: Interventional
Study Design: Allocation: Randomized
Intervention Model: Parallel Assignment
Masking: Double Blind (Subject, Caregiver, Investigator)
Primary Purpose: Treatment
Official Title: Effect of Positive Airway Pressure on Reducing Airway Reactivity in Patients With Asthma

Resource links provided by NLM:


Further study details as provided by American Lung Association Asthma Clinical Research Centers:

Primary Outcome Measures:
  • Methacholine reactivity [ Time Frame: 16 weeks ] [ Designated as safety issue: No ]
    Airways reactivity will be measured with methacholine challenge testing, following ATS guidelines using the dosimeter technique .


Estimated Enrollment: 192
Study Start Date: July 2012
Estimated Primary Completion Date: June 2014 (Final data collection date for primary outcome measure)
Arms Assigned Interventions
Sham Comparator: CPAP less than 1 cm H2O Device: Continuous Positive Airway Pressure device (Resmed, Swift, Mirage)
participants will be randomized to one of three pre-set CPAP pressures: less than 1 cm H2O, 5H2O or 10H2O. they will be instructed to use the CPAP device every night for 12 weeks. There will be a washout methacholine measurement after a 2 week washout period.
Other Names:
  • ResMed CPAP S9 series: Elite & Escape
  • Masks: Swift FX, Mirage FX
Experimental: CPAP 10cm H2O Device: Continuous Positive Airway Pressure device (Resmed, Swift, Mirage)
participants will be randomized to one of three pre-set CPAP pressures: less than 1 cm H2O, 5H2O or 10H2O. they will be instructed to use the CPAP device every night for 12 weeks. There will be a washout methacholine measurement after a 2 week washout period.
Other Names:
  • ResMed CPAP S9 series: Elite & Escape
  • Masks: Swift FX, Mirage FX
Experimental: CPAP 5cm H2O Device: Continuous Positive Airway Pressure device (Resmed, Swift, Mirage)
participants will be randomized to one of three pre-set CPAP pressures: less than 1 cm H2O, 5H2O or 10H2O. they will be instructed to use the CPAP device every night for 12 weeks. There will be a washout methacholine measurement after a 2 week washout period.
Other Names:
  • ResMed CPAP S9 series: Elite & Escape
  • Masks: Swift FX, Mirage FX

Detailed Description:

It is now well established that failure to rhythmically apply strain to airway smooth muscle leads to change in the biomechanics of the smooth muscle characterized by shortened resting length and increased sensitivity to pharmacologic constrictors. Patients with asthma have physiologic airway characteristics that recapitulate this condition - increased airway tone and increased sensitivity to methacholine. It is our underlying hypothesis that asthma, although it may be initiated by allergic airway inflammation, is promoted by decreased tidal force fluctuations during recumbent sleep. If this is true, then treatments that increase tidal force fluctuations of airways should reverse these abnormalities. One treatment that increases tidal force fluctuations is continuous positive airway pressure (CPAP). CPAP prevents a fall in end expiratory lung volume and prevents closure of airways in dependent regions of the lung thereby permitting the stresses of tidal breathing to apply strain to airways. Preliminary data in 15 asthmatics showed that 1 week of 10cm H₂O nocturnal CPAP was associated with a remarkable 2.7-fold increase in the concentration of methacholine causing a 20% fall in FEV₁ (PC20). The objective of this study is to conduct a randomized, sham-controlled, multicenter study of 5 and 10 cm H₂O CPAP in order to verify these findings; to assess the effect of nocturnal CPAP on airways reactivity; to determine the durability of the effect over 12 weeks; to assess the safety, tolerability and adherence to this treatment; and to explore if there are clinically meaningful benefits. The study will be conducted at 18 centers of the American Lung Association-Asthma Clinical Research Centers (ALA-ACRC) with the Data Coordinating Center (DCC) at Johns Hopkins University.

A substudy of High Resolution Computed Tomography (HRCT) will also be conducted at a subset of the ACRC clinics. A total of 48 subjects (16 per arm)who are randomized in the main study will be voluntarily enrolled in the substudy to compare the structural changes in the airways across treatment groups and to correlate structural changes with the physiological changes. A total of two visits will be conducted. HRCT Visit 1 will be performed after randomization in the main CPAP study, and prior to initiation of CPAP. HRCT Visit 2 will be performed between weeks 10 and 12 of CPAP, at a different day or prior of methacholine challenge testing.Two CT scans will be performed each at different lung volume at each visit (Total of 4 scans for the study duration). The first volume will be at Total Lung Capacity (TLC), followed by another CT scan at Functional Residual Capacity (FRC).

  Eligibility

Ages Eligible for Study:   15 Years to 60 Years
Genders Eligible for Study:   Both
Accepts Healthy Volunteers:   No
Criteria

Inclusion criteria

  • 15 - 60 years of age at V1
  • Physician diagnosis of asthma and on prescribed asthma medication for at least the past 12 months at V1
  • Pre-bronchodilator FEV₁ greater than or equal to 75% predicted at V1 (to minimize the likelihood that variability in FEV₁ will preclude participants from having methacholine challenges in follow-up visits)
  • Airways reactivity: Methacholine bronchial challenge with PC₂₀ less than or equal 8 mg/mL for FEV₁ at V1
  • Stable asthma defined by no change in treatment, ED visit, hospitalization, or urgent health care visit for asthma for the 8 weeks prior to screening
  • Non-smoker for more than 6 months and less than or equal to 10 pack-year history of smoking
  • Ability and willingness to provide informed consent
  • If receiving immunotherapy, must have had stable therapy for the 8 weeks prior to screening
  • Spend a minimum of six hours per night in bed on average
  • Willingness to sleep 5 days a week on average in the same place for the next 4 months
  • For women of child bearing potential; not pregnant, not lactating and agree to practice and adequate birth control method (abstinence, combination barrier and spermicide, or hormonal) for the duration of the study

Exclusion criteria

  • Weight less than or equal to 66 lbs. (30kg) at V1
  • BMI greater than or equal to 35 at V1
  • Acute respiratory illness in the month prior to screening
  • Systemic corticosteroid therapy during the 3 months preceding screening
  • History of sleep apnea by self-report High risk of sleep apnea as assessed by Multivariable Apnea Prediction (MAP) Index; high risk defined as probability that is equal to or greater than 20%
  • Chronic diseases (other than asthma) that in the opinion of the investigator would interfere with participation in the trial or put the participant at risk by participation, e.g. non-skin cancer, chronic diseases of the lung (other than asthma), chronic heart diseases, endocrine diseases, liver, kidney or nervous system diseases, or immunodeficiency, any pre-existing conditions that may be contraindications to positive airway pressure including: severe bullous lung disease, pneumothorax, pathologically low blood pressure, dehydration, cerebrospinal fluid leak, recent cranial surgery, trauma, bypassed upper (supraglottic) airway
  • Known sleep disorders that are currently under treatment by a sleep specialist
  • Known intolerance to methacholine
  • Absolute contraindications to methacholine that include: current use of beta-adrenergic blocking agent, heart attack or stroke in the last 3 months, uncontrolled hypertension, known aortic aneurysm
  • Use of investigative drugs or intervention trials in the 30 days prior to screening or during the duration of the study
  • Prior use of CPAP for any reason Homelessness, lack of telephone access, or intention to move within the next 4 months of the trial.
  • For blinding purposes, members from the same household cannot participate in the study at the same time.
  Contacts and Locations
Please refer to this study by its ClinicalTrials.gov identifier: NCT01629823

Contacts
Contact: Razan Yasin, MHS 443‐287‐5796 ryasin@jhsph.edu

Locations
United States, Arizona
University of Arizona Recruiting
Tucson, Arizona, United States
Contact: Monica Vasquez    520-626-3907    mvasquez@arc.arizona.edu   
Principal Investigator: Lynn Gerald, PhD, MSPH         
United States, California
University of California, San Diego Recruiting
San Diego, California, United States
Contact: Katie Kinninger    619-471-0820    kkinninger@ucsd.edu   
Principal Investigator: Stephen Wasserman, MD         
United States, Colorado
National Jewish Health Recruiting
Denver, Colorado, United States
Contact: Trisha Larson    303-270-1220    larsont@njhealth.org   
Principal Investigator: Rohit Katial         
United States, Florida
Nemours Children's Clinic Recruiting
Jacksonville, Florida, United States
Contact: Mary Warde    904-697-3176    mwarde@nemours.org   
Principal Investigator: John Lima, PharmD         
University of Miami/ University of South Florida Recruiting
Miami, Florida, United States
Contact: Eliana Mendes    305-243-2568    emendes@med.miami.edu   
Principal Investigator: Adam Wanner, MD         
United States, Illinois
Illinois Consortium Recruiting
Chicago, Illinois, United States
Contact: Jenny Hixon    312-926-0975    j-franzen@northwestern.edu   
Principal Investigator: Lewis Smith, MD         
United States, Indiana
St. Vincent Hospital and Health Care Center, Inc Recruiting
Indianapolis, Indiana, United States, 46260
Contact: Michael Busk, MD, MPH         
Principal Investigator: Michael Busk, MD, MPH         
United States, Louisiana
Louisiana State University Health Sciences Center, The Ernest N. Morial Asthma, Allergy and Respiratory Disease Center Recruiting
New Orleans, Louisiana, United States
Contact: Marie Sandi    504-568-3450    mchild@lsuhsc.edu   
Principal Investigator: Kyle Happel, MD         
United States, Missouri
University of Missouri, Kansas City School of Medicine Recruiting
Kansas City, Missouri, United States
Contact: Patti Haney    816-404-5503    patti.haney@tmcmed.org   
Principal Investigator: Gary Salzman, MD         
Washington University/ St. Louis University Recruiting
St Louis, Missouri, United States
Contact: Jaime Tarsi    314-747-3074    jtarsi@dom.wustl.edu   
Principal Investigator: Mario Castro, MD, MPH         
United States, New York
Hofstra University School of Medicine Recruiting
Hempstead, New York, United States
Contact: Ramona Ramdeo    516-465-5461    rramdeo@lij.edu   
Principal Investigator: Rubin Cohen, MD         
Columbia University - New York University Consortium Recruiting
New York, New York, United States
Contact: Karen Carapetyan    212-263-2252    carapk01@nyumc.org   
Principal Investigator: Joan Reibman, MD         
New York Medical College Recruiting
Valhalla, New York, United States
Contact: Ingrid Gherson    914-594-3320    ingrid_gherson@nymc.edu   
Principal Investigator: Allen Dozor, MD         
United States, North Carolina
Duke University Medical Center Recruiting
Durham, North Carolina, United States
Contact: Catherine Foss    919-668-6530    catherine.foss@duke.edu   
Principal Investigator: John Sundy, MD, PhD         
United States, Ohio
Ohio State University Medical Center/ Columbus Children's Hospital Recruiting
Columbus, Ohio, United States
Contact: Janice Drake    614-366-2287    janice.drake@osumc.edu   
Principal Investigator: John Mastronarde, MD         
United States, Texas
Baylor College of Medicine Recruiting
Houston, Texas, United States
Contact: Laura Bertrand    713-798-2681    tyler@bcm.tmc.edu   
Principal Investigator: Nicola Hanania, MD, FCCP         
United States, Vermont
Northern New England Consortium Recruiting
Colchester, Vermont, United States
Contact: Stephanie Burns    802-847-2103    stephanie.burns@vtmednet.org   
Principal Investigator: Chrarles Irvin, PHD         
United States, Virginia
University of Virginia Recruiting
Charlottesville, Virginia, United States
Contact: Kristin Wavell    434-924-6874    kww7d@virginia.edu   
Principal Investigator: William Teague         
Sponsors and Collaborators
American Lung Association Asthma Clinical Research Centers
Investigators
Principal Investigator: Janet Holbrook, PHD Johns Hopkins University
  More Information

No publications provided

Responsible Party: Robert A. Wise, M.D., Robert A. Wise, M.D, American Lung Association Asthma Clinical Research Centers
ClinicalTrials.gov Identifier: NCT01629823     History of Changes
Other Study ID Numbers: ALA-ACRC-13, U01HL108730
Study First Received: June 25, 2012
Last Updated: August 1, 2013
Health Authority: United States: Institutional Review Board
United States: Federal Government
United States: Food and Drug Administration

Additional relevant MeSH terms:
Asthma
Bronchial Diseases
Respiratory Tract Diseases
Lung Diseases, Obstructive
Lung Diseases
Respiratory Hypersensitivity
Hypersensitivity, Immediate
Hypersensitivity
Immune System Diseases

ClinicalTrials.gov processed this record on April 21, 2014