Summary

Eligibility
for people ages 18-85 (full criteria)
Location
at San Francisco, California
Dates
study started
completion around
Principal Investigator
by John Fahy, MD, MS
Headshot of John Fahy
John Fahy

Description

Summary

The goal of this clinical trial is to determine if positive pressure during inspiration will improve penetration of aerosolized N-Acetylcysteine (NAC) into airway mucus plugs in the lungs of patients with asthma or Chronic Obstructive Pulmonary Disease (COPD).

The main questions it aims to answer are:

  • Does delivery of aerosolized NAC with positive inspiratory pressure have a greater effect on mucus plug burden in the lungs than delivery of NAC without positive pressure.
  • Does delivery of aerosolized NAC with positive inspiratory pressure have a greater effect on lung function than delivery of NAC without positive pressure.

Participants will be assigned (in a single blind design) to the NAC via jet nebulizer group or the NAC via AeroEclipse-VersaPAP nebulizer group. Participants will each complete 5 treatment visits over the course of 30 days. Each treatment visit will consist of two treatments of a 10% NAC (3 mL) and 2.5 mg albuterol (0.5mL) inhalation solution separated by 4 hours, via the nebulization method specific to their group.

Official Title

The Effects of Positive Airway Pressure on the Mucolytic Effects of NAC

Details

The optimal method for delivering aerosolized N-acetyl cysteine (NAC, Mucomyst) to the airways for the purpose of lysing mucus plugs is not established. The challenge is to ensure that the NAC aerosol penetrates the mucus plug to lyse it. We hypothesize that increasing the inspiratory pressure during aerosol inhalation will improve mixing of NAC with plugs and increase the chance of lysis within the time that the NAC liquid medication "dwells" in the plugged airway segment. Usual nebulizer systems that generate aerosols for inhalation do not allow for application of pressure during inspiration, but the VersaPAP system (from Monaghan Medical Corporation) has this capability. Specifically, the VersaPAP system combines continuous positive pressure during inspiration while the patient inhales aerosol medication, and the pressure will generate viscous fingers in the mucus plugs to aid lysis.

Recent published work from the Fahy lab has revealed that airway mucus plugs can be identified on low dose CT scans of the lungs and quantified using a bronchopulmonary segment based system to generate a measure that quantifies the mucus plug burden in the lung. This CT based mucus plug scoring system provides a predictive and monitoring biomarker for mucus plug pathology in the lungs of patients with asthma and COPD.

This is a single-blind phase 4 clinical trial designed to help determine the optimal method of delivery of aerosolized NAC to patients with mucus-associated lung disease (asthma and COPD). Subjects will be screened for evidence of mucus in their lungs as determined by CT imaging. Eligible participants will then be assigned to the NAC via jet nebulizer group or the NAC via AeroEclipse-VersaPAP nebulizer group and complete 5 treatment visits over the course of 30 days. Each treatment visit will consist of two treatments of a 10% NAC (3 mL) and 2.5 mg albuterol (0.5mL) inhalation solution separated by 4 hours, via the nebulization method specific to their group.

Keywords

Asthma, COPD, Mucolytic, Mucus Plug, Positive Pressure, NAC, Acetylcysteine, Albuterol, N-monoacetylcystine, n-acetylcystine (NAC)+ albuterol, AeroEclipse-VersaPAP System, NAC via jet nebulizer, NAC via AeroEclipse-VersaPAP

Eligibility

You can join if…

Open to people ages 18-85

Asthma Group:

  1. Male or female between the ages of 18 to 85 at Visit 1
  2. Written informed consent obtained from subject and ability for subject to comply with the requirements of the study.
  3. Able to perform reproducible spirometry according to American Thoracic Society (ATS) criteria
  4. Clinical history of asthma per patient report or medical record
  5. Asthma requiring treatment with inhaled corticosteroids (ICS) or biologic therapy for 3 months or greater
  6. Computed Tomography (CT) mucus score ≥ 3 (done as part of screening)
  7. There is no lower threshold on Forced Expiratory Volume in the first second (FEV1), which means the study will attempt to enroll all patients regardless of asthma severity. However, eligible participants will need to demonstrate ability to tolerate study treatment reflected by a post-treatment FEV1 ≥ 80% of pre- treatment, pre-bronchodilator FEV1. Participants who have a >20% drop in FEV1 after receiving any study treatment will be excluded from the study.
  8. For participants with known mucus plugging on CT: no limit on FEV1;

For participants with unknown mucus plugging: FEV1<70% predicted

COPD Group:

  1. Males or females between the ages 18 to 85 at the time of visit 1.
  2. Written informed consent obtained from subject and ability for subject to comply with the requirements of the study.
  3. History of COPD per patient report or medical record and confirmed by an FEV1/FVC ratio of under 70%.
  4. Current or former smoker with a history of at least 10 pack-years of smoking.
  5. CT mucus score ≥ 3
  6. There is no lower threshold on FEV1, which means the study will attempt to enroll all patients regardless of COPD severity. However, eligible participants will need to demonstrate ability to tolerate study treatment reflected by a post-treatment FEV1 ≥ 80% of pre- treatment, pre-bronchodilator FEV1. Participants who have a >20% drop in FEV1 after receiving any study treatment will be excluded from the study.
  7. For participants with known mucus plugging on CT: no limit on FEV1; For participants with unknown mucus plugging: FEV1<50% predicted

You CAN'T join if...

  1. A history of medical disease, which in the opinion of the investigator may put the subject at extra risk from study-related procedures or because the disease may influence the results of the study.
  2. Currently pregnant
  3. URI in past 10 days

Location

  • UCSF Airway Clinical Research Center accepting new patients
    San Francisco California 94143 United States

Lead Scientist at UCSF

  • John Fahy, MD, MS
    I am a Professor of Medicine in the Division of Pulmonary and Critical Care Medicine and the Department of Medicine at UCSF. I direct a research program in asthma and other airway diseases that is human centered and focused on uncovering disease mechanisms and improving treatment.

Details

Status
accepting new patients
Start Date
Completion Date
(estimated)
Sponsor
University of California, San Francisco
ID
NCT06152653
Phase
Phase 4 research study
Study Type
Interventional
Participants
Expecting 20 study participants
Last Updated