NCT03728712

Brief Summary

Ventilation heterogeneity is a hallmark feature of most obstructive pulmonary diseases. In particular, chronic obstructive pulmonary disease (COPD) is pathologically and physiologically characterized by small airway destruction and marked airway cellular inflammation, which result in prominent expiratory airflow limitation, air trapping, hyperinflation and abnormal gas exchange. COPD is strongly linked with the exposition to inhaled irritants, most notably tobacco smoke, and is as such a potentially preventable disease. COPD-related morbidity, mortality and social costs are high: in Canada, COPD is the main cause of hospital admission among all chronic diseases and is the fourth leading cause of death. Diagnosis of COPD requires the objective demonstration of expiratory airflow limitation using spirometry. In the right clinical context, a post-bronchodilator forced vital capacity (FVC) / forced expiratory volume in 1 second (FEV1) ratio \<0.70 is considered indicative of the presence of COPD, and therefore pulmonary function testing is required to make the diagnosis. However, the natural history of COPD represents a slowly-progressive continuum: active smokers that do not meet the criteria for COPD are still at risk of developing the disease. In fact, when compared to healthy non-smokers, active smokers without overt COPD can already show some pathological and clinical features of the disease. Notably, they report increased levels of resting dyspnea, chronic cough, lower exercise capacity, exercise-induced dynamic hyperinflation and marked airway inflammatory cellular infiltration, while conserving normal pulmonary function test values. These findings highlight the negative, clinically-measurable effects of tobacco smoking on pulmonary function, but also the limitations of standard pulmonary function testing in identifying the presence of early, mild airway disease and quantifying physiological limitations in these subjects. As such, there is a need for a novel, simple and reliable method of quantifying airway disease in this population. Quantitative lung ventilation single-photon emission computed tomography (SPECT) allows an objective quantification of the regional heterogeneity of ventilation in humans. The coefficient of variation (CV) of the distribution of a radioactive tracer, inhaled during the test, allows the generation of heterogeneity maps and density curves of small elements of the lung. These variables are sensitive to the presence of COPD, asthma, air trapping and are correlated to even slight anomalies in pulmonary function testing in otherwise healthy subjects. As such, SPECT could prove useful as an early marker of airway disease in active smokers at risk of developing COPD, but its use in this context has never been formally tested. This pilot study addresses the question of whether lung SPECT could provide clinically relevant information on airway disease in active smokers without overt lung disease on pulmonary lung function testing.

Trial Health

87
On Track

Trial Health Score

Automated assessment based on enrollment pace, timeline, and geographic reach

Enrollment
30

participants targeted

Target at below P25 for all trials

Timeline
Completed

Started Jan 2019

Typical duration for all trials

Geographic Reach
1 country

1 active site

Status
completed

Health score is calculated from publicly available data and should be used for screening purposes only.

Trial Relationships

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Study Timeline

Key milestones and dates

First Submitted

Initial submission to the registry

October 31, 2018

Completed
2 days until next milestone

First Posted

Study publicly available on registry

November 2, 2018

Completed
3 months until next milestone

Study Start

First participant enrolled

January 30, 2019

Completed
3.8 years until next milestone

Primary Completion

Last participant's last visit for primary outcome

November 9, 2022

Completed
Same day until next milestone

Study Completion

Last participant's last visit for all outcomes

November 9, 2022

Completed
Last Updated

November 14, 2022

Status Verified

November 1, 2022

Enrollment Period

3.8 years

First QC Date

October 31, 2018

Last Update Submit

November 10, 2022

Conditions

Lung Function TestingCigarette SmokingSingle-photon Emission Computed Tomography (SPECT)Ventilation HomogeneityLung Disease Prevention

Outcome Measures

Primary Outcomes (1)

  • AUC-CV>20% values

    Density curves with coefficient values \>20% will be compared among the two groups of participants

    Immediately after data acquisition

Secondary Outcomes (2)

  • Relationship between AUC-CV>20% values and lung function data

    Immediately after data acquisition

  • Relationship between AUC-CV>20% values and clinical symptoms

    Immediately after data acquisition

Study Arms (2)

Never smokers

Participants with no history of cigarette smoking

Diagnostic Test: SPECT/CT

Active smokers

Participants with an active history of cigarette smoking AND at least 10 pack-years total smoking history

Diagnostic Test: SPECT/CT

Interventions

SPECT/CTDIAGNOSTIC_TEST

Technegas-Tc99m is approved by Health Canada for the evaluation of ventilation. Technegas will be prepared with a Technegas Generator (Cyclomedica) according to the manufacturer recommendations with a simmer phase and a burning phase. 95% ethanol will be used to wet the carbon crucible. The crucible will be loaded with 20-30 mCi of Tc99m. Tc99m has a physical half-life of 6 hours. Technegas will be administered to the patient within 10 minutes of its preparation, in a separate room than the scanning room. The inhalation technique will be rehearsed with the patient prior to the actual inhalation. The patient will be in supine position. A mouth piece and a nose clip will be used. The patient will be instructed to take 3 breaths of Technegas, starting after normal exhalation. A survey meter will be used to monitor the quality of the inhalation.

Active smokersNever smokers

Eligibility Criteria

Age18 Years+
Sexall
Healthy VolunteersNo
Age GroupsAdult (18-64), Older Adult (65+)
Sampling MethodNon-Probability Sample
Study Population

Participants will include non-obese adults with or without a history of cigarette smoking who performed normal lung function tests.

You may qualify if:

  • Active tobacco smoking of at least 10 cigarettes/day AND total smoking history of at least 15 pack-years.
  • Normal lung function testing, defined as: FVC/FEV1 ratio, FEV1 and FVC all greater than the lower limit of normal; mean forced expiratory flow at 25 to 75% of CVF (FEF25-75%) \>80% of predicted value and absence of concavity on the forced expiratory flow curve, as evaluated by a trained respirologist; total lung capacity (TLC) greater than the lower limit of normal; residual volume (RV), functional residual capacity (FRC), expiratory reserve volume (ERV), inspiratory capacity (IC) and VR/TLC ratio all \>80% predicted value and diffusion capacity of the lung for carbon monoxide (DLCO) \>80% predicted value when corrected for hemoglobin level.
  • Body mass index (BMI) \<30 kg/m2

You may not qualify if:

  • Post-bronchodilator change in FEV1 and FVC of more than 6% and/or 100 ml.
  • For Non-smokers group:
  • No history of tobacco-smoking.
  • Normal lung function testing, defined as: FVC/FEV1 ratio, FEV1 and FVC all greater than the lower limit of normal; mean forced expiratory flow at 25 to 75% of CVF (FEF25-75%) \>80% of predicted value and absence of concavity on the forced expiratory flow curve, as evaluated by a trained respirologist; total lung capacity (TLC) greater than the lower limit of normal; residual volume (RV), functional residual capacity (FRC), expiratory reserve volume (ERV), inspiratory capacity (IC) and VR/TLC ratio all \>80% predicted value and diffusion capacity of the lung for carbon monoxide (DLCO) \>80% predicted value when corrected for hemoglobin level.
  • Body mass index (BMI) \<30 kg/m2
  • Post-bronchodilator change in FEV1 and FVC of more than 6% and/or 100 ml.

Contact the study team to confirm eligibility.

Sponsors & Collaborators

Study Sites (1)

Centre Hospitalier de l'Université de Montréal (CHUM)

Montreal, Quebec, H2X 3E4, Canada

Location

MeSH Terms

Conditions

Cigarette Smoking

Interventions

Single Photon Emission Computed Tomography Computed Tomography

Condition Hierarchy (Ancestors)

Tobacco SmokingSmokingBehaviorTobacco Use

Intervention Hierarchy (Ancestors)

Tomography, Emission-Computed, Single-PhotonTomography, Emission-ComputedImage Interpretation, Computer-AssistedDiagnostic ImagingDiagnostic Techniques and ProceduresDiagnosisTomography, X-Ray ComputedMultimodal ImagingRadiographic Image EnhancementImage EnhancementPhotographyRadiographyTomography, X-RayRadionuclide ImagingTomographyDiagnostic Techniques, Radioisotope

Study Officials

  • Bruno-Pierre Dubé, MD

    Centre hospitalier de l'Université de Montréal (CHUM)

    PRINCIPAL INVESTIGATOR

Study Design

Study Type
observational
Observational Model
CASE CONTROL
Time Perspective
PROSPECTIVE
Sponsor Type
OTHER
Responsible Party
SPONSOR

Study Record Dates

First Submitted

October 31, 2018

First Posted

November 2, 2018

Study Start

January 30, 2019

Primary Completion

November 9, 2022

Study Completion

November 9, 2022

Last Updated

November 14, 2022

Record last verified: 2022-11

Data Sharing

IPD Sharing
Will not share

Locations

CA(1)