Investigation of the Respiratory Profile of Patients With Obstructive Pulmonary Disease (ASTHMA, COPD)

Last updated: May 2, 2025
Sponsor: Tradeflex Ltd
Overall Status: Active - Recruiting

Phase

N/A

Condition

Asthma

Treatment

N/A

Clinical Study ID

NCT06966271
NNGYK/GYSZ/36422-4/2024
  • Ages > 18
  • All Genders

Study Summary

The primary aim of the OPTIPULM study is the evaluation of recorded pulmonary function curves and, based on them, the computer modelling of lung deposition for the individually used or potentially applicable inhalation drugs. The secondary aims include assessing the patients' inhalation device usage and providing recommendations for its optimization based on the recorded breathing curves and deposition calculations. The study also compares results across different flow rates and device resistances, aiming to identify the device with the highest modelled lung deposition for each patient.

Understanding and Improving Inhalation Therapy in Lung Disease The OPTIPULM study looks at how well inhaled medications reach the lungs of people living with asthma or COPD (chronic obstructive pulmonary disease). It aims to improve treatment by helping doctors choose the best inhaler for each patient based on how they breathe.

Every patient breathes differently, and not all inhalers work the same way. Sometimes the medicine doesn't reach deep enough into the lungs, which can make treatment less effective. This study helps doctors better understand which device works best for each individual.

What happens during the study? No new treatments or changes to medication are made.

Patients do a regular breathing test (like blowing into a tube). A computer program uses this breathing data to simulate how much medicine reaches the lungs with different inhalers.

Doctors can then make more personalized choices for inhalation therapy.

Who can take part? Adults with asthma or COPD who are able to use their inhaler correctly and complete a breathing test.

What is the benefit? Although the study does not change treatments directly, it helps improve future care by identifying the best-matching inhaler for each patient. This can lead to better symptom control and fewer exacerbations.

Eligibility Criteria

Inclusion

Primary Outcome Measure:

Estimated Lung Deposition of Inhaled Medication (% of Emitted Dose): The proportion of the inhaled drug dose predicted to deposit in the lungs, calculated via computer modeling using each participant's individual pulmonary function curve and inhalation parameters.

Inclusion criteria:

  • Diagnosed obstructive pulmonary disease (asthma or COPD) confirmed by apulmonologist.

  • Proper use of inhalation device after training.

  • Routine pulmonary function test performed during medical visit.

  • Ambulatory (non-hospitalized) patient.

  • Age over 18 years.

  • Mentally competent and able to consent.

Exclusion

Exclusion criteria:

  • Failure to meet any of the inclusion criteria.

  • Inability to complete the relevant parts of the questionnaire.

  • Refusal to consent to participation.

  • Presence of untreated severe chronic illness.

  • Invalid or improperly conducted pulmonary function test.

Study Design

Total Participants: 150
Study Start date:
January 01, 2025
Estimated Completion Date:
December 30, 2025

Study Description

Study Title:

Assessment of the Relationship Between Inhalation Therapy Effectiveness and Breathing Profiles in Patients with Obstructive Pulmonary Diseases (OPTIPULM)

The primary goal of this observational cross-sectional study is to analyze the relationship between patients' breathing characteristics and the effectiveness of their inhaled therapies. The study targets adult patients diagnosed with asthma or chronic obstructive pulmonary disease (COPD).

Background and Rationale:

Asthma and COPD are chronic obstructive airway diseases with increasing prevalence worldwide. Despite the availability of a wide range of inhaled medications and delivery devices, therapy is often suboptimal due to patient-specific factors such as improper inhalation technique or mismatch between inhaler resistance and the patient's inspiratory capacity.

Emerging data suggest that aerosol deposition in the lungs-and therefore the efficacy of treatment-can be significantly influenced by the individual's breathing profile and the inhalation device used. However, this is rarely taken into account in routine clinical practice.

Study Objectives:

Primary Objective:

To evaluate individual pulmonary function test (PFT) data and, based on this, to model and estimate drug deposition in the lungs using computer simulation for various inhaler-drug combinations.

Secondary Objectives:

To assess the inhalation techniques of patients.

To recommend device optimization strategies based on flow-resistance matching.

To identify which device (among commercially available options) is most likely to deliver the highest lung deposition for the individual patient.

Connect with a study center

  • Országos Korányi Pulmonológiai Intézet

    Budapest,
    Hungary

    Site Not Available

  • Csornai Margit Kórház Pulmonológiai és Allergológia Szakambulancia

    Csorna,
    Hungary

    Site Not Available

  • Debreceni Egyetem Tüdőgyógyászati Klinika

    Debrecen,
    Hungary

    Site Not Available

  • Dunakeszi-SZTK Nonprofit Kft. Tüdőgyógyászat

    Dunakeszi,
    Hungary

    Site Not Available

  • Győr-Moson-Sopron Vármegyei Petz Aladár Egyetemi Oktató Kórház

    Győr,
    Hungary

    Site Not Available

  • • Szegedi Tudományegyetem Szent-Györgyi Albert Klinikai Központ Tüdőgyógyászati Klinika

    Szeged,
    Hungary

    Site Not Available

  • Református Pulmonológiai Centrum

    Törökbálint,
    Hungary

    Active - Recruiting

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