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In a context where the use of inhalation devices for respiratory medications is associated with a high frequency of critical errors, our primary hypothesis is that the use of the HEPHAÏ solution reduces this frequency compared to standard care.
The objective of this clinical study is to evaluate the performance of the HEPHAÏ solution as a tool for improving the administration of inhaled treatments in patients undergoing pulmonary care for asthma and/or COPD, who are receiving treatment with Innovair® or Trimbow®. These two inhalers were chosen for reasons of feasibility and compatibility with the version of the HEPHAÏ software provided as part of the clinical investigation
The proper use of inhalation devices is crucial to relieving asthma and COPD symptoms and preventing exacerbations of these diseases. The improper use of these devices is currently considered a major problem. HEPHAI (Class I Medical Device) is a versatile application based on artificial intelligence (AI), allowing to recognize the appropriate use of an inhalation device by analyzing (without any sensors either on the patient or on the inhaler), the sequence of movements and sounds necessary for error-free intake. The HEPHAI application allows the patient to film themselves directly when using their inhaler, to interrogate in real time an AI based on behavior recognition (movements and sounds), to give the patient an immediate result, and to set up a corrective process if the intake has not been properly carried out.
HEPHAÏ is thus a companion tool to the inhaler prescribed by the doctor, which allows the patient to benefit from assistance in the use of his or her personalized inhaler at home.
Among patients using an inhalation device for their treatment, 30% to 40% make errors of use that are considered "critical", i.e. making the treatment ineffective or drastically reducing its effectiveness. Beyond its clinical impact (persistence of symptoms, decreased adherence, increased risk of exacerbation), the economic cost of this inadequate use is estimated at nearly one billion euros per year in France, with a major weight of hospitalizations for exacerbations.
In this contaxt, the objective of the present study is to evaluate the performance of the HEPHAÏ solution as a tool for improving the administration of inhaled treatments in patients undergoing pulmonary care for asthma and/or COPD.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Standard care | No Intervention | Patient who received inhaled treatment with Innovair® or Trimbow® as a part standard care for 6 months | |
| Hephai | Experimental | Patient using the Hephaï medical device as a tool who received inhaled treatment with Innovair® or Trimbow® as a part standard care for 6 months |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Hephaï | Device | Used of the HEPHAI medical device as a tool to improve the delivery of inhaled treatments for asthma and COPD |
|
| Measure | Description | Time Frame |
|---|---|---|
| Proportion of Critical Errors at week 12 | Assessment of the proportion of critical errors during inhaler use, from baseline to 3 months after initiation of the intervention. A critical error is defined as an error during use of the device that would compromise access of the inhaled medication to the respiratory tract, The methodology used to assess critical errors consists in comparing the results of the investigating physician's observation of use with a reference checklist developed on the basis of official recommendations for use. | Baseline and week 12 |
| Measure | Description | Time Frame |
|---|---|---|
| Proportion of Critical Errors at week 24 | Assessment of the proportion of critical errors during inhaler use, from baseline to 6 months after initiation of the intervention. A critical error is defined as an error during use of the device that would compromise access of the inhaled medication to the respiratory tract, The methodology used to assess critical errors consists in comparing the results of the investigating physician's observation of use with a reference checklist developed on the basis of official recommendations for use. |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Serge Kinkingnehun | Contact | +33 6 61 85 06 77 | serge@hephai.eu |
| Name | Affiliation | Role |
|---|---|---|
| Capucine Capucine.morelot@aphp.fr, Prof. | Department of Pneumonology, Pitié-Salpêtrière Hospital, | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| CHU de Dijon | Not yet recruiting | Dijon | 21079 | France |
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This is an interventional, multicenter, randomized, controlled clinical study.
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| Baseline to week 24 |
| Quality of Life Assessment (Saint-Georges' Hospital Questionnaire) | Assessment of quality of life using the Saint-Georges' Hospital questionnaire (French version) at each time, with a specific focus on the evolution from baseline to week 24 | Baseline to week 24 |
| Quality of Life Assessment (EQ5D5L Questionnaire) | Assessment of quality of life using the EQ5D5L questionnaire at each time, with a specific focus on the evolution from baseline to week 24 | Baseline to week 24 |
| Hôpital Arnaud de Villeneuve | Not yet recruiting | Montpellier | 34090 | France |
| Pitié-Salpêtrière Hospital | Recruiting | Paris | 75011 | France |
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| Hôpital COCHIN | Not yet recruiting | Paris | 75014 | France |
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| Hôpital BICHAT | Recruiting | Paris | 75018 | France |
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