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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT05829083
Other study ID # 51886
Secondary ID
Status Recruiting
Phase N/A
First received
Last updated
Start date July 18, 2023
Est. completion date May 1, 2024

Study information

Verified date November 2023
Source Larissa University Hospital
Contact Ioannis Pantazopoulos, Ph.D.
Phone 6945661525
Email pantazopoulosioannis@yahoo.com
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The goal of this clinical trial is to compare the new asymmetric nasal high flow interface with the conventional high flow nasal cannula in patients with COPD exacerbation. The main questions the study aims to answer are: • Does the use of the asymmetric interface lead to: 1. A greater decrease in the patients' carbon dioxide 2. A greater decrease in respiratory rate and less dyspnea 3. Less need for advanced oxygen therapy measures 4. Same tolerance and comfort 5. Lower heart rate and blood pressure Participants will be asked to: Wear the asymmetric and conventional cannulas for 3 hours each with a 30 minute gap in-between. Arterial blood samples and various clinical parameters will be collected throughout the study period. Researchers will compare the effect of asymmetric versus conventional cannulas to answer the aforementioned questions.


Description:

Methods Study design and setting A randomized crossover clinical trial will be conducted at the University General Hospital of Larissa and Sotiria Thoracic Diseases Hospital of Athens. The order of therapy will be allocated using sequentially numbered, sealed envelopes not prepared by the study staff. It is not possible for the researchers or the patients to be blinded, due to the research design. Patients presenting to the emergency medicine department of the aforementioned hospitals with acute exacerbation of COPD will be screened for suitability. Consent to participate in the trial will be obtained from the patient or next of kin and the study will be conducted according to ICH-GCP and clinical trial regulations. The results of the study will be presented based on the CONSORT 2010 statement for randomized crossover trials. Hypothesis The investigators hypothesize that patients on DUET asymmetric nasal high flow interface will generate higher external PEEP and will achieve a better clearance of CO2 compared to conventional NHF interface, leading to less inspiratory effort, less work of breathing and thus in reduction of pCO2 levels. Study population and interventions Patients considered eligible for the study will be those (1) presenting to the emergency department with (2) acute exacerbation of COPD (defined as any worsening of the patient's respiratory symptoms that is beyond normal day-to-day variations and leads to change in medication) with (3) mild-to-moderate acute hypercapnic respiratory failure (defined as 7.35>pH>7.25 and arterial CO2 tension (PaCO2) >45 mmHg). Patients will be excluded if they meet one or more of the following criteria: acute on chronic hypercapnic respiratory failure, severe facial deformity, facial burns, fixed upper airway obstruction and any of the following criteria for imminent intubation and invasive mechanical ventilation (i.e. respiratory or cardiac arrest, diminished consciousness (Glasgow coma score <8), psychomotor agitation inadequately controlled by sedation, massive aspiration, persistent inability to remove respiratory secretions, severe haemodynamic instability unresponsive to fluids and vasoactive drugs, severe ventricular or supraventricular arrhythmias and life threatening hypoxaemia). Fifty patients with acute exacerbation of COPD and mild to moderate hypercapnic respiratory failure will receive NHF oxygen therapy. Twenty-five patients will be randomly assigned to first receive NHF oxygen therapy with the largest DUET asymmetric NHF interface that fits best to the patients' nostrils, followed by medium size conventional NHF interface. Twenty-five patients will be randomly assigned to receive NHF oxygen therapy with medium size conventional NHF interface first, followed by the largest DUET asymmetric NHF interface that fits best to the patients' nostrils. During the study period, all patients will be studied in a semi-recumbent position and monitoring equipment will be applied. All patients will receive NHF therapy with the initial setting of flow at 60 lt/min, temperature at 37°C and FiO2 adjusted to maintain SpO2 between 88-92%. The NHF device and consumables will be the same for all patients (AIRVO 3, Fisher & Paykel Healthcare Ltd., Auckland, New Zealand). Patients will receive the first randomized therapy for 3 hours (NHF therapy with DUET or conventional NHF interface), followed by a 30 min washout period of conventional oxygen therapy to control for the carry-over effect, after which they will cross over to the second therapy for 3 hours (NHF therapy with the largest DUET or conventional medium size NHF interface). At any study point, if patient discomfort and/or deterioration or lack of improvement of the abovementioned physiologic variables occur, the researcher-attending physician will be free to switch the patient to NIV or invasive mechanical ventilation. Data collection A case report form will be filled for each study participant. Demographic data including sex, age, weight, height, most recent pulmonary function testing and any concomitant health problems will be documented. Arterial blood gases (ABGs), vital signs (systolic and diastolic arterial pressure, heart rate), respiratory variables (respiratory rate, accessory muscle use, thoracoabdominal asynchrony), dyspnea score (with the Borg scale) and any pulmonary or extrapulmonary complications will be assessed. Researchers will also record patient's comfort by assessing the following: machine noise levels, mouth dryness and general perception of tolerance using a visual analogue scale from 0 (no inconvenience due to noise, no dryness, no discomfort) to 10 (maximum inconvenience due to noise, maximum dryness, maximum discomfort). Pulse oximetry and calibrated transcutaneous CO2 monitoring will be attached and monitored continuously during the study period. A bio-impedance surface sensor will be placed and calibrated to measure noninvasively and continuously respiratory rate, tidal volume and minute ventilation (ExSpiron 2Xi, Respiratory motion, Inc., Waltham,MA). The abovementioned measurements including ABGs will be collected at baseline, at the end of first randomized therapy, at the end of the washout period and at the end of the second therapy. The cut-off values of the examined physiologic parameters indicating poor outcome with NHF are SpO2<88% not corrected with supplemental oxygen, respiratory rate >35 breaths·min-1, thoraco-abdominal asynchrony and auxiliary respiratory muscle use, worsening of hypercapnia and acidaemia, indicating further respiratory muscle fatigue and sequential organ failure assessment score >4.


Recruitment information / eligibility

Status Recruiting
Enrollment 50
Est. completion date May 1, 2024
Est. primary completion date April 1, 2024
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - acute exacerbation of COPD (defined as any worsening of the patient's respiratory symptoms that is beyond normal day-to-day variations and leads to change in medication) - mild-to-moderate acute hypercapnic respiratory failure (defined as 7.35>pH>7.25 and arterial CO2 tension (PaCO2) >45 mmHg) Exclusion Criteria: - acute on chronic hypercapnic respiratory failure - severe facial deformity, facial burns, fixed upper airway obstruction - indication for imminent intubation and invasive mechanical ventilation (i.e. respiratory or cardiac arrest, diminished consciousness (Glasgow coma score <8) - psychomotor agitation inadequately controlled by sedation - massive aspiration - persistent inability to remove respiratory secretions - severe haemodynamic instability unresponsive to fluids and vasoactive drugs - severe ventricular or supraventricular arrhythmias - life threatening hypoxaemia

Study Design


Related Conditions & MeSH terms


Intervention

Device:
Asymmetric nasal cannula - DUET
DUET asymmetric nasal high flow interface that fits best to the patients' nostrils (size: one nostril of the patient should be fully occluded) Patients will be crossed-over between the 2 interventions
Conventional nasal high flow cannula
Well-established conventional nasal high flow cannula (size: medium) Patients will be crossed-over between the 2 interventions

Locations

Country Name City State
Greece Sotiria General Hospital Athens
Greece University Hospital of Larissa Larissa

Sponsors (2)

Lead Sponsor Collaborator
Larissa University Hospital Sotiria General Hospital

Country where clinical trial is conducted

Greece, 

References & Publications (4)

Crimi C, Noto A, Madotto F, Ippolito M, Nolasco S, Campisi R, De Vuono S, Fiorentino G, Pantazopoulos I, Chalkias A, Libra A, Mattei A, Scala R, Clini EM, Ergan B, Lujan M, Winck JC, Giarratano A, Carlucci A, Gregoretti C, Groff P, Cortegiani A; COVID-HIGH Investigators. High-flow nasal oxygen versus conventional oxygen therapy in patients with COVID-19 pneumonia and mild hypoxaemia: a randomised controlled trial. Thorax. 2023 Apr;78(4):354-361. doi: 10.1136/thoraxjnl-2022-218806. Epub 2022 May 17. — View Citation

Ischaki E, Pantazopoulos I, Zakynthinos S. Nasal high flow therapy: a novel treatment rather than a more expensive oxygen device. Eur Respir Rev. 2017 Aug 9;26(145):170028. doi: 10.1183/16000617.0028-2017. Print 2017 Sep 30. — View Citation

Pantazopoulos I, Daniil Z, Moylan M, Gourgoulianis K, Chalkias A, Zakynthinos S, Ischaki E. Nasal High Flow Use in COPD Patients with Hypercapnic Respiratory Failure: Treatment Algorithm & Review of the Literature. COPD. 2020 Feb;17(1):101-111. doi: 10.1080/15412555.2020.1715361. Epub 2020 Jan 22. — View Citation

Papalampidou A, Bibaki E, Boutlas S, Pantazopoulos I, Athanasiou N, Moylan M, Vlachakos V, Grigoropoulos V, Eleftheriou K, Daniil Z, Gourgoulianis K, Kalomenidis I, Zakynthinos S, Ischaki E. Nasal high-flow oxygen versus noninvasive ventilation in acute exacerbation of COPD: protocol for a randomised noninferiority clinical trial. ERJ Open Res. 2020 Oct 19;6(4):00114-2020. doi: 10.1183/23120541.00114-2020. eCollection 2020 Oct. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary Arterial PCO2 Change in PCO2 Immediately before and after the application of 3 hours of nasal high flow therapy (3 hours for each cannula type)
Secondary Respiratory rate Change in respiratory rate Immediately before and after the application of 3 hours of nasal high flow therapy (3 hours for each cannula type)
Secondary Invasive or non-invasive mechanical ventilation Need for Invasive or non-invasive mechanical ventilation At the end of hospitalization (assessed up to 6 months), researchers will note if the patient needed invasive or non-invasive mechanical ventilation
Secondary Tolerance Subjective tolerance of patients using visual analog scale (Score range: 0-10, higher scores indicate higher levels of tolerance) Immediately before and after the application of 3 hours of nasal high flow therapy (3 hours for each cannula type)
Secondary Comfort Subjective comfort of patients using visual analog scale (Score range: 0-10, higher scores indicate higher levels of comfort) Immediately before and after the application of 3 hours of nasal high flow therapy (3 hours for each cannula type)
Secondary Heart rate Patients' heart rate Immediately before and after the application of 3 hours of nasal high flow therapy (3 hours for each cannula type)
Secondary Blood pressure Patients' blood pressure Immediately before and after the application of 3 hours of nasal high flow therapy (3 hours for each cannula type)
Secondary Dyspnea Subjective dyspnea levels Immediately before and after the application of 3 hours of nasal high flow therapy (3 hours for each cannula type)
Secondary Tidal volume Measurement of the amount of air that enters the lung per breath Immediately before and after the application of 3 hours of nasal high flow therapy (3 hours for each cannula type)
Secondary Minute ventilation Measurement of the amount of air that enters the lungs per minute Immediately before and after the application of 3 hours of nasal high flow therapy (3 hours for each cannula type)
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