Evaluation of Leak-free Bronchoscope Adapter

NCT ID: NCT05288218

Last Updated: 2023-09-01

Basic Information

• Recruitment Status: WITHDRAWN
• Clinical Phase: NA
• Study Classification: INTERVENTIONAL
• Study Start Date: 2023-05-31
• Study Completion Date: 2024-06-30

Brief Summary

Patients who develop respiratory failure require the assistance of mechanical ventilation while recovering from their respiratory injury. For example, patients that are affected by COVID-19 can develop such severe respiratory failure that they are unable to breathe on their own and therefore require the assistance of a mechanical ventilator. A Bronchoscope is a tool that can be used to visualize the inside of the lungs to aid in further diagnosis and delivery of therapeutic agents in patients with respiratory disease or failure. However, bronchoscopy can cause air to leak from the patient's lungs into the room due to a poorly designed adapter that is required to facilitate the introduction of the bronchoscope into the lungs. This leak can lead to the patient losing oxygen during the procedure which can be harmful to the patient and delay or limit recovery. Additionally, the air that leaks can lead to the spread of bacteria/viruses into the ambient air, which can contaminate the intensive care unit and expose other patients and healthcare workers to harmful pathogens. This was highlighted most recently during the COVID-19 pandemic where national guidelines limited the use of bronchoscopy in patients affected by the virus due to concerns about spreading the virus within the hospital and to the healthcare workers.

In this study, the investigators will evaluate the efficacy of a novel adapter that avoids air leakage during bronchoscopy. Patients with respiratory failure on mechanical ventilation who require bronchoscopy will be randomized into two groups (groups A and B). These patients will be identified by the intensive care unit physician. Informed consent will be obtained from the patient's health care proxy. Patients in group A will undergo bronchoscopy using the standard commercially available adapter. Patients in group B will undergo bronchoscopy using the newly developed bronchoscope adapter. The efficacy of the bronchoscopy adapter will be evaluated by analyzing ventilator-associated parameters as well as the level of air contamination after the procedure. A bronchoscope adapter that limits air leak would have significant value in improving patient outcomes who receive bronchoscopy. Additionally, this would allow bronchoscopy to be more readily performed in patients with potential bacterial/viral pathogen spread.

Primary objective: Determination of equivalency or superiority of the new "leak-free adapter" compared to the standard commercial adapter to enable safe bronchoscopy in ventilated patients requiring bronchoscopy.

Secondary objective: To determine if the adapter provides improved ventilation during bronchoscopy by limiting tidal volume loss and pathogen aerosolization.

Detailed Description

Patients who develop acute respiratory failure require hospitalization and mechanical ventilatory support. Of all patients admitted to intensive care units in the US, approximately 40% require mechanical ventilation. With the ongoing COVID-19 pandemic, approximately 18% of affected patients are expected to require mechanical ventilation.

Mechanical ventilation requires endotracheal intubation (cannulation of the patient's trachea) to deliver ventilated air to the lungs. Air is delivered by the ventilator to the patient using positive pressure in a closed circuit, ensuring adequate tidal volume to the patient without air escape to the outside environment. Nevertheless, patients placed on mechanical ventilation often develop superimposed infections known as "Ventilator-Associated Pneumonia" (VAP) as well as significant mucus secretions which limit effective mechanical ventilation. A camera tipped device is used to enable more effective bronchoscopy to visualize and explore the tracheobronchial tree for both diagnostic (bacterial/viral sampling) and therapeutic (suctioning obstructive mucus secretions, delivery of therapeutic agents) purposes.

Despite clear diagnostic and therapeutic benefits, bronchoscopy is also associated with substantial morbidity and complications. To perform bronchoscopy, a standard (commercially available) adapter allows the bronchoscope to enter the closed ventilation circuit, providing direct access to the patient's airways. However, the standard adapter leads to a significant leak of tidal volume outside of the ventilation circuit to the ambient environment. This air leak from the adapter leads to two major complications: First, the loss of positive pressure ventilation to patients means that oxygen is not being delivered to the patient and therefore leads to hypoxemia, which limits the duration and efficacy of bronchoscopy. Second, escaped air from the ventilator circuit can lead to the generation of aerosols, which can lead to the significant spread of viral and bacterial infectious agents to the ambient environment and surrounding healthcare providers. Intensive care units (ICUs) in the US must employ negative pressure ventilation to limit pathogen spread outside of the room and to the rest of the ICU. ICU rooms equipped with standard room negative pressure ventilation require 46 minutes after bronchoscopy to clear 99% of aerosolized pathogens. Thus, despite the known diagnostic and therapeutic benefits of bronchoscopy, concerns surrounding viral exposure related to an air leak from bronchoscopy adapters led to the development of national guidelines that limited bronchoscopy in patients affected by Covid-19.

To overcome these limitations, the investigators developed a novel bronchoscope adapter capable of effectively limiting all tidal volume loss (i.e., air leak via adapter) associated with the currently available standard adapters. In ex-vivo and animal studies, the investigators noted that a significant portion of tidal volume delivered by the ventilator is lost to the ambient air when using the standard bronchoscope adapter using the standard adapter (~40%). There was no tidal volume loss associated with the Leak-free bronchoscope adapter. The innovation in this adapter's development lies in the capacity to form an improved seal around the bronchoscope that limits tidal volume loss around the bronchoscope and captures air that escapes the circuit with the insertion and removal of the bronchoscope. Of note, the adapter is positioned outside the circuit and is only a conduit for the bronchoscope to enter the circuit.

Here the investigators propose a comparative effectiveness study that evaluates the leak-free bronchoscope adapter's use to enable bronchoscopy similar to the standard adapter. Additionally, the investigators will evaluate the adapter's capacity to deliver either equivalent tidal volume to the currently available adapter in patients undergoing bronchoscopy.

Conditions

Respiratory Insufficiency

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: SUPPORTIVE_CARE
• Blinding Strategy: DOUBLE

Study Groups

Leak-free bronchoscope adapter

The mechanical ventilation circuit used in patients with respiratory failure is considered a closed-loop circuit between the patient and the ventilator. This allows air to flow from the ventilator to the patient and back to the circuit without escaping to the ambient environment. To perform bronchoscopy, a standard adapter is spliced into the ventilator circuit, which allows the bronchoscope to enter the ventilation circuit granting access to the patient's airways. This study will compare the efficacy of the standard commercially available adapter to the newly developed leak-free adapter. The intervention is considered the "leak-free bronchoscope adapter."

Group Type: EXPERIMENTAL

Leak-free Bronchoscope Adapter

Intervention Type: DEVICE

A novel leak-free bronchoscope adapter will connect to the ventilation circuit in place of a standard adapter.

Standard bronchoscope adapter

The mechanical ventilation circuit used in patients with respiratory failure is considered a closed-loop circuit between the patient and the ventilator. This allows air to flow from the ventilator to the patient and back to the circuit without escaping to the ambient environment. To perform bronchoscopy, a standard adapter is spliced into the ventilator circuit, which allows the bronchoscope to enter the ventilation circuit granting access to the patient's airways. This study will compare the efficacy of the standard commercially available adapter to the newly developed leak-free adapter. This arm utilizes the standard adapter.

Group Type: ACTIVE_COMPARATOR

Standard Bronchoscope Adapter

Intervention Type: DEVICE

Commercially available bronchoscope adapter (Smiths Medical)

Interventions

Leak-free Bronchoscope Adapter

A novel leak-free bronchoscope adapter will connect to the ventilation circuit in place of a standard adapter.

Intervention Type: DEVICE

Standard Bronchoscope Adapter

Commercially available bronchoscope adapter (Smiths Medical)

Intervention Type: DEVICE

Eligibility Criteria

Exclusion Criteria

2. Male or female

3. Aged 18 years or above

The participant may not enter the study if ANY of the following apply:

1. Female participants who are pregnant during the study.

2. SpO2 (oxygen saturation) < 90% at baseline.

3. The patient requires high ventilation requirements as indicated by a positive end-expiratory pressure (PEEP) greater than 20 mmHg or inspired oxygen requirements greater than 90%.

4. Hemodynamic instability requiring significant use of vasoactive pressors to maintain blood pressure.

5. Any other significant disease or disorder that, in the Investigator's opinion, may either put the participants at risk because of participation in the study or may influence the result of the study.

• Minimum Eligible Age: 18 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: Yes

Sponsors

State University of New York - Downstate Medical Center

OTHER

Sponsor Role: collaborator

Columbia University

OTHER

Sponsor Role: lead

Responsible Party

Beth Hochman

Assistant Professor of Surgery (in Anesthesiology), Dept of Surgery Acute Care

Responsibility Role: PRINCIPAL_INVESTIGATOR

Principal Investigators

Beth Hochman, MD

Role: PRINCIPAL_INVESTIGATOR

Columbia University

References

Wunsch H, Wagner J, Herlim M, Chong DH, Kramer AA, Halpern SD. ICU occupancy and mechanical ventilator use in the United States. Crit Care Med. 2013 Dec;41(12):2712-9. doi: 10.1097/CCM.0b013e318298a139.

Reference Type: BACKGROUND

PMID: 23963122 (View on PubMed)

Cummings MJ, Baldwin MR, Abrams D, Jacobson SD, Meyer BJ, Balough EM, Aaron JG, Claassen J, Rabbani LE, Hastie J, Hochman BR, Salazar-Schicchi J, Yip NH, Brodie D, O'Donnell MR. Epidemiology, clinical course, and outcomes of critically ill adults with COVID-19 in New York City: a prospective cohort study. Lancet. 2020 Jun 6;395(10239):1763-1770. doi: 10.1016/S0140-6736(20)31189-2. Epub 2020 May 19.

Reference Type: BACKGROUND

PMID: 32442528 (View on PubMed)

Kalanuria AA, Ziai W, Mirski M. Ventilator-associated pneumonia in the ICU. Crit Care. 2014 Mar 18;18(2):208. doi: 10.1186/cc13775. No abstract available.

Reference Type: BACKGROUND

PMID: 25029020 (View on PubMed)

Chhajed PN, Glanville AR. Management of hypoxemia during flexible bronchoscopy. Clin Chest Med. 2003 Sep;24(3):511-6. doi: 10.1016/s0272-5231(03)00050-9.

Reference Type: BACKGROUND

PMID: 14535223 (View on PubMed)

Tran K, Cimon K, Severn M, Pessoa-Silva CL, Conly J. Aerosol generating procedures and risk of transmission of acute respiratory infections to healthcare workers: a systematic review. PLoS One. 2012;7(4):e35797. doi: 10.1371/journal.pone.0035797. Epub 2012 Apr 26.

Reference Type: BACKGROUND

PMID: 22563403 (View on PubMed)

Other Identifiers

AAAT3916

Identifier Type: -

Identifier Source: org_study_id