Pilot Study to Evaluate the Role of EBUS in the Diagnosis of Acute PE in Critically Ill Patients
NCT ID: NCT04047784
Last Updated: 2025-04-30
Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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ENROLLING_BY_INVITATION
NA
60 participants
INTERVENTIONAL
2019-08-12
2026-12-31
Brief Summary
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EBUS has become part of the diagnostic approach in a number of clinical situations, including the workup and staging of suspected malignancy, unexplained lymphadenopathy, and diagnosis of mediastinal and parabronchial masses. There is strong evidence that EBUS is equivalent to mediastinoscopy in the mediastinal staging of lung cancer. The number of physicians skilled and experienced in performance of EBUS has increased dramatically, and training in the procedure is frequently obtained in a pulmonary fellowship.
To our knowledge, there have been no prospective studies that investigate the use of EBUS as a tool for the diagnosis of acute central pulmonary embolism in critically ill patients where obtaining diagnostic confirmation of this diagnosis with a contrast-enhanced computed tomography of the chest is not safe or feasible.
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Detailed Description
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After informed consent is obtained, the following procedure will be performed:
An Olympus EBUS bronchoscope will be used for all endobronchial ultrasound examinations. This scope has a 6.9 mm outer diameter, a 2.7 mm working channel and 30-degree oblique forward-viewing optics. A 12 MHz linear ultrasound transducer with a maximum penetration of 50 mm will be linked to a processor (Olympus EU-ME2) that allows an integrated power Doppler mode to visualize the vascular blood flow.
Bronchoscopy will be introduced through the adaptor connected to the endotracheal tube, in patients who are already under general anesthesia and on mechanical ventilation. The bronchoscope will be advanced into the airways and endobronchial ultrasound of the main pulmonary artery (PA) and lobar branches will be performed in a standardized fashion as follow:
Advance the bronchoscopy into the right main bronchus distally to the level of the right lower lobe, between 12 and 3 o'clock position where the interlobar artery of the PA is seen. Then the scope will be pulled back slowly, turning counterclockwise, following the course of the PA on the medial wall of the right bronchial tree until the level of the carina, where the right main PA and the PA trunk are seen. The scope is then turned to the right again, towards 3 o'clock following the right upper lobe bronchus to examine the upper lobar artery. The scope is then advanced into the left main bronchus, towards 9 o'clock to examine the upper lobar artery, then advanced distally to the left lower lobe bronchus to examine the interlobar artery. At the completion of the imaging the EBUS bronchoscope will be withdrawn.
Ultrasound images and video will be stored to the machine and visualized thrombi will be marked.
For patients who have had a chest CT for suspected PE, the investigators will assess sensitivity and specificity of EBUS to visualize or exclude PE. For patients who are unable to have a CT, the investigators will not be able to determine true efficacy, but will report the number of positive and negative studies and follow these patients for outcome and subsequent definitive diagnosis of venous thromboembolism.
As this is a pilot study looking at the feasibility of EBUS for diagnosing acute pulmonary embolism, study personnel performing the EBUS will not be blinded to the clinical diagnosis and the management of the subject. A brief report of the procedure results will be uploaded in the patient's medical record. Any clinically relevant findings from the EBUS will be communicated to the subject's treating team. Regardless of the findings, a note stating that the EBUS technique is not yet established for evaluating acute pulmonary embolism in critically ill patients will be emphasized in order to prevent any bias in the patient's clinical care.
Pulmonary Vascular Mapping Substudy:
Of the 60 total subjects enrolled in the study, approximately 20 subjects under the criteria below will be enrolled at Ronald Reagan UCLA Medical Center and UCLA Medical Center, Santa Monica undergoing clinical bronchoscopy as a part of their standard of care. The enrolled subjects will be imaged using the flexible bronchoscopy with EBUS.
Retrospective Chart Review:
Of the 60 total subjects enrolled in the study, media including images and videos that are previously recorded for 20 patients who underwent a clinical bronchoscopy with EBUS as a part of their standard of care will also be available to our research team without consent from the patient to help supplement the data we obtain from the 20 subjects that are enrolled in the pulmonary vascular mapping substudy.
Conditions
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Study Design
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NON_RANDOMIZED
PARALLEL
DIAGNOSTIC
NONE
Study Groups
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Critically Ill Patients
Intubated patients in the intensive care unit (ICU) where there is a clinical concern for acute pulmonary embolism or a confirmed diagnosis for acute pulmonary embolism.
The enrolled subjects will be imaged using the flexible bronchoscopy with EBUS.
Endobronchial ultrasound (EBUS)
An Olympus EBUS bronchoscope will be used for all endobronchial ultrasound examinations. This scope has a 6.9 mm outer diameter, a 2.7 mm working channel and 30-degree oblique forward-viewing optics. A 12 MHz linear ultrasound transducer with a maximum penetration of 50 mm will be linked to a processor (Olympus EU-ME2) that allows an integrated power Doppler mode to visualize the vascular blood flow.
Bronchoscopy will be introduced through the adaptor connected to the endotracheal tube, in patients who are already under general anesthesia and on mechanical ventilation. The bronchoscope will be advanced into the airways and endobronchial ultrasound of the main pulmonary artery (PA) and lobar branches will be performed in a standardized fashion. At the completion of the imaging the EBUS bronchoscope will be withdrawn.
Patients undergoing standard of care clinical bronchoscopy
Patients undergoing clinical bronchoscopy as a part of their standard of care.
The enrolled subjects will be imaged using the flexible bronchoscopy with EBUS.
Endobronchial ultrasound (EBUS)
An Olympus EBUS bronchoscope will be used for all endobronchial ultrasound examinations. This scope has a 6.9 mm outer diameter, a 2.7 mm working channel and 30-degree oblique forward-viewing optics. A 12 MHz linear ultrasound transducer with a maximum penetration of 50 mm will be linked to a processor (Olympus EU-ME2) that allows an integrated power Doppler mode to visualize the vascular blood flow.
Bronchoscopy will be introduced through the adaptor connected to the endotracheal tube, in patients who are already under general anesthesia and on mechanical ventilation. The bronchoscope will be advanced into the airways and endobronchial ultrasound of the main pulmonary artery (PA) and lobar branches will be performed in a standardized fashion. At the completion of the imaging the EBUS bronchoscope will be withdrawn.
Previously recorded patient media from standard of care clinical bronchoscopy with EBUS
Patients who underwent a standard of care clinical bronchoscopy with EBUS previously.
Information and media including images and videos that were previously recorded for patients who underwent a standard of care clinical bronchoscopy with EBUS will be available to the study team.
No interventions assigned to this group
Interventions
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Endobronchial ultrasound (EBUS)
An Olympus EBUS bronchoscope will be used for all endobronchial ultrasound examinations. This scope has a 6.9 mm outer diameter, a 2.7 mm working channel and 30-degree oblique forward-viewing optics. A 12 MHz linear ultrasound transducer with a maximum penetration of 50 mm will be linked to a processor (Olympus EU-ME2) that allows an integrated power Doppler mode to visualize the vascular blood flow.
Bronchoscopy will be introduced through the adaptor connected to the endotracheal tube, in patients who are already under general anesthesia and on mechanical ventilation. The bronchoscope will be advanced into the airways and endobronchial ultrasound of the main pulmonary artery (PA) and lobar branches will be performed in a standardized fashion. At the completion of the imaging the EBUS bronchoscope will be withdrawn.
Eligibility Criteria
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Inclusion Criteria
* The patient or patient's surrogate must understand and sign informed consent form (ICF).
* Intubated patients in the intensive care unit (ICU) where there is a clinical concern for acute pulmonary embolism or a confirmed diagnosis for acute pulmonary embolism.
* Patient ≥ 18 years of age.
* The patient or patient's surrogate must understand and sign informed consent form (ICF).
* Intubated patients undergoing clinical bronchoscopy, as determined by the treating physician.
Exclusion Criteria
* Endotracheal tube size less than 8.0 mm.
* Contraindications to lidocaine.
Pulmonary Vascular Mapping Substudy:
* Patient does not meet the requirements to undergo clinical bronchoscopy, as determined by the treating physician.
* Endotracheal tube size less than 8.0 mm.
* Contraindications to lidocaine.
Retrospective Chart Review:
Of the 60 total subjects enrolled in the study, media including images and videos that are previously recorded for 20 patients who underwent a clinical bronchoscopy with EBUS as a part of their standard of care will also be available to our research team without consent from the patient to help supplement the data we obtain from the 20 subjects that are enrolled in the pulmonary vascular mapping substudy.
18 Years
ALL
No
Sponsors
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University of California, Los Angeles
OTHER
Responsible Party
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Colleen Channick, MD
Clinical Professor of Medicine
Principal Investigators
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Colleen L Channick, M.D.
Role: PRINCIPAL_INVESTIGATOR
University of California, Los Angeles
Locations
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Ronald Reagan UCLA Medical Center
Los Angeles, California, United States
UCLA Medical Center, Santa Monica
Santa Monica, California, United States
Countries
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References
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Tapson VF. Acute pulmonary embolism. N Engl J Med. 2008 Mar 6;358(10):1037-52. doi: 10.1056/NEJMra072753. No abstract available.
Stein PD, Henry JW. Prevalence of acute pulmonary embolism among patients in a general hospital and at autopsy. Chest. 1995 Oct;108(4):978-81. doi: 10.1378/chest.108.4.978.
Aumiller J, Herth FJ, Krasnik M, Eberhardt R. Endobronchial ultrasound for detecting central pulmonary emboli: a pilot study. Respiration. 2009;77(3):298-302. doi: 10.1159/000183197. Epub 2008 Dec 9.
Ernst A, Anantham D, Eberhardt R, Krasnik M, Herth FJ. Diagnosis of mediastinal adenopathy-real-time endobronchial ultrasound guided needle aspiration versus mediastinoscopy. J Thorac Oncol. 2008 Jun;3(6):577-82. doi: 10.1097/JTO.0b013e3181753b5e.
Yasufuku K, Pierre A, Darling G, de Perrot M, Waddell T, Johnston M, da Cunha Santos G, Geddie W, Boerner S, Le LW, Keshavjee S. A prospective controlled trial of endobronchial ultrasound-guided transbronchial needle aspiration compared with mediastinoscopy for mediastinal lymph node staging of lung cancer. J Thorac Cardiovasc Surg. 2011 Dec;142(6):1393-400.e1. doi: 10.1016/j.jtcvs.2011.08.037. Epub 2011 Oct 2.
Tanner NT, Pastis NJ, Silvestri GA. Training for linear endobronchial ultrasound among US pulmonary/critical care fellowships: a survey of fellowship directors. Chest. 2013 Feb 1;143(2):423-428. doi: 10.1378/chest.12-0212.
Torbicki A, Galie N, Covezzoli A, Rossi E, De Rosa M, Goldhaber SZ; ICOPER Study Group. Right heart thrombi in pulmonary embolism: results from the International Cooperative Pulmonary Embolism Registry. J Am Coll Cardiol. 2003 Jun 18;41(12):2245-51. doi: 10.1016/s0735-1097(03)00479-0.
Related Links
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Pulmonary Artery Anatomy
Other Identifiers
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IRB# 19-000295
Identifier Type: -
Identifier Source: org_study_id
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