Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
Get a concise snapshot of the trial, including recruitment status, study phase, enrollment targets, and key timeline milestones.
Recruitment Status
UNKNOWN
Total Enrollment
160 participants
Study Classification
OBSERVATIONAL
Study Start Date
2019-04-02
Study Completion Date
2020-06-02
Brief Summary
Review the sponsor-provided synopsis that highlights what the study is about and why it is being conducted.
The study will be to demonstrate that, in patients undergoing elective thoracic surgery, lung ultrasound (LUS) in OR is more sensitive, specific and accurate method than thoracic auscultation, for the evaluation of OLV. The aim of the study is to demonstrate how lung ultrasound can be considered an attractive alternative to the routine use of fiberbronchoscope as a first line diagnostic tool to verify the correct position of left double lumen tube.
Related Clinical Trials
Explore similar clinical trials based on study characteristics and research focus.
The Role of Lung Ultrasound During Perioperative Evaluation
NCT03111641
Lung Diseases
COMPLETED
NA
Ultrasound Applicability in the Assessment of Patients With Fibrosing Interstitial Lung Disease
NCT06844331
Fibrosing Interstitial Lung Diseases
Thoracic Ultrasound
ENROLLING_BY_INVITATION
Remotely Guided Ultrasound Among Non-Medical Personnel To Assess Normal Lung Parenchyma
NCT03469466
Healthy Volunteers
UNKNOWN
Role of Lung Ultrasound in Confirmation of Correct Double Lumen Endotracheal Tube Placement in Thoracic Surgeries
NCT04740385
Diagnostic Accuracy
COMPLETED
Lung Ultrasound for Assessment of Patients With Moderate to Severe Covid-19
NCT04412551
Corona Virus Infection
Virus Diseases
Coronaviridae Infections
COMPLETED
Detailed Description
Dive into the extended narrative that explains the scientific background, objectives, and procedures in greater depth.
Most procedures in thoracic surgery require exclusion from ventilation of the lung undergoing surgery. One-lung ventilation (OLV), it is obtained mainly through the placement of a bi-lumen tube (DLT) in the patient's airway. A frequent complication that occurs during OLV it's unrecognized bad positioning of the DLT which can lead to serious complications such as hypoventilation, hypoxemia, not optimal collapse of the operated lung and damage to the trachea or main bronchi.
The latest SIAARTI recommendations (2009) advocate in all patients use of fiberbronchoscope (FOB) to control and correct the positioning of the DLT (gold standard) after the orotracheal intubation and after the positioning in lateral decubitus. The usual clinical practice expects to performing lung exclusion tests by auscultation of the 2 hemithorax in succession. But the scientific evidence shows how this practice has a poor sensitivity and specificity in assessing the correct positioning of the left DLT (LDLT). From literature, as from everyday clinical experience, it is known that FBS cannot always be performed Finally, the research wants to shed light how the fiberoptic bronchoscopy (FBS) is an invasive maneuver that is not free from serious complications (mucosal lesions and infections).
Ultrasound (US) over the last 15 years has made an important contribution to the assessment and management of the airways. US quickly and effectively are able to show the excursion of the diaphragm and pleura, qualitative and quantitative indicators of lung expansion. If the endotracheal tube is in the correct position, a bilateral and symmetrical movement of the domes of each hemi-diaphragm (B-Mode and M-mode) can be appreciated, while in the intercostal window, the so-called "lung-sliding" will be visible. In the absence of ventilation, the diaphragmatic excursion and the "lung-sliding" will not be detectable in the explored hemi-thorax.
Although FBS remains the gold standard for controlling the correct position of LDLT under thoracic anesthesia, and is often crucial as a guide to its repositioning, from the researchers point of view, the use of FOB may not be routinely necessary in all patients, but its use could be reserved for selected cases in which the positioning itself is difficult or in case of intraoperative displacement. Primary objective is to demonstrate how, in patients undergoing elective thoracic surgery, lung ultrasound (LUS) to the operating room is a more sensitive, specific and accurate method than thoracic auscultation, for the evaluation of OLV. LUS is a non-invasive, safe and free from side effects technique that can be performed at the patient's bed. The study aims to demonstrate how LUS can be considered an attractive alternative to the routine use of FOB as a first line diagnostic tool to verify the correct position of LDLT.
For each surgical procedure 3 researchers will participate, each with a specific independent role: the auscultation researcher (AR), which will have the task of performing the oral-tracheal intubation and auscultation with phonendoscope pre-and post-induction of general anesthesia and after positioning the patient in lateral decubitus; the ultrasound researcher (UR), i.e. the anesthesiologist who will perform the pre- and post-induction of the AG ultrasound evaluation and after positioning the patient in lateral decubitus; the Fiberscope Researcher (FR), whom will perform the fibrobroncoscopic verification of the LDLT at the end of the clinical and ultrasound assessment and after the positioning in lateral position. He will reposition the endotracheal tube in case of mal positioning or intra-operative displacement of the same.
Upon the arrival of the patients in the operating room, and after applying the standard operative monitoring for the planned surgery, the AR will perform a preliminary thoracic auscultation, in order to verify the presence of normal lung sounds in spontaneous breathing. The UR will perform a preliminary thoracic ultrasound scanning, in order to verify the presence of long sliding (LS) and diaphragmatic displacement (DD). Then, after the positioning of adequate venous accesses and eventually a medium-thoracic peridural catheter, AR will proceed to induce general anesthesia. Patients will undergo video-thoracoscopy or thoracotomy operations that require mono-pulmonary ventilation (OLV) for each part or for the entire duration of the operation. The choice of the appropriate LDLT size will be made on the basis of Brodsky's anthropometric criteria. After sedation and curarization, direct laryngoscopy will be performed with a Macintosh blade and patients will be intubated with a left bi-lumen (LDLT) Carlens or Robertshaw tube by the AR, after that he will also perform auscultation. After inflating the tracheal cuff and verifying the symmetricity of the vesicular murmure on both pulmonary fields in two pre-established points per side (apex = II-III intercostal space on the hemiclavicular; base = V intercostal space on the middle axilla), the bronchial cuff will be inflated and the auscultation repeated by first clamping the tracheal lumen and then the bronchial lumen. If the LDLT is correctly positioned the MV will be present at the apex and base of the ventilated lung and absent in the contralateral points of the excluded lung. Otherwise the LDLT will be considered wrongly positioned and the AR will have 3 attempts to reposition the device. The AR will record the results of the verification carried out on the CRF and will leave its role in the OR at the UR. The latter, using a 6-13 MHz linear ultrasound probe, will evaluate, in B-mode and M-mode, the presence / absence of the LS and the LP at the level of the II-III intercostal space on the hemiclavicular, while with a convex ultrasound probe 3,5-5 MHz placed orthogonally to the costal arch on the anterior axillary line, the diaphragmatic displacement will be searched and measured. The bi-lumen tube will be considered correctly positioned in the presence of LS and DD in the ventilated lung and in their absence in the excluded lung. Otherwise the LDLT will be considered wrongly positioned.
The UR will record the results of the verification carried out on the CRF and will leave its position in the operating room at the FR. Finally, the correct positioning of the LDLT will be verified with FOB from the FR and eventually repositioned. The bronchoscope will be introduced into the tracheal lumen and get throw until it reaches just beyond the tracheal hole. The correct vision foresees: the carena on the sagittal plane and on the right the orifice of the right main bronchus, while on the left, the dome of the bronchial cap occupying the orifice of the left main bronchus. The final judgment of the FR will be: "correct positioning", "malposition", "critical malposition". Each researcher will not know the outcome of the verification carried out by the other 2 researchers.
Once the correct positioning of the LDLT has been verified, if necessary by the surgical requirements, the patient will be placed in lateral position and a new pulmonary exclusion test will be performed. AR, UR and FR will perform again the lung test exclusion, reporting in the CFR the results of the new evaluations. These assessments will be made by the same researchers who performed the previous assessments.
During the intra-operative phase the ventilation and maintenance of general anesthesia will be set according to the standard clinical practice and data will be reported in the appropriate section of the CFR concerning vital and ventilation parameters, the time required for pulmonary exclusion tests, any displacement of the LDLT and any surgical and non-surgical complications.
At the end of the surgical procedure, after optimization of the analgesia and according to the patient's needs, the patient will be extubated in the operating room or transfered in the the post-operative intensive care unit. The collection of clinical data will continue in the post-operative period until the hospital discharge of the patient enrolled in the study.
The latest SIAARTI recommendations (2009) advocate in all patients use of fiberbronchoscope (FOB) to control and correct the positioning of the DLT (gold standard) after the orotracheal intubation and after the positioning in lateral decubitus. The usual clinical practice expects to performing lung exclusion tests by auscultation of the 2 hemithorax in succession. But the scientific evidence shows how this practice has a poor sensitivity and specificity in assessing the correct positioning of the left DLT (LDLT). From literature, as from everyday clinical experience, it is known that FBS cannot always be performed Finally, the research wants to shed light how the fiberoptic bronchoscopy (FBS) is an invasive maneuver that is not free from serious complications (mucosal lesions and infections).
Ultrasound (US) over the last 15 years has made an important contribution to the assessment and management of the airways. US quickly and effectively are able to show the excursion of the diaphragm and pleura, qualitative and quantitative indicators of lung expansion. If the endotracheal tube is in the correct position, a bilateral and symmetrical movement of the domes of each hemi-diaphragm (B-Mode and M-mode) can be appreciated, while in the intercostal window, the so-called "lung-sliding" will be visible. In the absence of ventilation, the diaphragmatic excursion and the "lung-sliding" will not be detectable in the explored hemi-thorax.
Although FBS remains the gold standard for controlling the correct position of LDLT under thoracic anesthesia, and is often crucial as a guide to its repositioning, from the researchers point of view, the use of FOB may not be routinely necessary in all patients, but its use could be reserved for selected cases in which the positioning itself is difficult or in case of intraoperative displacement. Primary objective is to demonstrate how, in patients undergoing elective thoracic surgery, lung ultrasound (LUS) to the operating room is a more sensitive, specific and accurate method than thoracic auscultation, for the evaluation of OLV. LUS is a non-invasive, safe and free from side effects technique that can be performed at the patient's bed. The study aims to demonstrate how LUS can be considered an attractive alternative to the routine use of FOB as a first line diagnostic tool to verify the correct position of LDLT.
For each surgical procedure 3 researchers will participate, each with a specific independent role: the auscultation researcher (AR), which will have the task of performing the oral-tracheal intubation and auscultation with phonendoscope pre-and post-induction of general anesthesia and after positioning the patient in lateral decubitus; the ultrasound researcher (UR), i.e. the anesthesiologist who will perform the pre- and post-induction of the AG ultrasound evaluation and after positioning the patient in lateral decubitus; the Fiberscope Researcher (FR), whom will perform the fibrobroncoscopic verification of the LDLT at the end of the clinical and ultrasound assessment and after the positioning in lateral position. He will reposition the endotracheal tube in case of mal positioning or intra-operative displacement of the same.
Upon the arrival of the patients in the operating room, and after applying the standard operative monitoring for the planned surgery, the AR will perform a preliminary thoracic auscultation, in order to verify the presence of normal lung sounds in spontaneous breathing. The UR will perform a preliminary thoracic ultrasound scanning, in order to verify the presence of long sliding (LS) and diaphragmatic displacement (DD). Then, after the positioning of adequate venous accesses and eventually a medium-thoracic peridural catheter, AR will proceed to induce general anesthesia. Patients will undergo video-thoracoscopy or thoracotomy operations that require mono-pulmonary ventilation (OLV) for each part or for the entire duration of the operation. The choice of the appropriate LDLT size will be made on the basis of Brodsky's anthropometric criteria. After sedation and curarization, direct laryngoscopy will be performed with a Macintosh blade and patients will be intubated with a left bi-lumen (LDLT) Carlens or Robertshaw tube by the AR, after that he will also perform auscultation. After inflating the tracheal cuff and verifying the symmetricity of the vesicular murmure on both pulmonary fields in two pre-established points per side (apex = II-III intercostal space on the hemiclavicular; base = V intercostal space on the middle axilla), the bronchial cuff will be inflated and the auscultation repeated by first clamping the tracheal lumen and then the bronchial lumen. If the LDLT is correctly positioned the MV will be present at the apex and base of the ventilated lung and absent in the contralateral points of the excluded lung. Otherwise the LDLT will be considered wrongly positioned and the AR will have 3 attempts to reposition the device. The AR will record the results of the verification carried out on the CRF and will leave its role in the OR at the UR. The latter, using a 6-13 MHz linear ultrasound probe, will evaluate, in B-mode and M-mode, the presence / absence of the LS and the LP at the level of the II-III intercostal space on the hemiclavicular, while with a convex ultrasound probe 3,5-5 MHz placed orthogonally to the costal arch on the anterior axillary line, the diaphragmatic displacement will be searched and measured. The bi-lumen tube will be considered correctly positioned in the presence of LS and DD in the ventilated lung and in their absence in the excluded lung. Otherwise the LDLT will be considered wrongly positioned.
The UR will record the results of the verification carried out on the CRF and will leave its position in the operating room at the FR. Finally, the correct positioning of the LDLT will be verified with FOB from the FR and eventually repositioned. The bronchoscope will be introduced into the tracheal lumen and get throw until it reaches just beyond the tracheal hole. The correct vision foresees: the carena on the sagittal plane and on the right the orifice of the right main bronchus, while on the left, the dome of the bronchial cap occupying the orifice of the left main bronchus. The final judgment of the FR will be: "correct positioning", "malposition", "critical malposition". Each researcher will not know the outcome of the verification carried out by the other 2 researchers.
Once the correct positioning of the LDLT has been verified, if necessary by the surgical requirements, the patient will be placed in lateral position and a new pulmonary exclusion test will be performed. AR, UR and FR will perform again the lung test exclusion, reporting in the CFR the results of the new evaluations. These assessments will be made by the same researchers who performed the previous assessments.
During the intra-operative phase the ventilation and maintenance of general anesthesia will be set according to the standard clinical practice and data will be reported in the appropriate section of the CFR concerning vital and ventilation parameters, the time required for pulmonary exclusion tests, any displacement of the LDLT and any surgical and non-surgical complications.
At the end of the surgical procedure, after optimization of the analgesia and according to the patient's needs, the patient will be extubated in the operating room or transfered in the the post-operative intensive care unit. The collection of clinical data will continue in the post-operative period until the hospital discharge of the patient enrolled in the study.
Conditions
See the medical conditions and disease areas that this research is targeting or investigating.
Thoracic Anesthesia
Lung Ultrasound
Left Double-lumen Tube
Selective Bronchial Intubation
One-lung Ventilation
Auscultation
Flexible Bronchoscopy
Study Design
Understand how the trial is structured, including allocation methods, masking strategies, primary purpose, and other design elements.
Observational Model Type
CASE_ONLY
Study Time Perspective
PROSPECTIVE
Eligibility Criteria
Check the participation requirements, including inclusion and exclusion rules, age limits, and whether healthy volunteers are accepted.
Inclusion Criteria
* Signed informed consent
* Age \> 18 years
* Patients who underwent elective thoracic surgery (video-assisted thoracic surgery or open thoracotomy) requiring lung isolation and endotracheally intubation by LDLT
* Age \> 18 years
* Patients who underwent elective thoracic surgery (video-assisted thoracic surgery or open thoracotomy) requiring lung isolation and endotracheally intubation by LDLT
Exclusion Criteria
* Not signed informed consent
* Age \< 18 years
* Previous history of thoracic surgery
* Planned use of right double lumen tube
* Pleural diseases: pleural spill, pneumothorax, mesothelioma, previous pleurodesis
* Neuromuscular disease with proved diaphragmatic disfunction
* Thoracic subcutaneous emphysema
* Difficult endotracheally intubation or more than 3 attempts made by an experienced anesthesiologist or alternative device use
* Pregnancy
* Emergency surgery
* Age \< 18 years
* Previous history of thoracic surgery
* Planned use of right double lumen tube
* Pleural diseases: pleural spill, pneumothorax, mesothelioma, previous pleurodesis
* Neuromuscular disease with proved diaphragmatic disfunction
* Thoracic subcutaneous emphysema
* Difficult endotracheally intubation or more than 3 attempts made by an experienced anesthesiologist or alternative device use
* Pregnancy
* Emergency surgery
Minimum Eligible Age
18 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
Meet the organizations funding or collaborating on the study and learn about their roles.
University of Parma
OTHER
Sponsor Role
lead
Responsible Party
Identify the individual or organization who holds primary responsibility for the study information submitted to regulators.
Elena Giovanna Bignami
Professor of Anesthesiology
Responsibility Role
PRINCIPAL_INVESTIGATOR
Principal Investigators
Learn about the lead researchers overseeing the trial and their institutional affiliations.
Michela Tosi, MD
Role: PRINCIPAL_INVESTIGATOR
Azienda Ospedaliero-Universitaria di Parma
Massimo Maffezzoni, MD
Role: PRINCIPAL_INVESTIGATOR
Università di Parma
Piercarlo Cottone, MD
Role: PRINCIPAL_INVESTIGATOR
Università di Parma
Stefania Lepori, MD
Role: PRINCIPAL_INVESTIGATOR
Università di Parma
Valentina Bellini, MD
Role: PRINCIPAL_INVESTIGATOR
Università di Parma
Locations
Explore where the study is taking place and check the recruitment status at each participating site.
Azienda Ospedaliera-Universitaria di Parma
Parma, , Italy
Site Status
Countries
Review the countries where the study has at least one active or historical site.
Italy
Central Contacts
Reach out to these primary contacts for questions about participation or study logistics.
Other Identifiers
Review additional registry numbers or institutional identifiers associated with this trial.
ALFIO2019
Identifier Type: -
Identifier Source: org_study_id
More Related Trials
Additional clinical trials that may be relevant based on similarity analysis.
Lung Ultrasound Score After ENT Cancer Surgery
NCT05482841
RECRUITING
EUS-FNA in the Pre-Operative Evaluation of Patients With Lung Cancer
NCT00119470
COMPLETED
PHASE2
Comparison of the Diagnostic Accuracy: US-guided Percutaneous Lung Biopsies vs CT-guided in Peripheral Lung Lesions
NCT06412289
RECRUITING
NA
Validity of Lung Ultrasound in Diagnosis of Acute Respiratory Distress Syndrome
NCT05886556
UNKNOWN
Ultrasound Evaluation of Alveolar Stress by Measurement of Ultrasound Pleural Strain in Healthy Subjects
NCT05415605
COMPLETED
NA
Ultrasound and Respiratory Physiological Signals in Lung Diseases
NCT06068647
RECRUITING
NA
Bronchial Ultrasonography Via a Fibrescope: Pilot Study in Tumoral Disease
NCT00241267
TERMINATED
Features of Regional Perfusion of Lung Consolidation
NCT05647967
UNKNOWN
International Lung UltraSound Analysis (ILUSA) Study
NCT04353141
UNKNOWN
Endobronchial Ultrasound Needle Aspiration With and Without Suction
NCT05110950
UNKNOWN
NA
Use of Thoracoscopic Intraoperative Lung Ultrasound to Identify Pulmonary Metastases in Patients Submitted to Pulmonary Metastasectomy With Radical Intent.
NCT03864874
UNKNOWN
Lung Ultrasound for COVID-19 Initial Triage and Monitoring
NCT04474236
COMPLETED
Rapid On-site Evaluation of Endobronchial Ultrasound Guided Transbronchial Needle Aspiration Samples by Pulmonologists
NCT03232684
COMPLETED
Pediatric Bronchoscopy and LUS
NCT06658613
COMPLETED
Mediastinal Staging of Lung Cancer With EBUS-TBNA and EUS-B-FNA
NCT00741247
COMPLETED
NA
Diagnosing Obstructive Lung Disease With Point of Care Ultrasound
NCT06251271
COMPLETED
Ultrathin Bronchoscope and Radial Endobronchial Ultrasound (R-EBUS) With Fluoroscopy Versus Standard Fiberoptic Bronchoscopy (FB) (P00029233 )
NCT02146131
COMPLETED
NA
Value of Additional Upfront Systematic Lung Ultrasound in the Workup of Patients With Unilateral Pleural Effusion
NCT04235998
COMPLETED
Lung Ultrasound in the Evaluation of Pneumothorax Size
NCT01572584
COMPLETED
Chest U/S in Differentiating Lung Congestion & Pneumonia in Adult Critically-ill Patients and Its Prognostic Impact
NCT05636631
UNKNOWN
Feasibility of a Minimally Invasive Thoracoscopic Ultrasound for Localization of Pulmonary Nodules
NCT02665078
COMPLETED
Endobronchial Ultrasound- Transbronchial Needle Aspiration (EBUS-TBNA) Versus Mediastinoscopy for Mediastinal Lymph Node Staging of Non-small Cell Lung Cancer (NSCLC)
NCT01079520
COMPLETED
NA
Focused Lung Ultrasound: A Prospective Cohort Study in General Practice
NCT04711031
COMPLETED
Pathological Comparisons of Surgical Open Lung Biopsies and Cryobiopsies in Non-IPF ILD
NCT02763540
COMPLETED
NA
Clinical-ultrasonographic Assessment of Pulmonary Emphysema
NCT06533371
RECRUITING
NA