One-lung ventilation (OLV) is used for thoracic surgical procedures to facilitate surgical exposure. Lung isolation is performed using a double-lumen endotracheal tube (DLT) and optimal position is achieved with the use of fiberoptic bronchoscopy. The most common technique used to place a left-sided DLT is the blind method technique, which consists of direct laryngoscopy and rotation of the DLT into the trachea with the aim to intubate the entrance of the left main bronchus. The DLT will be rotated counterclockwise blindly after the tip of the DLT passes the vocal cords under direct laryngoscopy. However, in some occasions, the tip of the DLT migrates into the right bronchus because the alignment between the trachea and right bronchus is more vertical. The identification of the misplacement can be challenging, which could lead to the failure of lung isolation. In order to avoid the unsuccessful lung isolation, Investigators are interested in identifying the factors that potentially influence the incorrect tube DLT placement diverting into the opposite bronchus.
Recently, multi-detector 3-dimensional computed tomography (MDCT) scan of the chest is becoming a routine study for patients requiring thoracic surgical procedures. On the day of thoracic surgery, the participant will be intubated with a left-sided DLT and investigators will confirm the correct insertion of the left-sided DLT at first pass under direct laryngoscopy. This information will be recorded and saved. After the study is completed, investigators will review the MDCT of the chest to review any abnormal findings and correlate it with the success of the insertion of the left-sided DLT into the left bronchus. Investigators will conduct a pilot study to determine the most influential anatomical change that leads to the DLT misplacement at the first pass based upon the changes of the tracheal-bronchial anatomy on MDCT.
Study Type
OBSERVATIONAL
Enrollment
101
University of Iowa Hospitals & Clinics
Iowa City, Iowa, United States
Measure tracheal length (mm) derived from MDCT images
Participants are divided into two groups based upon the first pass location of the L-DLT; LMB (left main bronchus) intubation group and RMB (right main bronchus) intubation group. Tracheal length as seen on MDCT images will be measured (millimeters) and compared between the two groups.
Time frame: Within 1 month
Measure LMB diameter (mm) derived from MDCT images
Participants are divided into two groups based upon the first pass location of the L-DLT; LMB (left main bronchus) intubation group and RMB (right main bronchus) intubation group. The LMB as seen on MDCT images will be measured (millimeters) and compared between the two groups.
Time frame: Within 1 month
Measure RMB diameter (mm) derived from MDCT images
Participants are divided into two groups based upon the first pass location of the L-DLT; LMB (left main bronchus) intubation group and RMB (right main bronchus) intubation group. The RMB as seen on MDCT images will be measured (millimeters) and compared between the two groups.
Time frame: Within 1 month
Measure the tracheal LMB curvature (TLMBC) derived from MDCT images
Participants are divided into two groups based upon the first pass location of the L-DLT; LMB (left main bronchus) intubation group and RMB (right main bronchus) intubation group. The TLMBC as seen on MDCT images will be measured and compared between the two groups. TLMBC is measured at the Trachea LMB branch point. The center lines of the airway segments (trachea and LMB) close to the branch point are displayed. A circumscribed circle goes through three adjacent airway points centered at the branch point is produced and the curvature is calculated by the reciprocal of the circle radius. The curvature of a straight line is zero. A larger curvature indicates a sharper turning angle.
Time frame: Within 1 month
Measure the tracheal RMB curvature (TRMBC) derived from MDCT images
Participants are divided into two groups based upon the first pass location of the L-DLT; LMB (left main bronchus) intubation group and RMB (right main bronchus) intubation group. The TRMBC as seen on MDCT images will be measured and compared between the two groups. TRMBC is measured at the Trachea LMB branch point. The center lines of the airway segments (trachea and RMB) close to the branch point are displayed. A circumscribed circle goes through three adjacent airway points centered at the branch point is produced and the curvature is calculated by the reciprocal of the circle radius. The curvature of a straight line is zero. A larger curvature indicates a sharper turning angle.
Time frame: Within 1 month
Calculate the TLMBC/TRMBC (TLMB/TRMB) Curvature Ratio
Participants are divided into two groups based upon the first pass location of the L-DLT; LMB (left main bronchus) intubation group and RMB (right main bronchus) intubation group. A ratio of the TLMBC and TRMBC values reported above will be calculated and compared between the two groups.
Time frame: Within 1 month
Incidence of the DLT misplacement (RMB intubation) at the fast pass
The number of times DLT misplacement (RMB intubation) at the first pass will be recorded.
Time frame: Within 10 minutes
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