CBCT in Guiding Bronchoscopy in Patients With Lung Lesions

M.D. Anderson Cancer Center21 enrolled

Overview

This pilot clinical trial studies how well cone-beam computed tomography (CBCT) works in guiding bronchoscopy in patients with lung lesions. CBCT during bronchoscopy may help doctors to biopsy lung lesions that are harder to reach.

PRIMARY OBJECTIVES: I. To describe the feasibility of using CBCT as an additional aid to guided-bronchoscopy with radial probe endobronchial ultrasound (RP-EBUS)/hybrid scope for the diagnosis of peripheral lung nodules. SECONDARY OBJECTIVES: I. Describe the proportion of patients with peripheral nodules undergoing bronchoscopy in whom the lesion is identified by RP-EBUS (RP-EBUS-navigation yield) and confirmed with CBCT. II. Describe the proportion of patients with peripheral nodules undergoing bronchoscopy in whom the lesion is identified by RP-EBUS and samples are diagnostic (diagnostic yield-RP-EBUS). III. Describe the proportion of patients with peripheral nodules undergoing bronchoscopy in whom the lesion is identified by RP-EBUS, samples were non-diagnostic, and CBCT prompted further tool re-location (i.e. change of needle angle, change of tool) leading to diagnosis. IV. Describe the proportion of patients with peripheral nodules undergoing bronchoscopy in whom the lesion is not identified by RP-EBUS, and CBCT-aided navigation allowed the operator to reach the lesion (CBCT-added navigation yield). V. Describe the proportion of patients with peripheral nodules undergoing bronchoscopy in whom the lesion is not identified by RP-EBUS and CBCT-aided navigation allowed the operator to reach the lesion and obtain a diagnosis (CBCT-added diagnostic yield). VI. Describe the relationship between RP-PROBE and target (contact/no contact; central/peripheral). VII. Describe the relationship between needle tip and target (contact/no contact; central/peripheral). VIII. Describe the influence of points 6 and 7 on diagnostic yield. IX. Describe fluoroscopy time. X. Describe estimated amount of radiation generated by CBCT use. XI. Describe bronchoscopy time (first scope in/last scope out). XII. Describe the proportion of patients in whom molecular analysis for lung cancer (i.e. EGFR, K-RAS, ALK) can be performed. OUTLINE: Patients undergo CBCT during standard of care bronchoscopy. After completion of study, patients with lesions found not to be cancerous are followed up for 6 months to watch for changes (standard care).

Study Type

INTERVENTIONAL

Allocation

Purpose

DIAGNOSTIC

Masking

NONE

Enrollment

Conditions

Pulmonary Mass

Interventions

Cone-Beam Computed TomographyPROCEDURE

Undergo CBCT

Eligibility

Sex: ALLMin age: 18 Years

Medical Language ↔ Plain English

Inclusion Criteria: * Patients undergoing guided-bronchoscopy for diagnosis of peripheral lung lesion/s \> 1 and \< 3 cm in diameter located in the outer 2/3 of the lung fields Exclusion Criteria: * Pregnant or breastfeeding women * Patient with indications for mediastinal lymph node (LN) sampling per 13th American College of Clinical Pharmacy (ACCP) guidelines * Patient with metastatic disease (from primaries other than lung) who have suspicious mediastinal or hilar LN that require sampling * Patients with contraindication/s for general anesthesia (e.g., severe and active coronary artery disease, chronic obstructive pulmonary disease \[COPD\] with forced expiratory volume in 1 second \[FEV1\] \< 1 liter, uncontrolled hypertension, increased intracranial pressure, history of intolerance to general anesthesia) * Dementia or other severe cognitive impairment causing inability to understand or consent to the procedure and study

Locations (1)

M D Anderson Cancer Center

Houston, Texas, United States

Outcomes

Primary Outcomes

Feasibility based on percentage of patients where researchers can locate target and bronchoscopic tools with cone-beam computed tomography

Will be considered feasible if researchers can locate target and bronchoscopic tools with cone-beam computed tomography in at least 80% of the patients (16 out of the 20 participants) that are enrolled.

Time frame: Up to 6 months

Secondary Outcomes

Proportion of patients with peripheral nodules undergoing bronchoscopy in different subsample

Will conduct extensive descriptive analyses of the data collected. Descriptive statistics (e.g., frequencies, ranges, means, proportions, standard deviations, and measures of skewness and kurtosis), including 90% confidence intervals will be calculated. Will closely examine distribution characteristics of the variables using box plots, histograms, and scatter plots, where appropriate.

Time frame: Up to 6 months

Localization of the tip with respect to targets

Will assess the relationship between radial probe/needle tip and target. Will conduct extensive descriptive analyses of the data collected. Descriptive statistics (e.g., frequencies, ranges, means, proportions, standard deviations, and measures of skewness and kurtosis), including 90% confidence intervals will be calculated. Will closely examine distribution characteristics of the variables using box plots, histograms, and scatter plots, where appropriate.

Time frame: Up to 6 months

Diagnostic yield

Will assess the influence of points 6 and 7 on diagnostic yield. Descriptive statistics (e.g., frequencies, ranges, means, proportions, standard deviations, and measures of skewness and kurtosis), including 90% confidence intervals will be calculated. Will closely examine distribution characteristics of the variables using box plots, histograms, and scatter plots, where appropriate.

Time frame: Up to 6 months

Data from ClinicalTrials.gov

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