Endobronchial ultrasound application for diagnosis of tracheobronchial tree invasion by esophageal cancer

INTRODUCTION: Esophageal cancer staging has been performed through bronchoscopy, computerized tomography (CT), positron emission tomography (PET), and endoscopic ultrasound (EUS). Whereas CT and PET scan provide assessments of distant metastasis, bronchoscopy importantly diagnoses tracheobronchial involvement, complementing chest CT findings. EUS is the most accurate examination for T and N staging but is technically limited when tumoral stenoses cannot be traversed. Endobronchial ultrasound (EBUS) appears to present greater accuracy than EUS, CT, and bronchoscopy for assessing tracheobronchial wall involvement. EBUS has been recently associated with EUS for esophageal cancer staging in our unit. OBJECTIVE: To compare EBUS findings in esophageal cancer patients without evident signs of tracheobronchial invasion on conventional bronchoscopy with EUS and CT. METHODS: Fourteen patients with esophageal cancer underwent CT, conventional bronchoscopy, EUS, and EBUS for preoperative staging. All patients underwent EBUS and EUS with an Olympus® MH-908 echoendoscope at 7.5 MHz. Seven patients were eligible for the study according to the inclusion criteria. RESULTS: The echoendoscope could not traverse tumoral esophageal stenosis to perform EUS in two patients, and invasion was effectively diagnosed by EBUS. In 4 (57%) of 7 patients EBUS revealed additional information to staging. In the remaining 3 cases the invasion findings were the same under both EUS and EBUS. CONCLUSION: EBUS showed signs of tracheobronchial invasion not observed by conventional bronchoscopy, adding information to staging in most of the cases when compared with CT and EUS

Optical coherence tomography in conjunction with bronchoscopy

OBJETIVO: Avaliar a viabilidade e o potencial do uso da tomografia de coerência óptica em conjunto com um broncoscópio convencional na avaliação das vias aéreas. MÉTODOS: Estudo piloto baseado em um modelo experimental ex vivo com três animais: um coelho adulto da raça Nova Zelândia e dois suínos da raça Landrace. Um cateter de imagem de tomografia de coerência óptica foi inserido no canal de trabalho de um broncoscópio flexível para alcançarmos a traqueia distal dos animais. As imagens foram obtidas sistematicamente em toda a traqueia ao longo das paredes, partindo da porção distal para a proximal. RESULTADOS: O cateter de imagem se adaptou com facilidade ao canal de trabalho do broncoscópio. Imagens em alta resolução de cortes transversais da traqueia foram obtidas em tempo real, sendo delineadas microestruturas, tais como epitélio, submucosa, cartilagem e camada adventícia nas paredes anteriores e laterais da traqueia. As camadas correspondentes do epitélio, mucosa e cartilagens foram claramente diferenciadas. Na parede posterior, foi possível identificar mucosa, submucosa e musculatura traqueal. CONCLUSÕES: O uso de tomógrafo de coerência óptica em conjunto com um broncoscópio flexível é viável. A tomografia de coerência óptica produz imagens de alta resolução que permitem visualizar a microanatomia da traqueia, inclusive estruturas que normalmente são visualizadas somente na histologia convencional

Predictive factors for improved diagnostic accuracy with the use of radial-probe EBUS

ABSTRACT Objective: To assess predictive factors for improved diagnostic accuracy with the use of radial-probe EBUS (RP-EBUS). Methods: This was a retrospective review of consecutive patients undergoing RP-EBUS between February of 2012 and January of 2020. Parameters including the presence of a bronchus sign on CT scans, the position of the radial EBUS probe, lesion size, lesion location, and lesion type were analyzed in relation to two defined outcomes (final diagnosis or no diagnosis). Univariate analysis was used in order to explore the individual effects of each parameter on diagnostic accuracy. Multivariate logistic regression was performed to identify significant predictors of diagnostic accuracy. Results: RP-EBUS was used for diagnostic purposes in 101 patients. The lesion was < 3 cm in size in 59 patients (58.4%) and predominantly solid in 60.3%. There was a positive correlation between radial EBUS probe position and diagnostic accuracy (p = 0.036), with 80.9% of the patients showing a bronchus sign on CT scans. Furthermore, 89% of the patients showed a bronchus sign on CT scans and a correlation with diagnostic accuracy (p = 0.030), with 65.8% of the lesions being located in the left/right upper lobe (p = 0.046). When the radial EBUS probe was within the target lesion, the diagnostic yield was = 80.8%. When the probe was adjacent to the lesion, the diagnostic yield was = 19.2%. A bronchus sign on CT scans was the only parameter that independently influenced diagnostic accuracy (adjusted OR, 3.20; 95% CI, 1.081-9.770; p = 0.036). Conclusions: A bronchus sign on CT scans is a powerful predictor of successful diagnosis by RP-EBUS

Bronchoscopy for the diagnosis of pulmonary tuberculosis in patients with negative sputum smear microscopy results

Objective: To evaluate the diagnostic accuracy of bronchoscopy in patients with clinical or radiological suspicion of tuberculosis who were unable to produce sputum or with negative sputum smear microscopy results. Methods: A prospective cross-sectional study involving 286 patients under clinical or radiological suspicion of having pulmonary tuberculosis and submitted to bronchoscopy-BAL and transbronchial biopsy (TBB). The BAL specimens were submitted to direct testing and culture for AFB and fungi, whereas the TBB specimens were submitted to histopathological examination. Results: Of the 286 patients studied, 225 (79%) were diagnosed on the basis of bronchoscopic findings, as follows: pulmonary tuberculosis, in 127 (44%); nonspecific chronic inflammation, in 51 (18%); pneumocystis, fungal infections, or nocardiosis, in 20 (7%); bronchiolitis obliterans organizing pneumonia, alveolites, or pneumoconiosis, in 14 (5%); lung or metastatic neoplasms, in 7 (2%); and nontuberculous mycobacterium infections, in 6 (2%). For the diagnosis of tuberculosis, BAL showed a sensitivity and a specificity of 60% and 100%, respectively. Adding the TBB findings significantly increased this sensitivity (to 84%), as did adding the post-bronchoscopy sputum smear microscopy results (total sensitivity, 94%). Minor post-procedure complications occurred in 5.6% of the cases. Conclusions: Bronchoscopy is a reliable method for the diagnosis of pulmonary tuberculosis, with low complication rates. The combination of TBB and BAL increases the sensitivity of the method and facilitates the differential diagnosis with other diseases