Sampling Utility of the Convex Probe Endobronchial Ultrasound Visible Intrapulmonary Lesion

Abstract: EBUS-TBNA is safe and effective in the diagnosis of EBUS-visible intrapulmonary lesions. It should be considered as the diagnostic test of choice in patients with these lesions undergoing EBUS-TBNA for the staging of suspected lung cancer.

“…However, lung lesions are sampled with endosonography much less frequently than lymphadenopathy, and our patient population (99 patients overall, 53 of them with advanced lung cancer) is indeed one of the largest reported in the literature so far. [28][29][30][31][32][33][34][35] In conclusion, the present study suggests that peribronchial and periesophageal intrapulmonary lesions represent a useful target for endosonography-guided biopsy aimed at the molecular profiling of advanced lung cancer. Further studies are needed to confirm these results on larger series and to verify prospectively whether technical aspects (ie, the number of needle passes and/or the number of lesions sampled) may help improve further the percentage of patients for whom all the clinically indicated tests can be successfully carried out.…”

“…Most studies that assessed the suitability of EBUS‐TBNA for the molecular profiling on intrathoracic lymph node metastases reported an average node size consistently smaller than 20 mm . On the contrary, an average size ranging from 25 to 53 mm was reported in all the literature studies that described the performance characteristics of EBUS‐TBNA for the diagnosis of centrally located intrapulmonary tumours . In particular, the possibility for the operator to move the needle back and forth through a long tract inside a large lesion usually allows blood and small tissue cores to clot inside the needle.…”

“…Second, the sample size of this study is small in absolute terms. However, lung lesions are sampled with endosonography much less frequently than lymphadenopathy, and our patient population (99 patients overall, 53 of them with advanced lung cancer) is indeed one of the largest reported in the literature so far …”

“…[12][13][14][15][16] On the contrary, an average size ranging from 25 to 53 mm was reported in all the literature studies that described the performance characteristics of EBUS-TBNA for the diagnosis of centrally located intrapulmonary tumours. [28][29][30][31][32][33][34][35] In particular, the possibility for the operator to move the needle back and forth through a long tract inside a large lesion usually allows blood and small tissue cores to clot inside the needle. This leads often to the formation of long fragments that reproduce the shape of the needle and that can be put directly into formalin to be processed as a biopsy (Figure 1A-D).…”

“…27 In the last 5 years, a few series have appeared in the literature suggesting that endosonography can also be used successfully to diagnose bronchoscopically invisible, centrally located intrapulmonary lesions. [28][29][30][31][32][33][34][35][36] However, only one of them has recently provided information on adequacy of these samples for some (EGFR, ALK) of the molecular tests currently indicated in patients with advanced disease. 28 The present study aimed to evaluate the yield of endosonographyderived samples from intrapulmonary lesions for genotyping and PD-L1 testing in patients with advanced non-small cell lung cancer (NSCLC).…”

Adequacy of endosonography‐derived samples from peribronchial or periesophageal intrapulmonary lesions for the molecular profiling of lung cancer

“…However, lung lesions are sampled with endosonography much less frequently than lymphadenopathy, and our patient population (99 patients overall, 53 of them with advanced lung cancer) is indeed one of the largest reported in the literature so far. [28][29][30][31][32][33][34][35] In conclusion, the present study suggests that peribronchial and periesophageal intrapulmonary lesions represent a useful target for endosonography-guided biopsy aimed at the molecular profiling of advanced lung cancer. Further studies are needed to confirm these results on larger series and to verify prospectively whether technical aspects (ie, the number of needle passes and/or the number of lesions sampled) may help improve further the percentage of patients for whom all the clinically indicated tests can be successfully carried out.…”

“…Most studies that assessed the suitability of EBUS‐TBNA for the molecular profiling on intrathoracic lymph node metastases reported an average node size consistently smaller than 20 mm . On the contrary, an average size ranging from 25 to 53 mm was reported in all the literature studies that described the performance characteristics of EBUS‐TBNA for the diagnosis of centrally located intrapulmonary tumours . In particular, the possibility for the operator to move the needle back and forth through a long tract inside a large lesion usually allows blood and small tissue cores to clot inside the needle.…”

“…Second, the sample size of this study is small in absolute terms. However, lung lesions are sampled with endosonography much less frequently than lymphadenopathy, and our patient population (99 patients overall, 53 of them with advanced lung cancer) is indeed one of the largest reported in the literature so far …”

“…[12][13][14][15][16] On the contrary, an average size ranging from 25 to 53 mm was reported in all the literature studies that described the performance characteristics of EBUS-TBNA for the diagnosis of centrally located intrapulmonary tumours. [28][29][30][31][32][33][34][35] In particular, the possibility for the operator to move the needle back and forth through a long tract inside a large lesion usually allows blood and small tissue cores to clot inside the needle. This leads often to the formation of long fragments that reproduce the shape of the needle and that can be put directly into formalin to be processed as a biopsy (Figure 1A-D).…”

“…27 In the last 5 years, a few series have appeared in the literature suggesting that endosonography can also be used successfully to diagnose bronchoscopically invisible, centrally located intrapulmonary lesions. [28][29][30][31][32][33][34][35][36] However, only one of them has recently provided information on adequacy of these samples for some (EGFR, ALK) of the molecular tests currently indicated in patients with advanced disease. 28 The present study aimed to evaluate the yield of endosonographyderived samples from intrapulmonary lesions for genotyping and PD-L1 testing in patients with advanced non-small cell lung cancer (NSCLC).…”

Adequacy of endosonography‐derived samples from peribronchial or periesophageal intrapulmonary lesions for the molecular profiling of lung cancer

Endobronchial Ultrasound‐Guided Transbronchial Needle Aspiration

Forbearance With Bronchoscopy