High diagnostic yield from transbronchial biopsy of solitary pulmonary nodules using low-dose CT-guidance

ABSTRACT Background and objective:  The diagnostic yield from fluoroscopy‐guided bronchoscopic transbronchial biopsy of small solitary pulmonary nodules is low. The hypothesis tested in the present study was that the diagnostic yield can be significantly increased by combining flexible bronchoscopy...

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Published in:Respirology (Carlton, Vic.) Vic.), 2010-05, Vol.15 (4), p.677-682
Main Authors: HAUTMANN, Hubert, HENKE, Markus O., BITTERLING, Harro
Format: Article
Language:English
Subjects:
Adenocarcinoma, Bronchiolo-Alveolar - diagnosis
Adenocarcinoma, Bronchiolo-Alveolar - pathology
Aged
bronchoscopy
Bronchoscopy - methods
Carcinoma, Squamous Cell - diagnosis
Carcinoma, Squamous Cell - pathology
Cohort Studies
computed tomography
Female
Fluoroscopy
Humans
lung cancer
Lung Neoplasms - diagnosis
Lung Neoplasms - pathology
Male
Middle Aged
Radiation Dosage
Small Cell Lung Carcinoma - diagnosis
Small Cell Lung Carcinoma - pathology
solitary pulmonary nodule
Solitary Pulmonary Nodule - diagnosis
Solitary Pulmonary Nodule - pathology
Tomography, X-Ray Computed - methods
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Summary:ABSTRACT Background and objective:  The diagnostic yield from fluoroscopy‐guided bronchoscopic transbronchial biopsy of small solitary pulmonary nodules is low. The hypothesis tested in the present study was that the diagnostic yield can be significantly increased by combining flexible bronchoscopy with CT‐guidance using a dedicated low‐dose protocol. Methods:  CT‐guided transbronchial biopsies were performed in 15 patients with a newly diagnosed solitary peripheral pulmonary nodule and negative conventional bronchoscopic biopsies under fluoroscopic guidance. For imaging, a multi‐detector helical CT unit, adjusted at 120 kV, 15 mAs/slice, 4 × 5 mm collimation, 10 mm reconstructed slice thickness and a maximal scan length of 150 mm, was used. After advancing the biopsy forceps towards the lesion, a CT scan was obtained. When the tip of the forceps reached or penetrated the lesion a biopsy was taken, otherwise the procedure was repeated with a maximum of eight attempts. The effective radiation dose was calculated. Results:  The average diameter of the nodules was 23 ± 6 mm (mean ± SD) with a maximum distance to the parietal pleura of 18 mm (mean 6.5 mm). A mean of 4.1 (range 2–8) CT scans was performed to localize the lesion. In four patients, the forceps only reached the periphery of the nodule. In one patient, the nodule was missed in all attempts. Histology was malignant in eight patients and benign in four patients. In three patients, biopsy results were false negative (benign or non‐specific instead of malignant). The overall diagnostic yield was 73%. Complications consisted of two pneumothoraces, one of which necessitated a chest tube. Mean effective radiation dose was 0.55 mSv (range 0.3–1.0). Conclusions:  CT‐guided transbronchial biopsy can be a valuable diagnostic tool in evaluating solitary pulmonary nodules. This applies for selected patients when other diagnostic methods are either unavailable or inappropriate. The diagnostic yield is high and, when a low‐dose protocol is used, radiation exposure can be kept at a minimum. This study evaluated the diagnostic yield of transbronchial biopsy using flexible fibre‐optic bronchoscopy with CT‐guidance and a dedicated low‐dose protocol in 15 patients with a newly diagnosed solitary peripheral pulmonary nodule. The overall diagnostic yield was 73%; two patients developed pneumothorax. Mean effective radiation dose was 0.55 mSv (range 0.3–1.0).
ISSN:1323-7799
1440-1843
DOI:10.1111/j.1440-1843.2010.01741.x