Journal Information
Vol. 12. Issue 5.
Pages 503-524 (September - October 2006)
Share
Share
Download PDF
More article options
Vol. 12. Issue 5.
Pages 503-524 (September - October 2006)
Artigo Original / Original Article
Open Access
Biópsia percutânea transtorácica guiada por TC na avaliação de lesões pulmonares de natureza indeterminada
CT-guided percutaneous transthoracic biopsy in the evaluation of undetermined pulmonary lesions
Visits
5431
Rute Lourenço1,
Corresponding author
rutelourenco@netcabo.pt

Correspondência/Correspondence to: Dra. Rute Lourenço, Serviço de Radiologia, Hospital Garcia de Orta, SA, Almada, Tel. 212727253.
, Rui Camacho1, Maria João Barata1, Dolores Canário2, Augusto Gaspar3, Carlos Cyrne4
1 Interno/a de Radiologia, Serviço de Radiologia (Director: Dr. Carlos Cyrne) / Radiology intern, Radiology Unit, Hospital Garcia de Orta, SA, Almada, Portugal.
2 Assistente Graduada de Pneumologia, Serviço de Pneumologia (Director: Dr. Jorge Roldão Vieira) / Graduate Pulmonology Assistant, Pulmonology Unit, Hospital Garcia de Orta, SA, Almada, Portugal.
3 Assistente Graduado de Radiologia, Serviço de Radiologia (Director: Dr. Carlos Cyrne) / Graduate Radiology Assistant, Radiology Unit, Hospital Garcia de Orta, SA, Almada, Portugal.
4 Director do Serviço de Radiologia do HGO / Director, Radiology Unit, HGO, Hospital Garcia de Orta, SA, Almada, Portugal.
This item has received

Under a Creative Commons license
Article information
Resumo

Avaliação retrospectiva das biópsias percutâneas transtorácicas (BPTT) guiadas por TC de lesões pulmonares indeterminadas, realizadas no Serviço de Radiologia do Hospital Garcia de Orta entre 2002 e 2004. Realizaram-se 89 biópsias aspirativas (BA) e 13 biópsias core (BC) a 92 doentes (67 homens, idade média 64,4 anos). Oitenta e duas lesões (89%) corresponderam a lesões nodulares (diâmetro médio: 3,8±1,7cm, 65 periféricas). Não obtivemos complicações nas BC. Ocorreram complicações minor em 11 BA e um caso de pneu-motórax com necessidade de drenagem. Setenta e duas BA foram adequadas para diagnóstico citológico, positivo para células neoplásicas em 72% dos casos. Em todas as BC a amostra foi adequada e conclusiva. Das 7 BC realizadas a doentes com BA, 3 permitiram uma melhor caracterização histológica e, em 3, a BC permitiu o diagnóstico histológico. Todos os diagnósticos malignos corresponderam a lesões nodulares: adenocarcinoma (n=20), carcinoma de não pequenas células pouco diferenciado (n=13), epidermóide (n=10), de pequenas células (n=5), tumor carcinóide (n=2), carcinoma bronquíolo-alveolar (n=1), mesotelioma maligno (n=1) e metástases (n=8). As altera-ções inflamatórias/inespecíficas (n=5) foram as lesões benignas mais frequentes. A idade (p=0,007) e o diâmetro da lesão (p=0,006) foram superiores nos nódulos malignos. Os contornos espiculados e lobulados (p=0,05) foram mais prevalentes nas lesões malignas e os contornos regulares nas benignas (p=0,0001). Não se verificou diferença estatisticamente significativa relativamente ao sexo, tabagismo, localização, cauda pleural, atenuação homogénea, cavitação, calcificações, necrose e broncograma aéreo.

Concluiu-seque a BPTT guiada por TC é uma técnica segura e eficaz na avaliação de lesões pulmonares indeterminadas.

Palavras-chave:
Biópsia percutânea transtorácica
tomografia computorizada
lesões pulmonares indeterminadas
Abstract

CT-guided Percutaneous Transthoracic Biopsies (PTB) performed in the Radiology Department of Garcia de Orta Hospital between 2002 and 2004 to evaluate undetermined pulmonary lesions were retrospectively analysed. 89 fine needle aspiration biopsies (FNAB) and 13 core needle biopsies (CNB) were performed on 92 patients (67 men, mean age: 64.4years). 82 lesions (89%) were nodular lesions (mean diameter: 3.8±1.7cm, 65 peripheral). We did not observe complications among patients who underwent CNB; minor complications and pneumothorax requiring drainage occurred in 11 FNAB. 72 FNAB were considered adequate for cytology diagnosis; 72% of them positive for malignancy. All CNB were adequate and conclusive. From the 7 CNB performed on patients with previous FNAB, 3 allowed a better histological characterization and in 3 cases of inadequate FNAB, CNB was conclusive. All malignant lesions were nodules: 20 adenocarcinoma, 13 non-small cell lung cancer (SCLC), 10 epidermoid tumours, 5 small-cell lung cancer, 2 carcinoids, 1 bronchiolo alveolar carcinoma, 1 malignant mesothelioma and 8 metastasis. Un-specific/inflammatory lesions (n=5) were the most frequent benign lesions. Malignant lesions were more prevalent in older patients (p=0.007) and were larger (p=0.006). Spiculated and lobulated contour (p=0.05) were more prevalent in malignant lesions while regular contour was more frequent among benign lesions (p=0.0001). Gender, smoking, location, pleural tag, homogenous attenuation, cavitation, calcification, necrosis and air bronchogram did not differ significantly between benign and malignant nodules.

This study shows that CT-guided PTB is a safe and effective procedure in the evaluation of undetermined pulmonary lesions.

Key-words:
Percutaneous transthoracic biopsy
computed tomography
undetermined pulmonary lesions
Full text is only aviable in PDF
Bibliografia/Bibliography
[1.]
H. Li, P.M. Boiselle, J.O. Shepard, et al.
Diagnostic accuracy and safety of CT-guided percutaneous needle aspiration biopsy of the lung: comparison of small and large pulmonary nodules.
[2.]
A. Staroselsky, Y. Schwarz, A. Man, S. Marmur, J. Greif.
Additional information from percutaneous cutting needle biopsy following fine-needle aspiration in the diagnosis of chest lesions.
Chest, 113 (1998), pp. 1522-1525
[3.]
J.A. Kaufman, M.J. Lee.
Vascular and Interventional Radiology: the requisites.
pp. 483
[4.]
A. Manhire, M. Charig, C. Clelland, et al.
Guidelines for radiologically guided lung biopsy.
Thorax, 58 (2003), pp. 920-936
[5.]
B. Ghaye, R.F. Dondelinger.
Imaging guided thoracic interventions.
Eur Respir J, 17 (2001), pp. 507-528
[6.]
J.J. Erasmus, J. Connolly, H. Page McAdams, V. Roggli.
Solitary pulmonary nodules: part I. Morphologic evaluation for differentiation of benign and malignant Lesions.
[7.]
J.D. Steele.
The solitary pulmonary nodule: report of cooperative study of resected asymptomatic solitary nodules in males.
J Thorac Cardiovasc Surg, 46 (1963), pp. 21-29
[8.]
J.J. Erasmus, H. Page McAdams, J. Connolly.
Solitary pulmonary nodules: part II. Evaluation of the indeterminate nodule.
[9.]
J.W. Gurney.
Determining the likelihood of malignancy in solitary pulmonary nodules with bayesian analysis.
Part I Theory. Radiology, 186 (1993), pp. 405-413
[10.]
C.M. Richardson, K.S. Pointon, A.R. Manhire, J.T. Macfarlane.
Percutaneous lung biopsies: a survey of UK practice based on 5444 biopsies.
The British Journal of Radiology, 75 (2002), pp. 731-735
[11.]
O. Lucidarme, N. Howarth, J.F. Finet, P.A. Grenier.
Intrapulmonary lesions: percutaneous automated biopsy with a detachable 18-gauge, coaxial cutting needle.
Radiology, 207 (1998), pp. 759-765
[12.]
J.S. Klein, M.A. Zarka.
Transthoracic needle biopsy.
Radiol Clin North Am, 38 (2000), pp. 235-266
[13.]
H. Anakawa, Y. Nakajima, H. Kurihara, H. Niimi, T. Ishikawa.
CT-guided transthoracic needle biopsy: a comparision between automated biopsy gun and fine needle aspiration.
Clin Radiol, 51 (1996), pp. 503-506
[14.]
J.S. Klein, G. Salomon, E.A. Stewart.
Transthoracic needle biopsy with a coaxially placed 20-gauge automated cutting needle: results in 122 patients.
Radiology, 198 (1996), pp. 715-720
[15.]
E. VanSonnenberg, B.W. Goodacre, G.R. Wittich, R. Logrono, P.T. Kennedy, J.B. Zwischenberger.
Image-guided 25-gauge Needle Biopsy for Thoracic Lesions: Diagnostic Feasibility and Safety.
Radiology, 227 (2003), pp. 414-418
[16.]
P.R. Geraghty, S.T. Kee, G. McFarlane, M.K. Razavi, D.Y. Sze, M.D. Dake.
CT-guided Transthoracic Needle Aspiration Biopsy of Pulmonary Nodules: Needle Size and Pneumothorax Rate.
Radiology, 229 (2003), pp. 475-481
[17.]
K.M. Yeow, L.C. See, K.W. Lui, et al.
Risk factors for pneumothorax and bleeding after CT-guided percutaneous coaxial cutting needle biopsy of lung lesions.
J Vasc Intervent Radiol, 12 (2001), pp. 1305-1312
[18.]
L.B. Haramati, J.H.M. Austin.
Complications after CT-guided needle biopsy through aerated versus non-aerated lung.
[19.]
D.J. Conces, G.R. Scheenk, et al.
Thoracic needle biopsy: improved results utilizing a team approach.
Chest, 91 (1987), pp. 813-816
[20.]
H. Tsukada, T. Satou, A. Iwashima, T. Souma.
Diagnostic accuracy of CT-guided automated needle biopsy of lung nodules.
[21.]
G. Schreiber, D.C. McCrory.
Performance characteristics of different modalities for diagnosis of suspected lung cancer.
Chest, 123 (2003), pp. 115S-128S
[22.]
M.J. Charig, A.J. Phillips.
CT-guided cutting needle biopsy of lung lesions – safety and efficacy of an out-patient service.
Clin Radiol, 55 (2000), pp. 964-969
[23.]
M.J. Wallace, S. Krishnamurthy, L. Broemeling, et al.
CT-guided Percutaneous Fine-Needle Aspiration Biopsy of Small (< 1cm) Pulmonary Lesions.
Radiology, 225 (2002), pp. 823-828
[24.]
A. Yilmaz, T.B. Uskul, B. Bayramgurler, et al.
Cell type accuracy of transthoracic fine needle aspiration material in primary lung cancer.
Respirology, 6 (2001), pp. 91-94
[25.]
J.H.M. Austin, M.B. Cohen.
Value of having a cyto-pathologist present during percutaneous fine needle aspiration biopsy of lung: report of 55 cancer patients and meta-analysis of the literature.
[26.]
J. Greif, S. Marmur, Y. Schwarz, et al.
Percutaneous core needle biopsy vs. fine needle aspiration in diagnosing benign lung lesions.
Acta Cytol, 43 (1999), pp. 756-760
[27.]
T. Yamagami, S. Iida, T. Kato, O. Tanaka, T. Nishimura.
Combining fine-needle aspiration and core biopsy under CT fluoroscopy guidance: a better way to treat patients with lung nodules?.
[28.]
G.A. Lillington.
The solitary pulmonary nodule 1974.
Am Rev Respir Dis, 110 (1974), pp. 699-706
[29.]
C.V. Zwirewich, S. Vedal, R. Miller, N. Muller.
Solitary pulmonary nodule: high-resolution CT and radiologic-pathologic correlation.
Radiology, 179 (1991), pp. 469-476
[30.]
N. Muller, R. Fraser, N. Colman, P.D. Paré.
pp. 221
[31.]
J. Frija.
Thorax 2e édition révisée.
pp. 175-179
[32.]
A. Takatoshi, T. Yoshinori, W. Hideyuki, et al.
Peripheral lung adenocarcinoma: correlation of thin-section CT findings with histologic prognostic factors and survival.
Radiology, 220 (2001), pp. 803-809
Copyright © 2006. Sociedade Portuguesa de Pneumologia/SPP
Download PDF
Pulmonology
Article options
Tools

Are you a health professional able to prescribe or dispense drugs?