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Lung
Published in: Lung 3/2021

01-06-2021 | Lung Cancer | INTERVENTIONAL PULMONOLOGY

A Retrospective Multi-Site Academic Center Analysis of Pneumothorax and Associated Risk Factors after CT-Guided Percutaneous Lung Biopsy

Authors: Esther Rong, David A. Hirschl, Benjamin Zalta, Anna Shmukler, Steven Krausz, Jeffrey M. Levsky, Juan Lin, Linda B. Haramati, Arash Gohari

Published in: Lung | Issue 3/2021

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Abstract

Purpose

To assess the risk factors, incidence and significance of pneumothorax in patients undergoing CT-guided lung biopsy.

Methods

Patients who underwent a CT-guided lung biopsy between August 10, 2010 and September 19, 2016 were retrospectively identified. Imaging was assessed for immediate and delayed pneumothorax. Records were reviewed for presence of risk factors and the frequency of complications requiring chest tube placement. 604 patients were identified. Patients who underwent chest wall biopsy (39) or had incomplete data (9) were excluded.

Results

Of 556 patients (average age 66 years, 50.2% women) 26.3% (146/556) had an immediate pneumothorax and 2.7% (15/556) required chest tube placement. 297/410 patients without pneumothorax had a delayed chest X-ray. Pneumothorax developed in 1% (3/297); one patient required chest tube placement. Pneumothorax risk was associated with smaller lesion sizes (OR 0.998; 95% CI (0.997, 0.999); [p = 0.002]) and longer intrapulmonary needle traversal (OR 1.055; 95% CI (1.033, 1.077); [p < 0.001]). Previous ipsilateral lung surgery (OR 0.12; 95% CI (0.031, 0.468); [p = 0.002]) and longer needle traversal through subcutaneous tissue (OR 0.976; 95% CI (0.96, 0.992); [p = 0.0034]) were protective of pneumothorax. History of lung cancer, biopsy technique, and smoking history were not significantly associated with pneumothorax risk.

Conclusion

Delayed pneumothorax after CT-guided lung biopsy is rare, developing in 1% of our cohort. Pneumothorax is associated with smaller lesion size and longer intrapulmonary needle traversal. Previous ipsilateral lung surgery and longer needle traversal through subcutaneous tissues are protective of pneumothorax. Stratifying patients based on pneumothorax risk may safely obviate standard post-biopsy delayed chest radiographs.
Literature
1.
2.
Dalag L, Fergus JK, Zangan SM (2019) Lung and abdominal biopsies in the age of precision medicine. Semin Intervent Radiol 36:255–263CrossRef
3.
Itzstein MS, Gupta A, Mara KC, Khanna S, Gerber D (2019) Increasing numbers and reported adverse events in patients with lung cancer undergoing inpatient lung biopsies: a population-based analysis. Lung 197:593–599CrossRef
4.
Hirose T, Mori K, Machida S, Tominaga K, Yokoi K, Adachi M (2000) Computed tomographic fluoroscopy-guided transthoracic needle biopsy for diagnosis of pulmonary nodules. Jpn J Clin Oncol 30(6):259–262CrossRef
5.
Gupta S, Wallace MJ, Cardella JF, Kundu S, Miller DL, Rose SC (2010) Quality improvement guidelines for percutaneous needle biopsy. J Vasc Interv Radiol 21:969–975CrossRef
6.
Byrd RP Jr, Fields-Ossorio C, Roy TM (1999) Delayed chest radiographs and the diagnosis of pneumothorax following CT-guided fine needle aspiration of pulmonary lesions. Respir Med 93:379–381CrossRef
7.
Cox JE, Chiles C, McManus CM et al (1999) Transthoracic needle aspiration biopsy: variables that affect risk of pneumothorax. Radiology 212:165–168CrossRef
8.
Heerink WJ, de Bock GH, de Jonge GJ, Groen HJM, Vliegenthart R, Oudkerk M (2017) Complication rates of CT-guided transthoracic lung biopsy: meta-analysis. Eur Radiol 27:138–148CrossRef
9.
Kazerooni EA, Lim FT, Mikhail A et al (1996) Risk of pneumothorax in CT-guided transthoracic needle aspiration biopsy of the lung. Radiology 198:371–375CrossRef
10.
Miller KS, Fish GB, Stanley JH, Schabel SI (1988) Prediction of pneumothorax rate in percutaneous needle aspiration of lung. Chest 98:742–745CrossRef
11.
Ozturk K, Soylu E, Gokalp G, Topal U (2018) Risk factors of pneumothorax and chest tube placement after computed tomography-guided core needle biopsy of lung lesions: a single-centre experience with 822 biopsies. Pol J Radiol 3(83):e407–e414CrossRef
12.
Poe RH, Kallay MC, Wicks CM, Odoroff CL (1984) Predicting risk of pneumothorax in needle biopsy of the lung. Chest 85:232–235CrossRef
13.
Yeow KM, Su IH, Pan KT et al (2004) Risk factors of pneumothorax and bleeding: multivariate analysis of 660 CT-guided coaxial cutting needle lung biopsies. Chest 126:748–754CrossRef
14.
Perlmutt LM, Braun SD, Newman GE et al (1986) Timing of chest film follow-up after transthoracic needle aspiration. AJR 146:1049–1050CrossRef
15.
Choi CM, Um SW, Yoo CG et al (2004) Incidence and risk factors of delayed pneumothorax after transthoracic needle biopsy of the lung. Chest 126(5):1516–1521CrossRef
16.
Taleb S, Jalaeian H, Frank N, Golzarian J, D’Souza D (2017) Is a routine CXR necessary in every patient after percutaneous CT-guided lung biopsy? Cardiovasc Intervent Radiol 40:1415–1420CrossRef
17.
Covey AM, Gandhi R, Brody LA, Getrajdman G, Thaler HT, Brown KT (2004) Factors associated with pneumothorax and pneumothorax requiring treatment after percutaneous lung biopsy in 443 consecutive patients. J Vasc Interv Radiol 15:479–483CrossRef
18.
Nour-Eldin A, Alsubhi M, Emam A, Lehnert T, Beeres M, Jacobi V, Gruber Rouh T, Scholtz JE, Vogl TJ, Naguib NN (2016) Pneumothorax complicating coaxial and non-coaxial CT-guided lung biopsy: comparative analysis of determining risk factors and management of pneumothorax in a retrospective review of 650 patients. Cardiovasc Intervent Radiol 39:261–270CrossRef
19.
Manhire A, Charig M, Clelland C et al (2003) Guidelines for radiologically guided lung biopsy. Thorax 58(11):920–936CrossRef
20.
Wu CC, Maher MM, Shepard JO (2011) Complications of CT-guided percutaneous needle biopsy of the chest: prevention and management. AJR 196:678–682CrossRef
21.
Dennie CJ, Matzinger FR, Marriner JR et al (2001) Transthoracic needle biopsy of the lung: results of early discharge in 506 outpatients. Radiology 219:247–251CrossRef
22.
Sanampudi S, Yu Q, Han Q, Farag A, Gabriel G, Winkler M, Raissi D (2020) Abstract # 590 utility of serial chest radiographs after percutaneous lung biopsy: are we overdoing it? JVIR 31(3):S257CrossRef
23.
Stevens GM, Jackman RJ (1984) Outpatient needle biopsy of the lung: its safety and utility. Radiology 151:301–304CrossRef
24.
Westcott JL (1988) Percutaneous transthoracic needle biopsy. Radiology 169:593–601CrossRef
25.
Ceballos D, Blanco D, Koichi A, Abdul-Rahim O (2020) Abstract # 523 biopsy-gauge size, patient, and lesional factors affecting iatrogenic pneumothorax rates for lung biopsies. JVIR 31(3):S229CrossRef
Metadata
Title
A Retrospective Multi-Site Academic Center Analysis of Pneumothorax and Associated Risk Factors after CT-Guided Percutaneous Lung Biopsy
Authors
Esther Rong
David A. Hirschl
Benjamin Zalta
Anna Shmukler
Steven Krausz
Jeffrey M. Levsky
Juan Lin
Linda B. Haramati
Arash Gohari
Publication date
01-06-2021
Publisher
Springer US
Published in
Lung / Issue 3/2021
Print ISSN: 0341-2040
Electronic ISSN: 1432-1750
DOI
https://doi.org/10.1007/s00408-021-00445-7

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