Maha Jarmakani1, Sean Duguay1, Kermit Rust1, Keri Conner1, Jason M Wagner2. 1. Department of Radiological Sciences, Oklahoma University Health Sciences Center, Oklahoma City, Oklahoma USA. 2. Department of Radiological Sciences, Oklahoma University Health Sciences Center, Oklahoma City, Oklahoma USA jason-wagner@ouhsc.edu.
Abstract
OBJECTIVES: To compare ultrasound (US) versus computed tomography (CT) for primary guidance during needle biopsy of chest lesions. METHODS: Institutional Review Board approval was obtained for this Health Insurance Portability and Accountability Act-compliant retrospective study, and the need for informed consent was waived. All US- and CT-guided chest biopsy procedures performed between January 1, 2012, and October 15, 2014, at our institution were reviewed, and all procedures targeting peripheral intrathoracic and chest wall lesions were included. Axillary lesions, lung lesions without peripheral pleural contact, and mediastinal lesions without a transcutaneous US window were excluded. Radiologic, pathologic, and clinical records were reviewed. RESULTS:Fifty-five procedures with primary US guidance (23 lung, 6 pleural, 2 mediastinal, and 24 chest wall) and 130 CT procedures (88 lung, 10 pleural, 7 mediastinal, and 25 chest wall) were performed. Diagnostic samples were obtained in 98% (54 of 55) of US procedures and 87% (113 of 130) of CT procedures (P = .02). Pneumothorax requiring treatment occurred in 2% (1 of 55) of US procedures and 5% (7 of 130) of CT procedures (P = .25). Computed tomographic localization was used in 29% (16 of 55) of US procedures. Nevertheless, the average patient radiation dose was significantly less in US procedures (182 mGy-cm) versus CT procedures (718 mGy-cm; P< .01). The average procedure time was 40 minutes for US and 38 minutes for CT (P = .39). The average lesion size was 4.5 cm for US and 4.9 cm for CT (P = .14). CONCLUSIONS: During biopsy of peripheral intrathoracic lesions and chest wall lesions, primary US guidance resulted in a higher likelihood of a diagnostic sample and a decreased patient radiation dose compared with CT guidance.
RCT Entities:
OBJECTIVES: To compare ultrasound (US) versus computed tomography (CT) for primary guidance during needle biopsy of chest lesions. METHODS: Institutional Review Board approval was obtained for this Health Insurance Portability and Accountability Act-compliant retrospective study, and the need for informed consent was waived. All US- and CT-guided chest biopsy procedures performed between January 1, 2012, and October 15, 2014, at our institution were reviewed, and all procedures targeting peripheral intrathoracic and chest wall lesions were included. Axillary lesions, lung lesions without peripheral pleural contact, and mediastinal lesions without a transcutaneous US window were excluded. Radiologic, pathologic, and clinical records were reviewed. RESULTS: Fifty-five procedures with primary US guidance (23 lung, 6 pleural, 2 mediastinal, and 24 chest wall) and 130 CT procedures (88 lung, 10 pleural, 7 mediastinal, and 25 chest wall) were performed. Diagnostic samples were obtained in 98% (54 of 55) of US procedures and 87% (113 of 130) of CT procedures (P = .02). Pneumothorax requiring treatment occurred in 2% (1 of 55) of US procedures and 5% (7 of 130) of CT procedures (P = .25). Computed tomographic localization was used in 29% (16 of 55) of US procedures. Nevertheless, the average patient radiation dose was significantly less in US procedures (182 mGy-cm) versus CT procedures (718 mGy-cm; P< .01). The average procedure time was 40 minutes for US and 38 minutes for CT (P = .39). The average lesion size was 4.5 cm for US and 4.9 cm for CT (P = .14). CONCLUSIONS: During biopsy of peripheral intrathoracic lesions and chest wall lesions, primary US guidance resulted in a higher likelihood of a diagnostic sample and a decreased patient radiation dose compared with CT guidance.
Entities:
Keywords:
biopsy; computed tomographic guidance; general and abdominal ultrasound; lung; needle; thoracic; ultrasound guidance