Ex vivo pulmonary nodule detection with miniaturized ultrasound convex probes

Abstract Background The intraoperative localization of small and deep pulmonary nodules is often difficult during minimally invasive thoracic surgery. We compared the performance of three miniaturized ultrasound (US) convex probes, one of which is currently used for thoracic endoscopic diagnostic pr...

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Published inThe Journal of surgical research Vol. 202; no. 1; pp. 49 - 57
Main Authors Daddi, Niccolò, MD, PhD, Sagrini, Elisabetta, MD, PhD, Lugaresi, Marialuisa, MD, PhD, Perrone, Ottorino, MD, PhD, Candoli, Piero, MD, Ragusa, Mark, MD, PhD, Puma, Francesco, MD, Mattioli, Sandro, MD
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.05.2016
Subjects
Animals
Endobronchial ultrasound probe
Ex vivo lung perfusion
Finger probe
In vitro simulation
In Vitro Techniques
Lung Neoplasms - diagnostic imaging
Lung Neoplasms - surgery
Lung nodule
Microconvex probe
Sensitivity and Specificity
Surgery
Swine
Thoracic Surgery, Video-Assisted
Ultrasonography, Interventional - instrumentation
Ultrasound
Microconvex probe
In vitro simulation
Finger probe
Ex vivo lung perfusion
Lung nodule
Ultrasound
Endobronchial ultrasound probe
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Abstract Abstract Background The intraoperative localization of small and deep pulmonary nodules is often difficult during minimally invasive thoracic surgery. We compared the performance of three miniaturized ultrasound (US) convex probes, one of which is currently used for thoracic endoscopic diagnostic procedures, for the detection of lung nodules in an ex vivo lung perfusion model. Methods Three porcine cardiopulmonary blocks were perfused, preserved at 4°C for 6 h and reconditioned. Lungs were randomly seeded with different patterns of echogenicity target nodules (9 water balls, 10 fat, and 11 muscles; total n  = 30). Three micro-convex US probes were assessed in an open setting on the pleural surface: PROBE 1, endobronchial US 5–10 MHz; PROBE 2, laparoscopic 4–13 MHz; PROBE 3, fingertip micro-convex probe 5–10 MHz. US probes were evaluated regarding the number of nodules localized/not localized, the correlation between US and open specimen measurements, and imaging quality. Results For detecting target nodules, the sensitivity was 100% for PROBE 1, 86.6% for PROBE 2, and 78.1% for PROBE 3. A closer correlation between US and open specimen measurements of target diameter ( r  = 0.87; P  = 0.0001) and intrapulmonary depth ( r  = 0.97; P  = 0.0001) was calculated for PROBE 1 than for PROBES 2 and 3. The imaging quality was significantly higher for PROBE 1 than for PROBES 2 and 3 ( P  < 0.04). Conclusions US examination with micro-convex probes to detect pulmonary nodules is feasible in an ex vivo lung perfusion model. PROBE 1 achieved the best performance. Clinical research with the endobronchial US micro-convex probe during minimally invasive thoracic surgery is advisable.
AbstractList Abstract Background The intraoperative localization of small and deep pulmonary nodules is often difficult during minimally invasive thoracic surgery. We compared the performance of three miniaturized ultrasound (US) convex probes, one of which is currently used for thoracic endoscopic diagnostic procedures, for the detection of lung nodules in an ex vivo lung perfusion model. Methods Three porcine cardiopulmonary blocks were perfused, preserved at 4°C for 6 h and reconditioned. Lungs were randomly seeded with different patterns of echogenicity target nodules (9 water balls, 10 fat, and 11 muscles; total n  = 30). Three micro-convex US probes were assessed in an open setting on the pleural surface: PROBE 1, endobronchial US 5–10 MHz; PROBE 2, laparoscopic 4–13 MHz; PROBE 3, fingertip micro-convex probe 5–10 MHz. US probes were evaluated regarding the number of nodules localized/not localized, the correlation between US and open specimen measurements, and imaging quality. Results For detecting target nodules, the sensitivity was 100% for PROBE 1, 86.6% for PROBE 2, and 78.1% for PROBE 3. A closer correlation between US and open specimen measurements of target diameter ( r  = 0.87; P  = 0.0001) and intrapulmonary depth ( r  = 0.97; P  = 0.0001) was calculated for PROBE 1 than for PROBES 2 and 3. The imaging quality was significantly higher for PROBE 1 than for PROBES 2 and 3 ( P  < 0.04). Conclusions US examination with micro-convex probes to detect pulmonary nodules is feasible in an ex vivo lung perfusion model. PROBE 1 achieved the best performance. Clinical research with the endobronchial US micro-convex probe during minimally invasive thoracic surgery is advisable.
The intraoperative localization of small and deep pulmonary nodules is often difficult during minimally invasive thoracic surgery. We compared the performance of three miniaturized ultrasound (US) convex probes, one of which is currently used for thoracic endoscopic diagnostic procedures, for the detection of lung nodules in an ex vivo lung perfusion model. Three porcine cardiopulmonary blocks were perfused, preserved at 4°C for 6 h and reconditioned. Lungs were randomly seeded with different patterns of echogenicity target nodules (9 water balls, 10 fat, and 11 muscles; total n = 30). Three micro-convex US probes were assessed in an open setting on the pleural surface: PROBE 1, endobronchial US 5-10 MHz; PROBE 2, laparoscopic 4-13 MHz; PROBE 3, fingertip micro-convex probe 5-10 MHz. US probes were evaluated regarding the number of nodules localized/not localized, the correlation between US and open specimen measurements, and imaging quality. For detecting target nodules, the sensitivity was 100% for PROBE 1, 86.6% for PROBE 2, and 78.1% for PROBE 3. A closer correlation between US and open specimen measurements of target diameter (r = 0.87; P = 0.0001) and intrapulmonary depth (r = 0.97; P = 0.0001) was calculated for PROBE 1 than for PROBES 2 and 3. The imaging quality was significantly higher for PROBE 1 than for PROBES 2 and 3 (P < 0.04). US examination with micro-convex probes to detect pulmonary nodules is feasible in an ex vivo lung perfusion model. PROBE 1 achieved the best performance. Clinical research with the endobronchial US micro-convex probe during minimally invasive thoracic surgery is advisable.
BACKGROUNDThe intraoperative localization of small and deep pulmonary nodules is often difficult during minimally invasive thoracic surgery. We compared the performance of three miniaturized ultrasound (US) convex probes, one of which is currently used for thoracic endoscopic diagnostic procedures, for the detection of lung nodules in an ex vivo lung perfusion model.METHODSThree porcine cardiopulmonary blocks were perfused, preserved at 4°C for 6 h and reconditioned. Lungs were randomly seeded with different patterns of echogenicity target nodules (9 water balls, 10 fat, and 11 muscles; total n = 30). Three micro-convex US probes were assessed in an open setting on the pleural surface: PROBE 1, endobronchial US 5-10 MHz; PROBE 2, laparoscopic 4-13 MHz; PROBE 3, fingertip micro-convex probe 5-10 MHz. US probes were evaluated regarding the number of nodules localized/not localized, the correlation between US and open specimen measurements, and imaging quality.RESULTSFor detecting target nodules, the sensitivity was 100% for PROBE 1, 86.6% for PROBE 2, and 78.1% for PROBE 3. A closer correlation between US and open specimen measurements of target diameter (r = 0.87; P = 0.0001) and intrapulmonary depth (r = 0.97; P = 0.0001) was calculated for PROBE 1 than for PROBES 2 and 3. The imaging quality was significantly higher for PROBE 1 than for PROBES 2 and 3 (P < 0.04).CONCLUSIONSUS examination with micro-convex probes to detect pulmonary nodules is feasible in an ex vivo lung perfusion model. PROBE 1 achieved the best performance. Clinical research with the endobronchial US micro-convex probe during minimally invasive thoracic surgery is advisable.
The intraoperative localization of small and deep pulmonary nodules is often difficult during minimally invasive thoracic surgery. We compared the performance of three miniaturized ultrasound (US) convex probes, one of which is currently used for thoracic endoscopic diagnostic procedures, for the detection of lung nodules in an ex vivo lung perfusion model. Three porcine cardiopulmonary blocks were perfused, preserved at 4°C for 6 h and reconditioned. Lungs were randomly seeded with different patterns of echogenicity target nodules (9 water balls, 10 fat, and 11 muscles; total n = 30). Three micro-convex US probes were assessed in an open setting on the pleural surface: PROBE 1, endobronchial US 5–10 MHz; PROBE 2, laparoscopic 4–13 MHz; PROBE 3, fingertip micro-convex probe 5–10 MHz. US probes were evaluated regarding the number of nodules localized/not localized, the correlation between US and open specimen measurements, and imaging quality. For detecting target nodules, the sensitivity was 100% for PROBE 1, 86.6% for PROBE 2, and 78.1% for PROBE 3. A closer correlation between US and open specimen measurements of target diameter (r = 0.87; P = 0.0001) and intrapulmonary depth (r = 0.97; P = 0.0001) was calculated for PROBE 1 than for PROBES 2 and 3. The imaging quality was significantly higher for PROBE 1 than for PROBES 2 and 3 (P < 0.04). US examination with micro-convex probes to detect pulmonary nodules is feasible in an ex vivo lung perfusion model. PROBE 1 achieved the best performance. Clinical research with the endobronchial US micro-convex probe during minimally invasive thoracic surgery is advisable.
Author Puma, Francesco, MD
Sagrini, Elisabetta, MD, PhD
Lugaresi, Marialuisa, MD, PhD
Mattioli, Sandro, MD
Daddi, Niccolò, MD, PhD
Candoli, Piero, MD
Perrone, Ottorino, MD, PhD
Ragusa, Mark, MD, PhD
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Issue 1
Keywords Microconvex probe
In vitro simulation
Finger probe
Ex vivo lung perfusion
Lung nodule
Ultrasound
Endobronchial ultrasound probe
Language English
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Snippet Abstract Background The intraoperative localization of small and deep pulmonary nodules is often difficult during minimally invasive thoracic surgery. We...
The intraoperative localization of small and deep pulmonary nodules is often difficult during minimally invasive thoracic surgery. We compared the performance...
BACKGROUNDThe intraoperative localization of small and deep pulmonary nodules is often difficult during minimally invasive thoracic surgery. We compared the...
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StartPage 49
SubjectTerms Animals
Endobronchial ultrasound probe
Ex vivo lung perfusion
Finger probe
In vitro simulation
In Vitro Techniques
Lung Neoplasms - diagnostic imaging
Lung Neoplasms - surgery
Lung nodule
Microconvex probe
Sensitivity and Specificity
Surgery
Swine
Thoracic Surgery, Video-Assisted
Ultrasonography, Interventional - instrumentation
Ultrasound
Title Ex vivo pulmonary nodule detection with miniaturized ultrasound convex probes
URI https://www.clinicalkey.es/playcontent/1-s2.0-S0022480415011531
https://dx.doi.org/10.1016/j.jss.2015.12.005
https://www.ncbi.nlm.nih.gov/pubmed/27083947
https://search.proquest.com/docview/1781543332
Volume 202
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