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S. Sachidananda
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MINI 19 - Surgical Topics in Localized NSCLC (ID 138)
- Event: WCLC 2015
- Type: Mini Oral
- Track: Treatment of Localized Disease - NSCLC
- Presentations: 2
- Moderators:D. Jablons, B. Stiles
- Coordinates: 9/08/2015, 16:45 - 18:15, 605+607
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MINI19.09 - Adjunct Intraop Cone Bean CT (CBCT) with Real Time 3D Overlay Improves Diagnostic Accuracy of Electromagnetic Navigational Bronchoscopy (ENB) (ID 1078)
17:30 - 17:35 | Author(s): S. Sachidananda
- Abstract
- Presentation
Background:
ENB is limited by diagnostic accuracy of 60-80%[ [1]]. We hypothesize that using intraoperative CBCT with real time 3D overlay onto fluoroscopic images to confirm placement of biopsy tools in the lesion will increase the diagnostic accuracy of ENB biopsies. [1] Wang Memoli JS, Nietert PJ, Silvestri GA. Meta-Analysis of Guided Bronchoscopy for the Evaluation of the Pulmonary Nodule. Chest. 2012;142(2):385-393. doi:10.1378/chest.11-1764
Methods:
Patients with undiagnosed small pulmonary nodules (<20 mm) underwent biopsy where an initial CBCT of the chest under breath hold was performed, followed by a 3D model reconstruction of the lesions while the surgeon started the ENB. At the end of the bronchoscope navigation, the 3D model of the lesion was fused and automatically registered in real time over the 2D fluoroscopy, allowing an evaluation of the biopsy tool positioning in 3-dimensions. Multiple samples were collected after confirmation of the tool position using various oblique views. Figure 1
Results:
In our initial experience with 10 cases, CBCT acquisition, reconstruction and 3D-overlay was successful in all cases. This procedure enabled confirmation of biopsy tool position within the target lesion in all cases. In one case, the new information obtained successfully discriminated a diaphragm implant from what previously had been interpreted as a basilar parenchymal nodule. In a second case, CBCT reconstruction enabled biopsy of a 15mm lesion thought to be a solitary metastasis. The biopsy was interpreted as normal, albeit in clinical circumstances which were suspicious for malignancy. The patient elected non-surgical treatment of an esophageal primary, precluding definitive pathologic confirmation. A third case provided a biopsy interpreted as normal in a patient who ultimately proceeded to resection for growth of the nodule. While frozen section suggested a benign entity, final pathology demonstrated scattered elements of malignancy. In the remaining cases, CBCT and 3D overlay assisted in successful and accurate biopsy of nodules <20mm.
Conclusion:
Intraoperative CBCT and real time 3D overlay onto fluoroscopic images to confirm appropriate positioning of the biopsy tools in the lesion during ENB is technically feasible. It effectively combines the advantage of real time CT imaging with the advantages of ENB biopsy. This has the potential to increase the diagnostic accuracy of ENB aided tissue diagnosis of small pulmonary nodules. This novel technique will facilitate early accurate diagnosis of lung cancer in small nodules with a minimally invasive approach.
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MINI19.11 - Use of Electromagnetic Navigational Bronchoscopy to Localize Pulmonary Nodules Prior to Minimally Invasive Sublobar Resection (ID 2303)
17:45 - 17:50 | Author(s): S. Sachidananda
- Abstract
- Presentation
Background:
Sublobar resection of small pulmonary nodules by minimally invasive techniques can be a challenge, as this approach reduces the haptic feedback often required to reliably localize small lesions. Use of Electromagnetic Navigational Bronchoscopy (ENB) is a relatively new technique that has potential to assist in real time operative localization of such lesions, as ENB can deliver visual cues for their location in the form of either a dye marking or a radio-opaque clip, or both. There is limited data available on the feasibility of this approach. We want to describe our experience with this technique.
Methods:
A retrospective review of cases in which ENB was used to localize small pulmonary nodules was done from August 1, 2013 to February 1, 2015. We start by using ENB to navigate to the target lesion. In our initial experience, methylene blue was injected into the parenchyma around the mass, and dye migration to the pleural edge was used as a visual cue for location. We then amended our protocol to include placement of both methylene blue dye and a radio-opaque clip in the parenchyma immediately adjacent to the target lesion. Fluoroscopy was then used to triangulate the location of the clip, and by extension the mass, via markings on the chest wall with the lung deflated prior to incision. The visual cue of the dye marking as well as the fluoroscopic localization of the clip served to confirm each other. This was followed by minimally invasive resection of the lesion using these cues to assist in port placement. Figure 1
Results:
A total of 28 cases were identified. ENB was successful in navigating to the lesion in all cases. ENB dye localization alone was successful in 5 of 6 cases. After the first unsuccessful dye localization, our amended protocol of dye marking and clip placement led to successful localization in 22 consecutive cases.
Conclusion:
Use of electromagnetic navigational bronchoscopy to localize small pulmonary nodules is a feasible approach and is technically straightforward. As we see broader implementation of lung cancer screening protocols, thoracic surgeons can expect to encounter many more small pulmonary nodules requiring resection. There is accumulating data that sublobar resection is equivalent to lobar resection for small, peripherally located lung cancer. Use of the algorithm – ‘Navigate, Triangulate and Resect’ will enable thoracic surgeons to more successfully perform sublobar resections of small pulmonary nodules by minimally invasive techniques.
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