Robotic Bronchoscopy for Peripheral Pulmonary Lesion Biopsy: Evidence-Based Review of the Two Platforms

Despite many advancements in recent years for the sampling of peripheral pulmonary lesions, the diagnostic yield remains low. Initial excitement about the current electromagnetic navigation platforms has subsided as the real-world data shows a significantly lower diagnostic sensitivity of ~70%. “CT-to-body divergence” has been identified as a major limitation of this modality. In-tandem use of the ultrathin bronchoscope and radial endobronchial ultrasound probe has yielded only comparable results, attributable to the limited peripheral reach, device maneuverability, stability, and distractors like atelectasis. As such, experts have identified three key steps in peripheral nodule sampling—navigation (to the lesion), confirmation (of the correct location), and acquisition (tissue sampling by tools). Robotic bronchoscopy (RB) is a novel innovation that aspires to improve upon these aspects and consequently, achieve a better diagnostic yield. Through this publication, we aim to review the technical aspects, safety, feasibility, and early efficacy data for this new diagnostic modality.

Management of Significant Airway Bleeding during Robotic Assisted Bronchoscopy: A Tailored Approach

Robotic assisted bronchoscopy represents a major turning point in bronchoscopic history. The management strategies to address significant airway bleeding in this “robotic era” are not well documented, and further guidance is required. We present a case report that exemplifies our approach and management strategy using a combined and simultaneous flexible/robotic bronchoscopy if this complication is encountered.

Robotic Bronchoscopy for the Diagnosis of Peripheral Lung Nodules: a Review

Purpose of Review Conventional bronchoscopy has limitations based on an inability to accurately reach and reliably diagnose peripheral lesions with many studies having a yield of less than 50%. Although newer technology such as virtual bronchoscopy, use of smaller bronchoscopes, peripheral endobronchial ultrasound, and electromagnetic navigation may have some improvements and a better safety profile, oftentimes transthoracic or surgical biopsies are required to establish a diagnosis and rule out malignancy. The purpose of this review is to highlight the potential benefits of robotic bronchoscopy, the latest in technological advances for this very common medical issue. Recent Findings Recently published early studies suggest the yield of robotic bronchoscopy may surpass 90%. Studies performed in cadavers and humans suggest robotic bronchoscopic platforms are better than currently existing bronchoscopic modalities for lung nodule diagnosis and have a favorable safety profile. Summary Although additional multi-center randomized clinical trials are needed, robotic bronchoscopy appears poised to supplement current bronchoscopic techniques for establishing a diagnosis of pulmonary nodules.