Navigational bronchoscopy: overview of technology and practical considerations--new Current Procedural Terminology codes effective 2010

Radial endobronchial ultrasound - guided bronchoscopy for the diagnosis of peripheral pulmonary lesions: A systematic review and meta-analysis of prospective trials

Background

The diagnostic yield of radial endobronchial ultrasound (r-EBUS) for the diagnosis of peripheral pulmonary lesions (PPLs) varies between studies and is affected by multiple factors. We aimed to evaluate the efficacy and safety of r-EBUS, and to explore the factors influencing the diagnostic yield of r-EBUS in patients with PPLs.

Methods

The PubMed, Web of Science, and EMBASE databases were searched to identify relevant studies that used r-EBUS for diagnosing PPLs from the date of inception to Dec 2022. Meta-analysis was conducted using Review Manager 5.4 and Stata 15.1.

Results

An analysis of 46 studies with a total of 7252 PPLs was performed. The pooled diagnostic yield of r-EBUS was 73.4 % (95 % CI: 69.9%-76.7 %), with significant heterogeneity detected among studies (I2 = 90 %, P < 0.001). Further analysis demonstrated PPLs located in the middle or lower lobe, >2 cm in size, malignant in type, solid in appearance on computerized tomography (CT), present in bronchus sign, the within probe location, and the addition of rapid on-site evaluation (ROSE) were associated with increased diagnostic yield, whereas use of a guide sheath (GS), bronchoscopy type, and a multimodality approach failed to influence the outcome. The pooled incidence rates of overall complications, pneumothorax and moderate and severe bleeding were 3.1 % (95 % CI: 2.1%-4.3 %), 0.4 % (95 % CI: 0.1%-0.7 %) and 1.1 % (95 % CI: 0.5%-2.0 %), respectively.

Conclusions

r-EBUS has an appreciable diagnostic yield and an excellent safety manifestation when used to deal with PPLs.

Two-stage contextual transformer-based convolutional neural network for airway extraction from CT images

Accurate airway segmentation from computed tomography (CT) images is critical for planning navigation bronchoscopy and realizing a quantitative assessment of airway-related chronic obstructive pulmonary disease (COPD). Existing methods face difficulty in airway segmentation, particularly for the small branches of the airway. These difficulties arise due to the constraints of limited labeling and failure to meet clinical use requirements in COPD. We propose a two-stage framework with a novel 3D contextual transformer for segmenting the overall airway and small airway branches using CT images. The method consists of two training stages sharing the same modified 3D U-Net network. The novel 3D contextual transformer block is integrated into both the encoder and decoder path of the network to effectively capture contextual and long-range information. In the first training stage, the proposed network segments the overall airway with the overall airway mask. To improve the performance of the segmentation result, we generate the intrapulmonary airway branch label, and train the network to focus on producing small airway branches in the second training stage. Extensive experiments were performed on in-house and multiple public datasets. Quantitative and qualitative analyses demonstrate that our proposed method extracts significantly more branches and longer lengths of the airway tree while accomplishing state-of-the-art airway segmentation performance. The code is available at https://github.com/zhaozsq/airway_segmentation.

Advanced Diagnostic and Therapeutic Bronchoscopy: Technology and Reimbursement

Advanced interventional pulmonary procedures of the airways, pleural space, and mediastinum continue to evolve and be refined. Health care, finance, and clinical professionals are challenged by both the indications and related coding complexities. As the scope of interventional pulmonary procedures expands with advanced technique and medical innovation, program planning and ongoing collaboration among clinicians, finance executives, and reimbursement experts are key elements for success. We describe advanced bronchoscopic procedures, appropriate Current Procedural Terminology coding, valuations, and necessary modifiers to fill the knowledge gap between basic and advanced procedural coding. Our approach is to balance the description of procedures with the associated coding in a way that is of use to the proceduralist, the coding specialist, and other nonclinical professionals.

Transbronchial biopsy of peripheral lung lesions using fluoroscopic guidance combined with an enhanced ray-summation display

The aim of this study was to investigate the effectiveness of guidance assistance during transbronchial biopsy (TBB) to achieve an appropriate pathway to small and peripheral pulmonary lesions (PPLs) using a combination of fluoroscopy and specialized ray-summation (Ray-sum_TBB) images, which were processed from preprocedural lung computed tomography (CT) images. To improve the visibility of the correct pathway to the PPLs, three-dimensional spatial resolution enhancement and CT number conversion processes were applied to the original CT images. The Ray-sum_TBB images reconstructed from the processed CT images were used as additional guides. We compared the rates of successful tumor localization and biopsy (arrival rate) between the trial (with Ray-sum_TBB) and control (without Ray-sum_TBB) groups. The fluoroscopy and examination times were also compared. The arrival rate of the trial group (73.1%) was significantly better than that of the control group (42.3%) (p = 0.048). The fluoroscopy and examination times did not differ significantly between the trial and control groups. No complications were identified in the trial group. Our results suggest that Ray-sum_TBB improves the diagnostic accuracy of TBB.

[Diagnostic Utility of Electromagnetic Navigation Bronchoscopy Combined with Radial Probe Endobronchial Ultrasound in Peripheral Pulmonary Lesions]

背景与目的

随着高分辨计算机断层扫描（computed tomography, CT）的广泛应用和健康体检的普遍开展，大量周围型肺部病灶被发现，对临床诊断治疗提出了新的挑战。电磁导航支气管镜（electromagnetic navigation bronchoscope, ENB）和径向探头支气管内超声（radial probe bronchoscopy ultrasound, R-EBUS）是用于周围型肺部病灶诊断的新兴技术，本研究旨在探讨ENB联合R-EBUS对肺周围型病灶诊断中的应用价值。

方法

2016年9月-2017年11月苏州大学附属第一医院胸外科应用ENB技术对18例患者的30处肺部周围型病灶进行了检查，术前制定导航计划，术中导航成功到达预定位置后使用R-EBUS确认病灶，依次使用穿刺针、细胞刷、活检钳进行病灶组织活检。

结果

30处肺部周围型病灶，导航成功率为100%（30/30），阳性诊断率为90%（27/30）。手术时间为（95.61±28.74）min，每处病灶导航时间为（25.90±11.29）min，发生气胸1例，未见其他严重并发症。

结论

利用ENB联合R-EBUS技术诊断肺周围型病灶具有较高的导航成功率和诊断阳性率，安全有效，值得进行临床推广。

Management of the Solitary Pulmonary Nodule

Context.—

Optimal management of the patient with a solitary pulmonary nodule entails early diagnosis and appropriate treatment for patients with malignant tumors, and minimization of unnecessary interventions and procedures for those with ultimately benign nodules. With the growing number of high-resolution imaging modalities and studies available, incidentally found solitary pulmonary nodules are an increasingly common occurrence.

Objective.—

To provide guidance to clinicians involved in the management of patients with a solitary pulmonary nodule, including aspects of risk stratification, workup, diagnosis, and management.

Data Sources.—

Data for this review were gathered from an extensive literature review on the topic.

Conclusions.—

Logical evaluation and management pathways for a patient with a solitary pulmonary nodule will allow providers to diagnose and treat individuals with early stage lung cancer and minimize morbidity from invasive procedures for patients with benign lesions.

Hands-Free System for Bronchoscopy Planning and Guidance

Bronchoscopy is a commonly used minimally invasive procedure for lung-cancer staging. In standard practice, however, physicians differ greatly in their levels of performance. To address this concern, image-guided intervention (IGI) systems have been devised to improve procedure success. Current IGI bronchoscopy systems based on virtual bronchoscopic navigation (VBN), however, require involvement from the attending technician. This lessens physician control and hinders the overall acceptance of such systems. We propose a hands-free VBN system for planning and guiding bronchoscopy. The system introduces two major contributions. First, it incorporates a new procedure-planning method that automatically computes airway navigation plans conforming to the physician's bronchoscopy training and manual dexterity. Second, it incorporates a guidance strategy for bronchoscope navigation that enables user-friendly system control via a foot switch, coupled with a novel position-verification mechanism. Phantom studies verified that the system enables smooth operation under physician control, while also enabling faster navigation than an existing technician-assisted VBN system. In a clinical human study, we noted a 97% bronchoscopy navigation success rate, in line with existing VBN systems, and a mean guidance time per diagnostic site = 52 s. This represents a guidance time often nearly 3 min faster per diagnostic site than guidance times reported for other technician-assisted VBN systems. Finally, an ergonomic study further asserts the system's acceptability to the physician and long-term potential.

Characteristics and management strategies for the incidental pulmonary nodule

SUMMARY: 

Pulmonary nodules are frequent, unanticipated findings on imaging studies obtained for other purposes across all areas of medical practice. As nodule detection raises concern for malignancy, evaluation and follow-up of an incidental nodule is imperative. Clinicians are charged with counseling patients and directing further evaluation amid uncertainty and anxiety. The goals of follow-up and management are to identify malignant lesions at an early stage, while avoiding unnecessary procedures and potential harm to patients with benign nodules. In this review, we aim to outline the clinical and radiographic characteristics that can aid in likelihood stratification, to identify gaps in our current knowledge, and to present a logical approach to nodule management, based on the available evidence.

Radiographic evaluation of the patient with lung cancer: surgical implications of imaging

Lung cancer is the leading cause of cancer deaths in the United States. Despite many advances in treatment, surgery remains the preferred treatment modality for patients presenting with early stage disease. Imaging is critical in the preoperative evaluation of these patients being considered for a curative resection. Advanced imaging techniques provide valuable information, including primary diagnostics, staging, and intraoperative localization for suspected lung cancer. Knowledge of surgical implications of imaging findings can aid both radiologists and surgeons in delivering safe and effective care.

The business of interventional pulmonology

Interventional pulmonologists are regularly asked to perform more complicated and advanced procedures, but reimbursement for the time, effort and skill involved in these procedures has not kept up with other procedural specialties. Further changes in funding and reimbursement are likely under the Affordable Care Act. Understanding and effectively using the current system of funding for interventional pulmonology practices are imperative as we adapt to changing medical needs, legislative mandates, and reimbursement policy. This article reviews the current landscape of insurance and reimbursement in health care and anticipates some changes that might be expected from implementation of the Affordable Care Act.

Radial probe endobronchial ultrasound: factors influencing visualization yield of peripheral pulmonary lesions

BACKGROUND AND OBJECTIVE

Endobronchial ultrasound (EBUS) has improved the diagnostic yield of transbronchial biopsy of peripheral pulmonary lesions (PPL). While EBUS diagnostic yield has been the focus of the majority of publications, few have investigated factors associated with EBUS visualization yield. This study evaluated the factors predicting visibility of PPL using EBUS-guided bronchoscopy.

METHODS

We performed a retrospective analysis of 196 consecutive patients who underwent investigation with radial EBUS. Size and distance of the lesion from the hilum and pleura measured on computed tomography scans were correlated with malignancy status, gender and EBUS visualization yields. Final diagnosis was obtained from pathology.

RESULTS

A definitive diagnosis was established for 109 PPL (56%) using radial EBUS. Visualized lesion by EBUS probe had a higher diagnostic yield (65%) than EBUS-invisible lesions (20%; P = 0.0001). In multivariate analysis, lesion size, final diagnosis and distance from hilum to lesion were all found to significantly affect EBUS visualization yield. Lesions of ≥ 20 mm had a significantly greater visualization yield (85%) than lesions of <20 mm (63%; P = 0.0022). Malignant lesions had a higher visualization rate (85%) than benign lesions (66%; P value = 0.0025). Distance of hilum ≤ 50 mm to PPL was found to have a significantly higher visualization yield (91%) than lesions located >50 mm from the hilum. (66%; P = 0.0001).

CONCLUSIONS

Lesion size, malignancy status and distance from hilum to lesion are significant predictors of EBUS visualization yield. Clinicians should review these factors in patients to guide choice of optimal investigation and diagnosis of PPL.

The changing face of outpatient bronchoscopy in 2013

In 2013, the outpatient hospital payment from Medicare for a transbronchial needle aspiration more than doubled. At the same time, the recently updated American College of Chest Physicians guidelines for the diagnosis and management of lung cancer now recommend needle techniques, such as transbronchial needle aspiration, over surgical staging. The convergence of these two events will accelerate the existing forces of technology and economics that have been influencing both the practices of outpatient bronchoscopy and mediastinoscopy and the management of patients with lung cancer over the past 20 years.

Navigational bronchoscopy with biopsy versus computed tomography-guided biopsy for the diagnosis of a solitary pulmonary nodule: a cost-consequences analysis

BACKGROUND

Solitary pulmonary nodules (SPNs) are frequent and can be malignant. Both computed tomography-guided biopsy and electromagnetic navigational bronchoscopy (ENB) with biopsy can be used to diagnose a SPN. A nondiagnostic computed tomography (CT)-guided or ENB biopsy is often followed by video-assisted thoracoscopic surgery (VATS) biopsy. The relative costs and consequences of these strategies are not known.

METHODS

A decision tree was created with values from the literature to evaluate the clinical consequences and societal costs of a CT-guided biopsy strategy versus an ENB biopsy strategy for the diagnosis of a SPN. The serial use of ENB after nondiagnostic CT-guided biopsy and CT-guided biopsy after nondiagnostic ENB biopsy were tested as alternate strategies.

RESULTS

In a hypothetical cohort of 100 patients, use of the ENB biopsy strategy on average results in 13.4 fewer pneumothoraces, 5.9 fewer chest tubes, 0.9 fewer significant hemorrhage episodes, and 0.6 fewer respiratory failure episodes compared with a CT-guided biopsy strategy. ENB biopsy increases average costs by $3719 per case and increases VATS rates by an absolute 20%. The sequential diagnostic strategy that combines CT-guided biopsy after nondiagnostic ENB biopsy and vice versa decreases the rate of VATS procedures to 3%. A sequential approach starting with ENB decreases average per case cost relative to CT-guided biopsy followed by VATS, if needed, by $507; and a sequential approach starting with CT-guided biopsy decreases the cost relative to CT-guided biopsy followed by VATS, if needed, by $979.

CONCLUSIONS

An ENB with biopsy strategy is associated with decreased pneumothorax rate but increased costs and increased use of VATS. Combining CT-guided biopsy and ENB with biopsy serially can decrease costs and complications.

Cost-effectiveness analysis of transbronchial needle aspiration of pulmonary lesions without endobronchial affectation

Transbronchial needle aspiration (TBNA) of pulmonary lesions without endobronchial affectation in combination with transbronchial biopsy (TBB) has been shown to increase diagnostic performance. The objective of this present study was to analyze whether the combination of TBNA with conventional TBB is a cost-effective approach.

METHODOLOGY

Ours is a prospective study that included patients with lung nodules or masses with no evidence of endobronchial lesions after flexible bronchoscopy in whom both TBNA and TBB were performed. We analyzed the additional diagnostic value, the impact of TBNA on the cost of the diagnosis and the minimum level of sensitivity required in order for TBNA combined with TBB to be considered a cost-effective diagnostic approach.

RESULTS

Thirty-six patients were included in the study, 25 of whom were males. TBB reached a histologic diagnosis in 39% of the cases, and its combination with TBNA diagnosed 47%. The mean diameter of the lesions was significantly greater in the positive TBNA cases compared with the negative cases (31 vs. 23mm; p=0,034). The cost analysis did not show the additional TBNA to be more cost-effective, despite demonstrating greater diagnostic sensitivity. The minimum sensitivity required for TBNA combined with TBB to be considered a cost-effective approach was 88%.

CONCLUSION

The contribution of TBNA to TBB in the diagnosis of lung nodules or masses without associated endobronchial lesions does not seem to justify the additional economic cost.

Pretreatment assessment for the optimal management of early-stage lung cancer

Optimal management of non-small cell lung cancer requires treatment approach to be tailored to both the particular disease stage and the overall health and functional status of the patient. Even though surgical resection by means of an anatomic lobectomy remains the treatment of choice with the goal of cure for early-stage lung cancer, it is an invasive procedure with associated morbidity and mortality. Although these risks continue to decrease in the modern era with improvements in surgical technique and perioperative management, the risks are elevated in patients with associated medical comorbidities. As a consequence, patients at potentially increased or high risk for surgical lobectomy need to be identified by a structured preoperative assessment. This has gained increasing importance, given the emergence of alternative treatment approaches such as minimally invasive surgery, less extensive pulmonary resection, and stereotactic body radiation therapy. We review the clinical approach to suspected early-stage lung cancer based on a tumor and patient-centered stratification of risk and benefit.

Development and organization of an interventional pulmonology department

Development and organization of an interventional pulmonology department requires careful consideration of many elements, including personnel, equipment, logistics, procedures performed, practice management, institutional vision and biases, practice setting, continued medical education, risk management, communication and fiscal responsibility. In this paper, a patient-centric approach is used to begin addressing these issues and present the strengths, weaknesses, advantages and disadvantages of an interventional pulmonology department.