Sending retirees to the frontlines?

Facing an unprecedented surge of patient volumes and acuity, institutions around the globe called for volunteer healthcare workers to aid in the effort against COVID-19. Specifically being sought out are retirees. But retired healthcare workers are taking on significant risk to themselves in answering these calls. Aside from the risks that come from being on the frontlines of the epidemic, they are also at risk due to their age and the comorbidities that often accompany age. If, for current or future COVID efforts, we as a society will be so bold as to exhort a vulnerable population to take on further risk, we must use much care and attention in how we involve them in this effort. Herein we describe the multifaceted nature of the risks that retired healthcare workers are taking by entering the COVID-19 workforce as well as suggest ways in which we might take advantage of their medical skills and altruism yet while optimizing caution and safety.

Artificial intelligence in pulmonary medicine: computer vision, predictive model and COVID-19.

Artificial intelligence (AI) is transforming healthcare delivery. The digital revolution in medicine and healthcare information is prompting a staggering growth of data intertwined with elements from many digital sources such as genomics, medical imaging and electronic health records. Such massive growth has sparked the development of an increasing number of AI-based applications that can be deployed in clinical practice. Pulmonary specialists who are familiar with the principles of AI and its applications will be empowered and prepared to seize future practice and research opportunities. The goal of this review is to provide pulmonary specialists and other readers with information pertinent to the use of AI in pulmonary medicine. First, we describe the concept of AI and some of the requisites of machine learning and deep learning. Next, we review some of the literature relevant to the use of computer vision in medical imaging, predictive modelling with machine learning, and the use of AI for battling the novel severe acute respiratory syndrome-coronavirus-2 pandemic. We close our review with a discussion of limitations and challenges pertaining to the further incorporation of AI into clinical pulmonary practice.

Training in interventional pulmonology: What we have learned and a way forward.

IP encompasses a complex list of procedures requiring knowledge, technical skills and competence. Modern, learner-centric educational philosophies and an explosion of multidimensional educational tools including manikins, simulators, online resources, social media and formal programs can foster learning in IP, promoting professionalism and a culture of lifelong learning. This paper provides background and guidance to a structured, multidimensional and learner-centric strategy for medical procedural education. Focusing on our experience in IP, we describe how competency-based measures, simulation technology and various teaching modalities contribute to a more uniform learning environment in which patients do not suffer the burdens of procedure-related training.

Assessment of central airway obstruction using impulse oscillometry before and after interventional bronchoscopy.

BACKGROUND: Spirometry is used to physiologically assess patients with central airway obstruction (CAO) before and after interventional bronchoscopy, but is not always feasible in these patients, does not localize the anatomic site of obstruction, and may not correlate with the patient's functional impairment. Impulse oscillometry may overcome these limitations. We assessed the correlations between impulse oscillometry measurements, symptoms, and type of airway narrowing, before and after interventional bronchoscopy, and whether impulse oscillometry parameters can discriminate between fixed and dynamic CAO. METHODS: Twenty consecutive patients with CAO underwent spirometry, impulse oscillometry, computed tomography, dyspnea assessment, and bronchoscopy, before and after interventional bronchoscopy. The collapsibility index (the percent difference in airway lumen diameter during expiration versus during inspiration) was calculated using morphometric bronchoscopic images during quiet breathing. Variable CAO was defined as a collapsibility index of > 50%. Fixed CAO was defined as a collapsibility index of < 50%. The degree of obstruction was analyzed with computed tomography measurements. RESULTS: After interventional bronchoscopy, all impulse oscillometry measurements significantly improved, especially resistance at 5 Hz, which decreased from 0.67 ± 0.29kPa/L/s to 0.38 ± 0.17kPa/L/s (P < .001), and reactance at 20 Hz, which increased from -0.09 ± 0.11 to 0.03 ± 0.08 (P < .001). Changes in dyspnea score correlated with resistance at 5 Hz, the difference between the resistance at 5 Hz and the resistance at 20 Hz, and the reactance at 5 Hz, but not with spirometry measurements. The type of obstruction also correlated with dyspnea score, and showed distinct impulse oscillometry measurements. CONCLUSIONS: Impulse oscillometry measurements correlate with symptom improvements after interventional bronchoscopy. Impulse oscillometry might be useful to discriminate variable from fixed central airway obstruction. (University Hospital Medical Information Network, http://www.umin.ac.jp/english, ID000005322).

Combined optical coherence tomography and endobronchial ultrasonography for laser-assisted treatment of postintubation laryngotracheal stenosis.

OBJECTIVES: We describe the use of combined optical coherence tomography (OCT) and endobronchial ultrasonography (EBUS) to identify the residual hypertrophic tissues and persistent inflammation that are known contributors to stricture recurrence after laser-assisted mechanical dilation (LAMD) oflaryngotracheal stenosis (LTS). METHODS: Commercially available high-frequency EBUS (approximately 100-microm resolution) and time-domain OCT (approximately 10- to 20-microm resolution) systems were used to visualize airway wall microstructures in the area of hypertrophic tissue formation before and after LAMD in 2 patients with complex circumferential postintubation LTS. RESULTS: Before LAMD, EBUS revealed a homogeneous layer consistent with hypertrophic tissue overlying a hyperechogenic layer corresponding to tracheal cartilage. OCT revealed a homogeneous light backscattering layer and an absence of layered microstructures within hypertrophic tissue. Immediately after LAMD, OCT of the laser-charred tissue showed high backscattering and shadowing artifacts; OCT of noncharred tissue showed bright light backscattering regions that suggested acute inflammation. EBUS revealed thinner but persistent hypertrophic tissue overlying the cartilage. Stenosis recurred in both patients. CONCLUSIONS: Intraoperative use of EBUS and OCT could potentially identify residual hypertrophic tissues and persistent inflammation during or after LAMD. It might help physicians predict stricture recurrence, prompting alternative therapeutic strategies and avoidance of repeated endoscopic treatments for LTS.

Follow-up and surveillance of the patient with lung cancer after curative-intent therapy: Diagnosis and management of lung cancer, 3rd ed: American College of Chest Physicians evidence-based clinical practice guidelines.

BACKGROUND: These guidelines are an update of the evidence-based recommendations for follow-up and surveillance of patients after curative-intent therapy for lung cancer. Particular updates pertain to whether imaging studies, health-related quality-of-life (HRQOL) measures, tumor markers, and bronchoscopy improve outcomes after curative-intent therapy. METHODS: Meta-analysis of Observational Studies in Epidemiology guidelines were followed for this systematic review, including published studies on posttreatment outcomes in patients who received curative-intent therapy since the previous American College of Chest Physicians subject review. Four population, intervention, comparison, and outcome questions were formulated to guide the review. The MEDLINE and CINAHL databases were searched from June 1, 2005, to July 8, 2011, to ensure overlap with the search strategies used previously. RESULTS: A total of 3,412 citations from MEDLINE and 431 from CINAHL were identified. Only 303 were relevant. Seventy-six of the 303 articles were deemed eligible on the basis of predefined inclusion criteria after full-text review, but only 34 provided data pertaining directly to the subject of the questions formulated to guide this review. In patients undergoing curative-intent surgical resection of non-small cell lung cancer, chest CT imaging performed at designated time intervals after resection is suggested for detecting recurrence. It is recommended that treating physicians who are able to incorporate the patient's clinical findings into decision-making processes be included in follow-up and surveillance strategies. The use of validated HRQOL instruments at baseline and during follow-up is recommended. Biomarker testing during surveillance outside clinical trials is not suggested. Surveillance bronchoscopy is suggested for patients with early central airway squamous cell carcinoma treated by curative-intent photodynamic therapy and for patients with intraluminal bronchial carcinoid tumor who have undergone curative-intent bronchoscopic treatment with Nd:YAG laser or electrocautery. CONCLUSIONS: There is a paucity of well-designed prospective studies specifically targeting follow-up and surveillance modalities aimed at improving survival or QOL after curative-intent therapy. Additional research is warranted to clarify which curative-intent treatment modalities affect HRQOL the most and to identify patients who are at the most risk for recurrence or impaired QOL after treatment. Further evidence is needed to determine how the frequency and duration of surveillance programs that include imaging studies, QOL measurements, tumor markers, or bronchoscopy affect patient morbidity, survival, HRQOL, and health-care costs.

Pleuroscopy in 2013.

Pleuroscopy provides a window to the pleural space while enabling biopsy of the parietal pleura under direct visual guidance for effusions of unknown etiology, guided chest tube placement, and pleurodesis for recurrent pleural effusions or pneumothoraces in selected patients. The procedure enjoyed resurgence when thoracic surgeons introduced the technique for video-assisted thoracic surgery (VATS). VATS is performed under general anesthesia with single-lung ventilation; pleuroscopy is performed in an endoscopy suite using nondisposable rigid or flex-rigid instruments, local anesthesia, and conscious sedation. Pleuroscopy is less invasive; in this review, we discuss the indications, complications, techniques, and recent advances in the procedure.

Endobronchial ultrasound skills and tasks assessment tool: assessing the validity evidence for a test of endobronchial ultrasound-guided transbronchial needle aspiration operator skill.

RATIONALE: Endobronchial ultrasound-guided transbronchial needle aspiration (EBUS-TBNA) is becoming standard of care for the sampling of mediastinal adenopathy. The need for a safe, effective, accurate procedure makes EBUS-TBNA ideal for mastery training and testing. OBJECTIVES: The Endobronchial Ultrasound Skills and Tasks Assessment Tool (EBUS-STAT) was created as an objective competency-oriented assessment tool of EBUS-TBNA skills and knowledge. This study demonstrates the reliability and validity evidence of this tool. METHODS: The EBUS-STAT objectively scores the EBUS-TBNA operator's skills, including atraumatic airway introduction and navigation, ultrasound image acquisition and optimization, identification of mediastinal nodal and vascular structures, EBUS-TBNA sampling, and recognition of EBUS/computed tomography images of mediastinal structures. It can be administered at the bedside or using combination of low- and high-fidelity simulation platforms. Two independent testers administered the EBUS-STAT to 24 operators at three levels of EBUS-TBNA experience (8 beginners, 8 intermediates, and 8 experienced) at three institutions; operators were also asked to self-assess their skills. Scores were analyzed for intertester reliability, correlation with prior EBUS-TBNA experience, and association with self-assessments. MEASUREMENTS AND MAIN RESULTS: Intertester reliability between testers was very high (r = 0.9991, P < 0.00005). Mean EBUS-STAT scores for beginner, intermediate, and experienced groups, respectively, were 31.1, 74.9, and 93.6 out of 100 (F(2,21) = 118.6, P < 0.0001). Groups were nonoverlapping: post hoc tests showed each group differed significantly from the others (P < 0.001). Self-assessments corresponded closely to actual EBUS-STAT scores (r(2) = 0.81, P < 0.001). CONCLUSIONS: The EBUS-STAT can be used to reliably and objectively score and classify EBUS-TBNA operators from novice to expert. Its use to assess and document the acquisition of knowledge and skill is a step toward the goal of mastery training in EBUS-TBNA.

Novel multimodality imaging and physiologic assessments clarify choke-point physiology and airway wall structure in expiratory central airway collapse.

Choke points and airway wall structure in expiratory central airway collapse are poorly defined. Computed tomography, white light bronchoscopy, endobronchial ultrasound, vibration response imaging, spirometry, impulse oscillometry, negative expiratory pressure, and intraluminal catheter airway pressure measurements were used in a patient with cough, dyspnea, and recurrent pulmonary infections. Computed tomography and white light bronchoscopy identified dynamic collapse of the trachea and mainstem bronchi, consistent with severe crescent tracheobronchomalacia. Spirometry showed severe obstruction. Endobronchial ultrasound revealed collapse of the airway cartilage, and vibration response imaging revealed fluttering at both lung zones. Impulse oscillometry and negative expiratory pressure suggested tidal expiratory flow limitation in the intrathoracic airways. Intraluminal catheter airway pressure measurements identified the choke point in the lower trachea. After Y-stent insertion, the choke point migrated distally. Imaging studies revealed improved airway dynamics, airway patency, and ventilatory function. Novel imaging and physiologic assessments could be used to localize choke points and airway wall structure in tracheobronchomalacia.

Scientific evidence and principles for the use of endobronchial ultrasound and transbronchial needle aspiration.

Endobronchial ultrasound (EBUS), using the radial EBUS probe and convex-probe EBUS-guided transbronchial needle aspiration, are increasingly advocated for a wide array of minimally invasive thoracic procedures. The effectiveness of EBUS-guided procedures has been demonstrated to a degree that, in many institutions, EBUS is becoming standard of practice for the diagnosis, staging and restaging of mediastinal lymphadenopathy in lung cancer, the diagnosis of sarcoidosis, and for bronchoscopic biopsy of peripheral lung lesions. Its role in other bronchoscopic procedures requires further study despite an already strong body of literature: diagnosis of lymphoma and benign infectious disease, diagnosis of early lung cancer and airway wall disorders, imaging of thoracic vascular disease such as pulmonary embolism, and therapeutic procedures such as placement of fiducial markers. In this article, we illustrate some of the principles of EBUS, describe major technical aspects pertaining to the procedure itself and provide a narrative review of original research addressing proposed roles of EBUS in a variety of indications. In closing, we describe future perspectives including new educational processes and philosophies that could favorably impact the rapid and safe dissemination of this evolving technology into clinical practice.

Flexible bronchoscopy assisted by noninvasive positive pressure ventilation.

Noninvasive positive pressure ventilation is an alternative to intubation in critically ill patients with respiratory insufficiency or poor gas exchange who may require flexible bronchoscopy for diagnostic or therapeutic purposes. This ventilatory technique might help decrease the risk of bronchoscopy-related complications in patients with refractory hypoxemia, postoperative respiratory distress, severe emphysema, obstructive sleep apnea, and obesity hypoventilation syndrome and allows bronchoscopic assessment of patients with severe dyspnea from expiratory central airway collapse. In this review, the physiological rationale, indications, contraindications, techniques, and monitoring requirements for flexible bronchoscopy assisted by noninvasive positive pressure ventilation are described, with an emphasis on the role of critical care nurses in this procedure.

Measuring learning gain during a one-day introductory bronchoscopy course.

BACKGROUND: Rigorous assessment of medical knowledge and technical skill inspires learning, reinforces confidence, and reassures the public. Identifying curricular effectiveness using objective measures of learning is therefore crucial for competency-oriented program development in a learner-centric educational environment. The aim of this study was to determine whether various measures of learning, including class-average normalized gain, can be used to assess the effectiveness of a one-day introductory bronchoscopy course curriculum. METHODS: We conducted a quasi-experimental one-group pre-test/post-test study at the University of California, Irvine. The group comprised 24 first-year pulmonary and critical care trainees from eight training institutions in southern California. Class-average normalized gain, single-student normalized gain, absolute gain, and relative gain were used as objective measures of cognitive knowledge and bronchoscopy technical skill learning. A class-average normalized gain of 30% was used to determine curricular effectiveness. Perceived educational value using Likert-scale surveys and post-course questionnaires was determined during and 3 months after course participation. RESULTS: Mean test scores of cognitive knowledge improved significantly from 48 to 66% (p = 0.043). Absolute gain for the class was 18%, relative gain was 37%, class average normalized gain was 34%, and the average of the single-student normalized gains g(ave) was 29%. Mean test scores of technical skill improved significantly from 43 to 77% (p = 0.017). Absolute gain was 34%, relative gain was 78%, class average normalized gain was 60%, and the average of the single-student normalized gains g(ave) was 59%. Statistically significant improvements in absolute gain were noted in all five elements of technical skill (p < 0.05). Likert-scale surveys, questionnaires, and surveys demonstrated strong perceived educational value. CONCLUSION: The effectiveness of a one-day introductory bronchoscopy curriculum was demonstrated using a pre-test/post-test model with calculation of normalized gain and related metrics.

Use of competency-based metrics to determine effectiveness of a postgraduate thoracoscopy course.

BACKGROUND: Despite the paradigm shift from process to competency-based education, no study has explored how competency-based metrics might be used to assess short-term effectiveness of thoracoscopy-related postgraduate medical education. OBJECTIVES: To assess the use of a single-group, pre-/post-test model comprised of multiple-choice questions (MCQ) and psychomotor skill measures to ascertain the effectiveness of a postgraduate thoracoscopy program. METHODS: A 37-item MCQ test of cognitive knowledge was administered to 17 chest physicians before and after a 2-day continued medical education-approved program. Pre- and post-course technical skills were assessed using rigid videothoracoscopy simulation stations. Competency-based metrics (mean relative gain, mean absolute gain, and class-average normalized gain ) were calculated. A >30% was used to determine curricular effectiveness. RESULTS: Mean cognitive knowledge score improved significantly from 20.9 to 28.7 (7.8 ± 1.3 points, p < 0.001), representing a relative gain of 37% and an absolute gain of 21%. Mean technical skill score improved significantly from 5.20 to 7.82 (2.62 ± 0.33 points, p < 0.001), representing a relative gain of 50% and an absolute gain of 33%. Non-parametric testing confirmed t test results (p < 0.001). Class-average normalized gains were 48 and 92%, respectively. CONCLUSION: Competency-based metrics, including class-average normalized gain, can be used to assess course effectiveness and to determine if a program meets predesignated objectives of knowledge acquisition and psychomotor technical skill.

Multimodal imaging guidance for laser ablation in tracheal stenosis.

OBJECTIVE/HYPOTHESIS: Laser-induced damage of tracheal wall microstructures might contribute to recurrence after bronchoscopic treatment of tracheal strictures. The purpose of this study was to demonstrate how multimodal imaging using white light bronchoscopy (WLB), endobronchial ultrasound (EBUS), and optical coherence tomography (OCT) might identify in vivo airway wall changes before and resulting from Nd:YAG laser ablation and dilation of tracheal stenosis. STUDY DESIGN: Case study. METHODS: Commercially available WLB, high frequency EBUS using a 20-MHz radial probe and time-domain, frontal imaging OCT systems were used to characterize the extent, morphology, and airway wall microstructures at the area of hypertrophic fibrotic tissue formation before, during and after treatment of postintubation tracheal stenosis. RESULTS: WLB revealed the location of a complex, extensive, severe stricture. EBUS showed a homogeneous layer overlying a hyperechogenic layer corresponding to disrupted cartilage. OCT showed a homogeneous light backscattering layer and absence of layered microstructures, confirming absence in close proximity of normal airway wall. After laser ablation, OCT of charred tissue showed high backscattering and shadowing artifacts. OCT of noncharred tissue showed a thinner, homogeneous, light backscattering layer. EBUS showed thinner but persistent hypertrophic tissue suggesting incomplete treatment. WLB revealed improved airway patency postprocedure and recurrence 3 weeks later. CONCLUSIONS: EBUS identified cartilage disruption and residual hypertrophic tissue, the evidence of which might contribute to recurrence. OCT revealed homogeneous light backscaterring representing persistent noncharred hypertrophic tissues but it did not visualize cartilage disruption. Future studies are warranted to confirm whether these technologies can help guide bronchoscopic treatments.

Bronchoscopy in lung cancer: appraisal of current technology and for the future.

Bronchoscopy in the new millennium spells an exciting time for the pulmonologist, which likens to Alice peering through the looking glass into a wonderland of miniaturized probes, optics, and technology that are advancing at a maddening pace. Although scientists continue to push the envelope using nanotechnology that may facilitate further miniaturization of probes to allow imaging at the cellular or molecular level, it is opportune to evaluate the strengths and weaknesses of available technologies and bronchoscopic techniques for the diagnosis and staging of lung cancer, in its early detection and palliation. We appraise current technologies and what they hold for the future.

Comparative effectiveness of low- and high-fidelity bronchoscopy simulation for training in conventional transbronchial needle aspiration and user preferences.

BACKGROUND: Conventional transbronchial needle aspiration (TBNA) can be learned using high-fidelity virtual-reality platforms and low-fidelity models comprised of molded silicone or excised animal airways. OBJECTIVES: The purpose of this study was to determine perceptions and preferences of learners and instructors regarding the comparative effectiveness of low-fidelity and high-fidelity bronchoscopy simulation for training in TBNA. METHODS: During the 2008 annual CHEST conference, a prospective randomized crossover design was used to train study participants in three methods of conventional TBNA using low- and high-fidelity models. Likert style questions were administered to learners and instructors in order to elicit preferences and opinions regarding educational effectiveness of the models. Results were tabulated and depicted in graphic format, with medians calculated. RESULTS: Learners felt that the models were equally enjoyable (13-13) and enthusiasm generating (low 17-high 15). There was preference for low-fidelity in terms of realism (23-17), ease of learning (20-6), and learning all three TBNA methods (31-7 for hub-against-wall, 31-6 for jabbing, 29-6 for piggyback). Low-fidelity was preferred as an ideal model overall (19-11). Instructors thought that low-fidelity was more useful in teaching TBNA (9-0 for all three methods). Instructors perceived the low-fidelity model overall as an ideal tool for learning TBNA (8-0) and a more effective teaching instrument (8-0). CONCLUSION: Based on learner and instructor perceptions, a low-fidelity model is superior to a high-fidelity platform for training in three methods of conventional TBNA.

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.

Bronchoscopy during noninvasive ventilation: indications and technique.

Diagnostic or therapeutic flexible bronchoscopy is often necessary in severely ill patients. These patients often have comorbidities that increase the risk of bronchoscopy-related complications. Noninvasive ventilation might decrease the risk of these complications in patients with severe refractory hypoxemia, postoperative respiratory distress, or severe emphysema, and in pediatric patients. Noninvasive ventilation may prevent hypoventilation in patients with obstructive sleep apnea and obesity hypoventilation syndrome who require bronchoscopy, and may assist in the bronchoscopic evaluation of patients with expiratory central-airway collapse. We describe the indications, contraindications, and technique of flexible bronchoscopy during noninvasive ventilation.

Interventional bronchoscopy from bench to bedside: new techniques for early lung cancer detection.

Lung cancer is a leading cause of cancer-related death in the world, and it accounts for more deaths than breast, colon, and prostate cancer combined in the United States. From a historical perspective, the premise behind early lung cancer detection strategy is that early detection of lung cancer is justified if early treatment improves the outcome. New optical technologies such as those presented in this article allow dynamic study of these processes at the cellular level, and it is hoped that opportunities for targeted therapy will be provided in the future. Investigators are on the verge of discovering a multidimensional bronchoscopic platform that can be used to narrow in on airway structures, explore vascular flow and angiogenesis, and discover new features of bronchogenic carcinogenesis.