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Interventional Chest/Diagnostic Procedures
Emergence of robotic-assisted bronchoscopy for the diagnosis of peripheral lung lesions
The diagnostic chest medicine community saw exciting advances in technology for diagnosis of peripheral lung lesions (PLL) with the recent FDA approval of two robotic-assisted bronchoscopy systems (RBS): the Monarch Platform from Auris Health (2018) and the Ion system from Intuitive Surgical (2019). Small pilot studies of 15 (Monarch) and 29 (Ion) subjects, respectively, demonstrated safety and feasibility of biopsy and diagnosis of PLL using RBS (Rojas-Solano, et al. J Bronchol Intervent Pulmonol. 2018;25:168; Fielding et al. Respiration. 2019;98[2]:142). While these studies were not powered to evaluate diagnostic yield, they suggested the potential for improved yields over current technologies.
Current bronchoscopic modalities for diagnosis of PLL include electromagnetic navigation bronchoscopy, radial endobronchial ultrasound, and fluoroscopic guidance, all of which have favorable safety profiles but have been plagued by a wide range in diagnostic yields (38% to 88%) (Eberhardt R, et al. Am J Respir Crit Med. 2007;176[1]:36; Ost DE, et al. Am J Respir Crit Care Med. 2016;193[1]:68). Despite the discordant history of efficacy of PLL sampling modalities, they have gained widespread adoption due to the increasing need to access the periphery. That said, many operators have been left wanting, making new technologies attractive options despite a lack of data. The emergence of RBS may present an opportunity to change the way we approach bronchoscopic procedures, making what was a manual procedure into one the is machine-assisted and, perhaps, improving our accuracy of repetition. The robotic age of lung medicine is an exciting proposition, however, it is paramount that we pursue a robust evidence-based strategy with multicentered clinical trials and move beyond the limitations of registry data in order to carefully embrace these new technologies.
Christina MacRosty, DO
Incoming Fellow-in-Training Member
Jason Akulian, MD, MPH, FCCP
Steering Committee Member
Pediatric Chest Medicine
PARDS: A new definition
Pediatric Acute Respiratory Distress Syndrome (PARDS) is a multifactorial clinical syndrome associated with high morbidity and mortality in children. It is caused by disruption of the alveolar epithelial–endothelial permeability barrier leading to accumulation of protein-rich fluid in the alveoli and surfactant degradation. These changes result in a restrictive lung disease characterized by hypoxemia, radiographic opacities, decreased FRC, and lung compliance and increased physiologic dead space. Resolution usually occurs after several weeks, with potential development of fibrosis. The most common cause of ARDS in children is viral respiratory infection, although associated with many underlying conditions, including pneumonia, sepsis, trauma, burns, pancreatitis, inhalation, transfusion, and cardiopulmonary bypass.
In 2015, an international panel of experts convened the Pediatric Acute Lung Injury Consensus Conference (PALICC) to establish new definitions and guidelines for PARDS. The 2015 PALICC definition broadens to include any new parenchymal infiltrate(s) and allows use of pulse oximetry to avoid underestimating ARDS prevalence in children. It also allows utilization of the oxygenation index (OI) and oxygenation saturation index (OSI) rather than the PaO2/Fio2 (P/F) ratio to assess hypoxemia (PARDS: consensus. Pediatr Crit Care Med. 2015;16[5]:428; Orloff et al. Pediatr Allergy Immunol Pulmonol. 2019;32[2]:35).
In a follow-up international, prospective, cross-sectional, observational study across 27 countries, the PALICC definition identified more children as having PARDS than the Berlin definition. The PALICC PARDS severity groupings improved mortality risk stratification. The PALICC PARDS framework appears to be a better tool for future epidemiologic and therapeutic research among children with PARDS (Khemani et al. Lancet Respir Med. 2019;7[2]:115).
Harish Rao, MD
Steering Committee Member
SEVEN people have died! Need action now
Pediatricians nationwide have raised the alarm as the numbers of middle- and high-school students who are vaping continues to skyrocket. The National Youth Tobacco survey (2018) showed a 78 % increase in e-cigarette use in high school students with a 48 % increase in middle school students between 2017-2018. Now considered a public health crisis with hundreds of cases of severe respiratory illnesses and seven deaths linked to vaping, physicians, legislators, educators, and respiratory health organizations are joining forces to curb its use in adolescents.
The American College of Chest Physicians has long supported regulation of e-cigarettes, joining the Forum of International Respiratory Societies in a position statement recommending bans on flavored e-cigarettes and the restricting use in areas where children are present.
The Administration announced this week its intention to “ clear the market “ of all flavored e-cigarettes. Sweet and fruit flavorings are known to entice adolescents to try e-cigarettes while the variety and ability to choose their own combinations of flavors continues to bring teens back again and again. We know that the brain continues to develop into our mid-twenties, causing teens to be more vulnerable to the addictive properties of nicotine.
Increasing numbers of exposures in adolescents and the severity of vaping-related illnesses have prompted states to take a proactive approach to keep e-cigarettes out of the hands of children. Michigan was the first state to ban the sale of flavored e-cigarettes online and in brick and mortar stores with compliance to take effect within the next 30 days. Other states are expected to follow suit.
Legislation is an important step in our efforts to curb vaping and protect our children.
Mary Cataletto MD, FAAP, FCCP
NetWork Chair
Pulmonary Physiology, Function and Rehabilitation
Pulmonary rehab and COPD
The introduction of pulmonary rehabilitation (PR) into the care of a patient with COPD can be a life-changing intervention. It has not only been shown to significantly improve symptoms, daily function, and quality of life – but also reduce the risk of acute exacerbation (Spruit et al. Am J Respir Crit Care Med. 2013;188[8]:e13). However, the referral rate for PR is extremely low, and many patients with COPD, despite having high symptom burdens, may be unaware of its existence. Unfortunately, this problem is worsened by PR program availability and proximity, with recent estimates suggesting that there are only 831 PR centers in the US for 24 million patients with COPD (Bhatt. Ann Am Thorac Soc. 2019;16[1]:55). As a result, there is an immediate need to explore alternative strategies that enable patients to realize the benefits of PR outside of a facility-based program (Rochester, et al. Am J Respir Crit Care Med. 2015;192[11]:1373).
Recently, there have been many proposals for adapting PR programs to accommodate the maximum number of participants; these have included home-, telehealth- or internet-based programs, and low-impact exercise (eg, yoga or tai-chi) regimens. While these interventions may benefit our patients with COPD, current data do not support that they are a replacement for or replicate the robust outcomes of a formal PR program. It is important that in the process of expanding the availability of “pulmonary rehab,” we do not dilute the process as to limit its returns. Significant attention is being paid to developing novel program designs that utilize technology and nonfacility-based programs – and in the end, there will be a balance struck between beneficial outcomes, program personalization, and proper patient selection for a given regimen.
Eric Gartman, MD, FCCP
Steering Committee Member
Thoracic Oncology
A new era in lung cancer diagnostics: Robotic-assisted bronchoscopy
Lung cancer screening leads to increased detection of early stage lung cancer (LC). The majority of nodules detected are peripherally located.
Image-guided bronchoscopic modalities, including radial probe endobronchial ultrasound (r-EBUS) and electromagnetic navigation bronchoscopy (ENB), allow diagnosis of peripheral nodules with a low rate of complications. Although a meta-analysis of image-guided bronchoscopic procedures reported a diagnostic yield of 70% (Wang Memoli JS, et al. Chest. 2012;142[2]:385), the diagnostic yield remains inferior to CT-guided biopsy. Robotic-assisted bronchoscopy (RAB) with four-way steering, 180 degrees of deflection in any direction and better access to peripheral airways may improve the diagnostic yield. Two FDA-approved platforms are commercially available. The Monarch System, (Auris Health) has a 3.2-mm outer diameter and a 1.2-mm working channel. Results from an ongoing prospective, multicenter study in 24 patients revealed successful localization of targeted lesion in 92%, with no significant adverse events (Chen, et al. Am J Respir Crit Care Med. 2019;199:A7304/NCT03727425; Clinical Trials. 2019. https://clinicaltrials.gov/ct2/show/NCT03727425).
The Ion Endoluminal System (Intuitive Surgical) has a 3.5-mm outer diameter and a 2.0-mm working channel. Preliminary data revealed 96.6% of target lesions were successfully reached, and no adverse events (Fielding et al. Chest. 2017;152[4]:A858). A prospective, multicenter randomized trial is currently ongoing (Clinical Trials. 2019. https://clinicaltrials.gov/ct2/show/NCT03893539).
The aim of bronchoscopic procedures is to safely and effectively diagnose early stage LC. RAB shows a great deal of potential in the future of LC diagnostics.
Priya Patel MD
Fellow-in-Training Member
Adnan Majid, MD
NetWork Member
Interventional Chest/Diagnostic Procedures
Emergence of robotic-assisted bronchoscopy for the diagnosis of peripheral lung lesions
The diagnostic chest medicine community saw exciting advances in technology for diagnosis of peripheral lung lesions (PLL) with the recent FDA approval of two robotic-assisted bronchoscopy systems (RBS): the Monarch Platform from Auris Health (2018) and the Ion system from Intuitive Surgical (2019). Small pilot studies of 15 (Monarch) and 29 (Ion) subjects, respectively, demonstrated safety and feasibility of biopsy and diagnosis of PLL using RBS (Rojas-Solano, et al. J Bronchol Intervent Pulmonol. 2018;25:168; Fielding et al. Respiration. 2019;98[2]:142). While these studies were not powered to evaluate diagnostic yield, they suggested the potential for improved yields over current technologies.
Current bronchoscopic modalities for diagnosis of PLL include electromagnetic navigation bronchoscopy, radial endobronchial ultrasound, and fluoroscopic guidance, all of which have favorable safety profiles but have been plagued by a wide range in diagnostic yields (38% to 88%) (Eberhardt R, et al. Am J Respir Crit Med. 2007;176[1]:36; Ost DE, et al. Am J Respir Crit Care Med. 2016;193[1]:68). Despite the discordant history of efficacy of PLL sampling modalities, they have gained widespread adoption due to the increasing need to access the periphery. That said, many operators have been left wanting, making new technologies attractive options despite a lack of data. The emergence of RBS may present an opportunity to change the way we approach bronchoscopic procedures, making what was a manual procedure into one the is machine-assisted and, perhaps, improving our accuracy of repetition. The robotic age of lung medicine is an exciting proposition, however, it is paramount that we pursue a robust evidence-based strategy with multicentered clinical trials and move beyond the limitations of registry data in order to carefully embrace these new technologies.
Christina MacRosty, DO
Incoming Fellow-in-Training Member
Jason Akulian, MD, MPH, FCCP
Steering Committee Member
Pediatric Chest Medicine
PARDS: A new definition
Pediatric Acute Respiratory Distress Syndrome (PARDS) is a multifactorial clinical syndrome associated with high morbidity and mortality in children. It is caused by disruption of the alveolar epithelial–endothelial permeability barrier leading to accumulation of protein-rich fluid in the alveoli and surfactant degradation. These changes result in a restrictive lung disease characterized by hypoxemia, radiographic opacities, decreased FRC, and lung compliance and increased physiologic dead space. Resolution usually occurs after several weeks, with potential development of fibrosis. The most common cause of ARDS in children is viral respiratory infection, although associated with many underlying conditions, including pneumonia, sepsis, trauma, burns, pancreatitis, inhalation, transfusion, and cardiopulmonary bypass.
In 2015, an international panel of experts convened the Pediatric Acute Lung Injury Consensus Conference (PALICC) to establish new definitions and guidelines for PARDS. The 2015 PALICC definition broadens to include any new parenchymal infiltrate(s) and allows use of pulse oximetry to avoid underestimating ARDS prevalence in children. It also allows utilization of the oxygenation index (OI) and oxygenation saturation index (OSI) rather than the PaO2/Fio2 (P/F) ratio to assess hypoxemia (PARDS: consensus. Pediatr Crit Care Med. 2015;16[5]:428; Orloff et al. Pediatr Allergy Immunol Pulmonol. 2019;32[2]:35).
In a follow-up international, prospective, cross-sectional, observational study across 27 countries, the PALICC definition identified more children as having PARDS than the Berlin definition. The PALICC PARDS severity groupings improved mortality risk stratification. The PALICC PARDS framework appears to be a better tool for future epidemiologic and therapeutic research among children with PARDS (Khemani et al. Lancet Respir Med. 2019;7[2]:115).
Harish Rao, MD
Steering Committee Member
SEVEN people have died! Need action now
Pediatricians nationwide have raised the alarm as the numbers of middle- and high-school students who are vaping continues to skyrocket. The National Youth Tobacco survey (2018) showed a 78 % increase in e-cigarette use in high school students with a 48 % increase in middle school students between 2017-2018. Now considered a public health crisis with hundreds of cases of severe respiratory illnesses and seven deaths linked to vaping, physicians, legislators, educators, and respiratory health organizations are joining forces to curb its use in adolescents.
The American College of Chest Physicians has long supported regulation of e-cigarettes, joining the Forum of International Respiratory Societies in a position statement recommending bans on flavored e-cigarettes and the restricting use in areas where children are present.
The Administration announced this week its intention to “ clear the market “ of all flavored e-cigarettes. Sweet and fruit flavorings are known to entice adolescents to try e-cigarettes while the variety and ability to choose their own combinations of flavors continues to bring teens back again and again. We know that the brain continues to develop into our mid-twenties, causing teens to be more vulnerable to the addictive properties of nicotine.
Increasing numbers of exposures in adolescents and the severity of vaping-related illnesses have prompted states to take a proactive approach to keep e-cigarettes out of the hands of children. Michigan was the first state to ban the sale of flavored e-cigarettes online and in brick and mortar stores with compliance to take effect within the next 30 days. Other states are expected to follow suit.
Legislation is an important step in our efforts to curb vaping and protect our children.
Mary Cataletto MD, FAAP, FCCP
NetWork Chair
Pulmonary Physiology, Function and Rehabilitation
Pulmonary rehab and COPD
The introduction of pulmonary rehabilitation (PR) into the care of a patient with COPD can be a life-changing intervention. It has not only been shown to significantly improve symptoms, daily function, and quality of life – but also reduce the risk of acute exacerbation (Spruit et al. Am J Respir Crit Care Med. 2013;188[8]:e13). However, the referral rate for PR is extremely low, and many patients with COPD, despite having high symptom burdens, may be unaware of its existence. Unfortunately, this problem is worsened by PR program availability and proximity, with recent estimates suggesting that there are only 831 PR centers in the US for 24 million patients with COPD (Bhatt. Ann Am Thorac Soc. 2019;16[1]:55). As a result, there is an immediate need to explore alternative strategies that enable patients to realize the benefits of PR outside of a facility-based program (Rochester, et al. Am J Respir Crit Care Med. 2015;192[11]:1373).
Recently, there have been many proposals for adapting PR programs to accommodate the maximum number of participants; these have included home-, telehealth- or internet-based programs, and low-impact exercise (eg, yoga or tai-chi) regimens. While these interventions may benefit our patients with COPD, current data do not support that they are a replacement for or replicate the robust outcomes of a formal PR program. It is important that in the process of expanding the availability of “pulmonary rehab,” we do not dilute the process as to limit its returns. Significant attention is being paid to developing novel program designs that utilize technology and nonfacility-based programs – and in the end, there will be a balance struck between beneficial outcomes, program personalization, and proper patient selection for a given regimen.
Eric Gartman, MD, FCCP
Steering Committee Member
Thoracic Oncology
A new era in lung cancer diagnostics: Robotic-assisted bronchoscopy
Lung cancer screening leads to increased detection of early stage lung cancer (LC). The majority of nodules detected are peripherally located.
Image-guided bronchoscopic modalities, including radial probe endobronchial ultrasound (r-EBUS) and electromagnetic navigation bronchoscopy (ENB), allow diagnosis of peripheral nodules with a low rate of complications. Although a meta-analysis of image-guided bronchoscopic procedures reported a diagnostic yield of 70% (Wang Memoli JS, et al. Chest. 2012;142[2]:385), the diagnostic yield remains inferior to CT-guided biopsy. Robotic-assisted bronchoscopy (RAB) with four-way steering, 180 degrees of deflection in any direction and better access to peripheral airways may improve the diagnostic yield. Two FDA-approved platforms are commercially available. The Monarch System, (Auris Health) has a 3.2-mm outer diameter and a 1.2-mm working channel. Results from an ongoing prospective, multicenter study in 24 patients revealed successful localization of targeted lesion in 92%, with no significant adverse events (Chen, et al. Am J Respir Crit Care Med. 2019;199:A7304/NCT03727425; Clinical Trials. 2019. https://clinicaltrials.gov/ct2/show/NCT03727425).
The Ion Endoluminal System (Intuitive Surgical) has a 3.5-mm outer diameter and a 2.0-mm working channel. Preliminary data revealed 96.6% of target lesions were successfully reached, and no adverse events (Fielding et al. Chest. 2017;152[4]:A858). A prospective, multicenter randomized trial is currently ongoing (Clinical Trials. 2019. https://clinicaltrials.gov/ct2/show/NCT03893539).
The aim of bronchoscopic procedures is to safely and effectively diagnose early stage LC. RAB shows a great deal of potential in the future of LC diagnostics.
Priya Patel MD
Fellow-in-Training Member
Adnan Majid, MD
NetWork Member
Interventional Chest/Diagnostic Procedures
Emergence of robotic-assisted bronchoscopy for the diagnosis of peripheral lung lesions
The diagnostic chest medicine community saw exciting advances in technology for diagnosis of peripheral lung lesions (PLL) with the recent FDA approval of two robotic-assisted bronchoscopy systems (RBS): the Monarch Platform from Auris Health (2018) and the Ion system from Intuitive Surgical (2019). Small pilot studies of 15 (Monarch) and 29 (Ion) subjects, respectively, demonstrated safety and feasibility of biopsy and diagnosis of PLL using RBS (Rojas-Solano, et al. J Bronchol Intervent Pulmonol. 2018;25:168; Fielding et al. Respiration. 2019;98[2]:142). While these studies were not powered to evaluate diagnostic yield, they suggested the potential for improved yields over current technologies.
Current bronchoscopic modalities for diagnosis of PLL include electromagnetic navigation bronchoscopy, radial endobronchial ultrasound, and fluoroscopic guidance, all of which have favorable safety profiles but have been plagued by a wide range in diagnostic yields (38% to 88%) (Eberhardt R, et al. Am J Respir Crit Med. 2007;176[1]:36; Ost DE, et al. Am J Respir Crit Care Med. 2016;193[1]:68). Despite the discordant history of efficacy of PLL sampling modalities, they have gained widespread adoption due to the increasing need to access the periphery. That said, many operators have been left wanting, making new technologies attractive options despite a lack of data. The emergence of RBS may present an opportunity to change the way we approach bronchoscopic procedures, making what was a manual procedure into one the is machine-assisted and, perhaps, improving our accuracy of repetition. The robotic age of lung medicine is an exciting proposition, however, it is paramount that we pursue a robust evidence-based strategy with multicentered clinical trials and move beyond the limitations of registry data in order to carefully embrace these new technologies.
Christina MacRosty, DO
Incoming Fellow-in-Training Member
Jason Akulian, MD, MPH, FCCP
Steering Committee Member
Pediatric Chest Medicine
PARDS: A new definition
Pediatric Acute Respiratory Distress Syndrome (PARDS) is a multifactorial clinical syndrome associated with high morbidity and mortality in children. It is caused by disruption of the alveolar epithelial–endothelial permeability barrier leading to accumulation of protein-rich fluid in the alveoli and surfactant degradation. These changes result in a restrictive lung disease characterized by hypoxemia, radiographic opacities, decreased FRC, and lung compliance and increased physiologic dead space. Resolution usually occurs after several weeks, with potential development of fibrosis. The most common cause of ARDS in children is viral respiratory infection, although associated with many underlying conditions, including pneumonia, sepsis, trauma, burns, pancreatitis, inhalation, transfusion, and cardiopulmonary bypass.
In 2015, an international panel of experts convened the Pediatric Acute Lung Injury Consensus Conference (PALICC) to establish new definitions and guidelines for PARDS. The 2015 PALICC definition broadens to include any new parenchymal infiltrate(s) and allows use of pulse oximetry to avoid underestimating ARDS prevalence in children. It also allows utilization of the oxygenation index (OI) and oxygenation saturation index (OSI) rather than the PaO2/Fio2 (P/F) ratio to assess hypoxemia (PARDS: consensus. Pediatr Crit Care Med. 2015;16[5]:428; Orloff et al. Pediatr Allergy Immunol Pulmonol. 2019;32[2]:35).
In a follow-up international, prospective, cross-sectional, observational study across 27 countries, the PALICC definition identified more children as having PARDS than the Berlin definition. The PALICC PARDS severity groupings improved mortality risk stratification. The PALICC PARDS framework appears to be a better tool for future epidemiologic and therapeutic research among children with PARDS (Khemani et al. Lancet Respir Med. 2019;7[2]:115).
Harish Rao, MD
Steering Committee Member
SEVEN people have died! Need action now
Pediatricians nationwide have raised the alarm as the numbers of middle- and high-school students who are vaping continues to skyrocket. The National Youth Tobacco survey (2018) showed a 78 % increase in e-cigarette use in high school students with a 48 % increase in middle school students between 2017-2018. Now considered a public health crisis with hundreds of cases of severe respiratory illnesses and seven deaths linked to vaping, physicians, legislators, educators, and respiratory health organizations are joining forces to curb its use in adolescents.
The American College of Chest Physicians has long supported regulation of e-cigarettes, joining the Forum of International Respiratory Societies in a position statement recommending bans on flavored e-cigarettes and the restricting use in areas where children are present.
The Administration announced this week its intention to “ clear the market “ of all flavored e-cigarettes. Sweet and fruit flavorings are known to entice adolescents to try e-cigarettes while the variety and ability to choose their own combinations of flavors continues to bring teens back again and again. We know that the brain continues to develop into our mid-twenties, causing teens to be more vulnerable to the addictive properties of nicotine.
Increasing numbers of exposures in adolescents and the severity of vaping-related illnesses have prompted states to take a proactive approach to keep e-cigarettes out of the hands of children. Michigan was the first state to ban the sale of flavored e-cigarettes online and in brick and mortar stores with compliance to take effect within the next 30 days. Other states are expected to follow suit.
Legislation is an important step in our efforts to curb vaping and protect our children.
Mary Cataletto MD, FAAP, FCCP
NetWork Chair
Pulmonary Physiology, Function and Rehabilitation
Pulmonary rehab and COPD
The introduction of pulmonary rehabilitation (PR) into the care of a patient with COPD can be a life-changing intervention. It has not only been shown to significantly improve symptoms, daily function, and quality of life – but also reduce the risk of acute exacerbation (Spruit et al. Am J Respir Crit Care Med. 2013;188[8]:e13). However, the referral rate for PR is extremely low, and many patients with COPD, despite having high symptom burdens, may be unaware of its existence. Unfortunately, this problem is worsened by PR program availability and proximity, with recent estimates suggesting that there are only 831 PR centers in the US for 24 million patients with COPD (Bhatt. Ann Am Thorac Soc. 2019;16[1]:55). As a result, there is an immediate need to explore alternative strategies that enable patients to realize the benefits of PR outside of a facility-based program (Rochester, et al. Am J Respir Crit Care Med. 2015;192[11]:1373).
Recently, there have been many proposals for adapting PR programs to accommodate the maximum number of participants; these have included home-, telehealth- or internet-based programs, and low-impact exercise (eg, yoga or tai-chi) regimens. While these interventions may benefit our patients with COPD, current data do not support that they are a replacement for or replicate the robust outcomes of a formal PR program. It is important that in the process of expanding the availability of “pulmonary rehab,” we do not dilute the process as to limit its returns. Significant attention is being paid to developing novel program designs that utilize technology and nonfacility-based programs – and in the end, there will be a balance struck between beneficial outcomes, program personalization, and proper patient selection for a given regimen.
Eric Gartman, MD, FCCP
Steering Committee Member
Thoracic Oncology
A new era in lung cancer diagnostics: Robotic-assisted bronchoscopy
Lung cancer screening leads to increased detection of early stage lung cancer (LC). The majority of nodules detected are peripherally located.
Image-guided bronchoscopic modalities, including radial probe endobronchial ultrasound (r-EBUS) and electromagnetic navigation bronchoscopy (ENB), allow diagnosis of peripheral nodules with a low rate of complications. Although a meta-analysis of image-guided bronchoscopic procedures reported a diagnostic yield of 70% (Wang Memoli JS, et al. Chest. 2012;142[2]:385), the diagnostic yield remains inferior to CT-guided biopsy. Robotic-assisted bronchoscopy (RAB) with four-way steering, 180 degrees of deflection in any direction and better access to peripheral airways may improve the diagnostic yield. Two FDA-approved platforms are commercially available. The Monarch System, (Auris Health) has a 3.2-mm outer diameter and a 1.2-mm working channel. Results from an ongoing prospective, multicenter study in 24 patients revealed successful localization of targeted lesion in 92%, with no significant adverse events (Chen, et al. Am J Respir Crit Care Med. 2019;199:A7304/NCT03727425; Clinical Trials. 2019. https://clinicaltrials.gov/ct2/show/NCT03727425).
The Ion Endoluminal System (Intuitive Surgical) has a 3.5-mm outer diameter and a 2.0-mm working channel. Preliminary data revealed 96.6% of target lesions were successfully reached, and no adverse events (Fielding et al. Chest. 2017;152[4]:A858). A prospective, multicenter randomized trial is currently ongoing (Clinical Trials. 2019. https://clinicaltrials.gov/ct2/show/NCT03893539).
The aim of bronchoscopic procedures is to safely and effectively diagnose early stage LC. RAB shows a great deal of potential in the future of LC diagnostics.
Priya Patel MD
Fellow-in-Training Member
Adnan Majid, MD
NetWork Member