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AGA invests in virtual care clinic Oshi Health
specializing in treating patients with gastrointestinal disorders that has been named a recipient of funding through the AGA Center for GI Innovation & Technology’s GI Opportunity Fund.
Launched in 2020, Oshi Health works with employers, health insurance partners, health systems, and community GI practices to scale access to multidisciplinary care, reduce health care costs, and help improve outcomes for patients.
Research shows that a whole-person, multidisciplinary GI care model – which for Oshi includes nutrition and diet support, health coaching, behavioral and mental health services – is highly effective in mitigating symptoms. For example, a 2020 literature review published in the Journal of the Canadian Association of Gastroenterology documented far more advantages with integrated care models, as compared with the GI specialist model of care. The study found that integrated care teams were better equipped to meet the needs of patients with inflammatory bowel disease (IBD), patient outcomes and satisfaction were better, overall direct and indirect costs were lower, and psychological health needs were better addressed.
The AGA Center for GI Innovation and Technology supports innovation and the development of new technology in gastroenterology, hepatology, nutrition, and obesity by guiding medical device and therapeutics innovators through the technology development and adoption process.
For more information about Oshi Health, visit https://oshihealth.com.
specializing in treating patients with gastrointestinal disorders that has been named a recipient of funding through the AGA Center for GI Innovation & Technology’s GI Opportunity Fund.
Launched in 2020, Oshi Health works with employers, health insurance partners, health systems, and community GI practices to scale access to multidisciplinary care, reduce health care costs, and help improve outcomes for patients.
Research shows that a whole-person, multidisciplinary GI care model – which for Oshi includes nutrition and diet support, health coaching, behavioral and mental health services – is highly effective in mitigating symptoms. For example, a 2020 literature review published in the Journal of the Canadian Association of Gastroenterology documented far more advantages with integrated care models, as compared with the GI specialist model of care. The study found that integrated care teams were better equipped to meet the needs of patients with inflammatory bowel disease (IBD), patient outcomes and satisfaction were better, overall direct and indirect costs were lower, and psychological health needs were better addressed.
The AGA Center for GI Innovation and Technology supports innovation and the development of new technology in gastroenterology, hepatology, nutrition, and obesity by guiding medical device and therapeutics innovators through the technology development and adoption process.
For more information about Oshi Health, visit https://oshihealth.com.
specializing in treating patients with gastrointestinal disorders that has been named a recipient of funding through the AGA Center for GI Innovation & Technology’s GI Opportunity Fund.
Launched in 2020, Oshi Health works with employers, health insurance partners, health systems, and community GI practices to scale access to multidisciplinary care, reduce health care costs, and help improve outcomes for patients.
Research shows that a whole-person, multidisciplinary GI care model – which for Oshi includes nutrition and diet support, health coaching, behavioral and mental health services – is highly effective in mitigating symptoms. For example, a 2020 literature review published in the Journal of the Canadian Association of Gastroenterology documented far more advantages with integrated care models, as compared with the GI specialist model of care. The study found that integrated care teams were better equipped to meet the needs of patients with inflammatory bowel disease (IBD), patient outcomes and satisfaction were better, overall direct and indirect costs were lower, and psychological health needs were better addressed.
The AGA Center for GI Innovation and Technology supports innovation and the development of new technology in gastroenterology, hepatology, nutrition, and obesity by guiding medical device and therapeutics innovators through the technology development and adoption process.
For more information about Oshi Health, visit https://oshihealth.com.
AGA president Barbara Jung asks UHC to cease advance notification
for gastrointestinal endoscopy procedures, which took effect June 1, and UnitedHealthcare’s proposed “Gold Card” prior authorization program planned for 2024.
Dr. Jung made three requests: A request for UnitedHealthcare’s deidentified aggregate data on which the Advance Notification program is based.
She asked for clarification in regards to gastroenterologists who opt not to participate in the Advance Notification program. Will they be automatically subject to prior authorization when UnitedHealthcare implements the 2024 Gold Card program?
And, how will information gathered through the Advance Notification program shape the GI Gold Card prior authorization program that UnitedHealthcare plans to implement in 2024?
Dr. Jung asked for a written response to each of these three issues and a meeting to discuss concerns and questions.
She stated that the Advance Notification Program was launched without adequate communication to gastroenterologists, plus the AGA, the American College of Gastroenterology, and the American Society of Gastrointestinal Endoscopy have had questions and concerns that haven’t yet been addressed.
“Despite multiple requests, you have not shared any UnitedHealthcare-specific overuse or variation data on a code-by-code basis that would warrant such a burdensome process. Please share the deidentified aggregate data. Absent data, there is no rationale for such a policy. The Advance Notification program directly contradicts UnitedHealthcare’s publicly stated goals of reducing administrative burden and streamlining access to care – goals we support and encourage you to work toward in the gastroenterological specialty. In contrast, Advance Notification is imposing significant administrative burdens on physician practices, which will negatively impact patient access to timely, medically necessary care,” she wrote.
Practice burden
“The chaotic rollout of the new data reporting requirements led to widespread confusion throughout the gastroenterological community and has since forced physicians and staff to spend multiple hours every day completing reporting requirements for data that UnitedHealthcare already has through claims forms. This is a serious drain on gastroenterology practices’ time, staff, and resources – which should be entirely focused on patient care, not reams of paperwork,” Dr. Jung wrote.
AGA members have stated that:
- Most local UHC representatives are unaware of the Advance Notification Program for GI endoscopy program and are unable to advise them regarding concerns or problems.
- Local UHC representatives have no information on the Gold Card program and how it might operate.
Many practices report they have not received any follow-up from UHC requesting additional records via the Advance Notification Program.
Some large GI practices report it takes their staff 5-7 minutes per patient to enter the required data. Others quantify the additional work of participating in the advance notification program as 25%-35% more work than before the program was implemented.
Practices with large UHC volume report having to divert multiple staff to work full-time on UHC accounts.
All practices report that they are required to input/upload the same clinical information as other UHC prior authorizations. Some practices additionally take a screenshot of the statement that the procedure does not require precertification and place it in the patient notes as a precaution in case issues arise in the future.
GI practices that have tried to use the telephone number to report a change in procedure report spending an average of an hour on hold per case.
Dr. Jung said that “given these challenges, many practices are not participating” in the advance notification program.
“AGA is troubled by the serious lack of specific details about the Gold Card prior authorization program to date. With less than 6 months until 2024, UnitedHealthcare has not issued any details about eligibility criteria, participation, or what new prior authorization requirements may be implemented for practices that do not qualify for a Gold Card. We resolutely oppose the implementation of any type of preauthorization requirements for colonoscopies and endoscopies. We are medical practitioners who have years of training and experience treating patients. Our medical decisions are evidence-based, which no prior authorization policy can claim.
“As you recognized when announcing UnitedHealthcare will slash prior authorization requirements by 20% earlier this spring, requiring physicians to apply for and receive preapproval before being able to deliver medically necessary care is not just frustrating – it is disruptive and dangerous for patients’ health. This is particularly true when it comes to performing colonoscopies and endoscopies, which are vital for detecting and monitoring diseases such as inflammatory bowel disease and colorectal cancer, the second deadliest form of cancer in the United States.
“AGA stands ready to partner with UnitedHealthcare on mutually beneficial educational initiatives to promote appropriate use of endoscopy procedures. However, we reiterate our call for UnitedHealthcare to halt the confusing and burdensome Advance Notification Program – and scrap plans to implement a Gold Card prior authorization program as planned in 2024. Instead, we invite UnitedHealthcare to work collaboratively with us to develop programs that improve quality of care without creating barriers to treatment for patients and unnecessary and inappropriate administrative burdens for physicians. We urge you to stop the Advance Notification and any prior authorization programs impacting GI endoscopy and directly engage with AGA to ensure patients’ continued access to high-value, patient-centered endoscopy care. Please contact Leslie Narramore at [email protected] at your earliest convenience so we can resume our dialogue.”
Dr. Jung closed the letter urging UHC to stop the advance notification program and planned prior authorization programs and instead engage in a dialogue with AGA about the issues.
To read Dr. Jung’s letter in full, see https://shorturl.at/dhjyH.
for gastrointestinal endoscopy procedures, which took effect June 1, and UnitedHealthcare’s proposed “Gold Card” prior authorization program planned for 2024.
Dr. Jung made three requests: A request for UnitedHealthcare’s deidentified aggregate data on which the Advance Notification program is based.
She asked for clarification in regards to gastroenterologists who opt not to participate in the Advance Notification program. Will they be automatically subject to prior authorization when UnitedHealthcare implements the 2024 Gold Card program?
And, how will information gathered through the Advance Notification program shape the GI Gold Card prior authorization program that UnitedHealthcare plans to implement in 2024?
Dr. Jung asked for a written response to each of these three issues and a meeting to discuss concerns and questions.
She stated that the Advance Notification Program was launched without adequate communication to gastroenterologists, plus the AGA, the American College of Gastroenterology, and the American Society of Gastrointestinal Endoscopy have had questions and concerns that haven’t yet been addressed.
“Despite multiple requests, you have not shared any UnitedHealthcare-specific overuse or variation data on a code-by-code basis that would warrant such a burdensome process. Please share the deidentified aggregate data. Absent data, there is no rationale for such a policy. The Advance Notification program directly contradicts UnitedHealthcare’s publicly stated goals of reducing administrative burden and streamlining access to care – goals we support and encourage you to work toward in the gastroenterological specialty. In contrast, Advance Notification is imposing significant administrative burdens on physician practices, which will negatively impact patient access to timely, medically necessary care,” she wrote.
Practice burden
“The chaotic rollout of the new data reporting requirements led to widespread confusion throughout the gastroenterological community and has since forced physicians and staff to spend multiple hours every day completing reporting requirements for data that UnitedHealthcare already has through claims forms. This is a serious drain on gastroenterology practices’ time, staff, and resources – which should be entirely focused on patient care, not reams of paperwork,” Dr. Jung wrote.
AGA members have stated that:
- Most local UHC representatives are unaware of the Advance Notification Program for GI endoscopy program and are unable to advise them regarding concerns or problems.
- Local UHC representatives have no information on the Gold Card program and how it might operate.
Many practices report they have not received any follow-up from UHC requesting additional records via the Advance Notification Program.
Some large GI practices report it takes their staff 5-7 minutes per patient to enter the required data. Others quantify the additional work of participating in the advance notification program as 25%-35% more work than before the program was implemented.
Practices with large UHC volume report having to divert multiple staff to work full-time on UHC accounts.
All practices report that they are required to input/upload the same clinical information as other UHC prior authorizations. Some practices additionally take a screenshot of the statement that the procedure does not require precertification and place it in the patient notes as a precaution in case issues arise in the future.
GI practices that have tried to use the telephone number to report a change in procedure report spending an average of an hour on hold per case.
Dr. Jung said that “given these challenges, many practices are not participating” in the advance notification program.
“AGA is troubled by the serious lack of specific details about the Gold Card prior authorization program to date. With less than 6 months until 2024, UnitedHealthcare has not issued any details about eligibility criteria, participation, or what new prior authorization requirements may be implemented for practices that do not qualify for a Gold Card. We resolutely oppose the implementation of any type of preauthorization requirements for colonoscopies and endoscopies. We are medical practitioners who have years of training and experience treating patients. Our medical decisions are evidence-based, which no prior authorization policy can claim.
“As you recognized when announcing UnitedHealthcare will slash prior authorization requirements by 20% earlier this spring, requiring physicians to apply for and receive preapproval before being able to deliver medically necessary care is not just frustrating – it is disruptive and dangerous for patients’ health. This is particularly true when it comes to performing colonoscopies and endoscopies, which are vital for detecting and monitoring diseases such as inflammatory bowel disease and colorectal cancer, the second deadliest form of cancer in the United States.
“AGA stands ready to partner with UnitedHealthcare on mutually beneficial educational initiatives to promote appropriate use of endoscopy procedures. However, we reiterate our call for UnitedHealthcare to halt the confusing and burdensome Advance Notification Program – and scrap plans to implement a Gold Card prior authorization program as planned in 2024. Instead, we invite UnitedHealthcare to work collaboratively with us to develop programs that improve quality of care without creating barriers to treatment for patients and unnecessary and inappropriate administrative burdens for physicians. We urge you to stop the Advance Notification and any prior authorization programs impacting GI endoscopy and directly engage with AGA to ensure patients’ continued access to high-value, patient-centered endoscopy care. Please contact Leslie Narramore at [email protected] at your earliest convenience so we can resume our dialogue.”
Dr. Jung closed the letter urging UHC to stop the advance notification program and planned prior authorization programs and instead engage in a dialogue with AGA about the issues.
To read Dr. Jung’s letter in full, see https://shorturl.at/dhjyH.
for gastrointestinal endoscopy procedures, which took effect June 1, and UnitedHealthcare’s proposed “Gold Card” prior authorization program planned for 2024.
Dr. Jung made three requests: A request for UnitedHealthcare’s deidentified aggregate data on which the Advance Notification program is based.
She asked for clarification in regards to gastroenterologists who opt not to participate in the Advance Notification program. Will they be automatically subject to prior authorization when UnitedHealthcare implements the 2024 Gold Card program?
And, how will information gathered through the Advance Notification program shape the GI Gold Card prior authorization program that UnitedHealthcare plans to implement in 2024?
Dr. Jung asked for a written response to each of these three issues and a meeting to discuss concerns and questions.
She stated that the Advance Notification Program was launched without adequate communication to gastroenterologists, plus the AGA, the American College of Gastroenterology, and the American Society of Gastrointestinal Endoscopy have had questions and concerns that haven’t yet been addressed.
“Despite multiple requests, you have not shared any UnitedHealthcare-specific overuse or variation data on a code-by-code basis that would warrant such a burdensome process. Please share the deidentified aggregate data. Absent data, there is no rationale for such a policy. The Advance Notification program directly contradicts UnitedHealthcare’s publicly stated goals of reducing administrative burden and streamlining access to care – goals we support and encourage you to work toward in the gastroenterological specialty. In contrast, Advance Notification is imposing significant administrative burdens on physician practices, which will negatively impact patient access to timely, medically necessary care,” she wrote.
Practice burden
“The chaotic rollout of the new data reporting requirements led to widespread confusion throughout the gastroenterological community and has since forced physicians and staff to spend multiple hours every day completing reporting requirements for data that UnitedHealthcare already has through claims forms. This is a serious drain on gastroenterology practices’ time, staff, and resources – which should be entirely focused on patient care, not reams of paperwork,” Dr. Jung wrote.
AGA members have stated that:
- Most local UHC representatives are unaware of the Advance Notification Program for GI endoscopy program and are unable to advise them regarding concerns or problems.
- Local UHC representatives have no information on the Gold Card program and how it might operate.
Many practices report they have not received any follow-up from UHC requesting additional records via the Advance Notification Program.
Some large GI practices report it takes their staff 5-7 minutes per patient to enter the required data. Others quantify the additional work of participating in the advance notification program as 25%-35% more work than before the program was implemented.
Practices with large UHC volume report having to divert multiple staff to work full-time on UHC accounts.
All practices report that they are required to input/upload the same clinical information as other UHC prior authorizations. Some practices additionally take a screenshot of the statement that the procedure does not require precertification and place it in the patient notes as a precaution in case issues arise in the future.
GI practices that have tried to use the telephone number to report a change in procedure report spending an average of an hour on hold per case.
Dr. Jung said that “given these challenges, many practices are not participating” in the advance notification program.
“AGA is troubled by the serious lack of specific details about the Gold Card prior authorization program to date. With less than 6 months until 2024, UnitedHealthcare has not issued any details about eligibility criteria, participation, or what new prior authorization requirements may be implemented for practices that do not qualify for a Gold Card. We resolutely oppose the implementation of any type of preauthorization requirements for colonoscopies and endoscopies. We are medical practitioners who have years of training and experience treating patients. Our medical decisions are evidence-based, which no prior authorization policy can claim.
“As you recognized when announcing UnitedHealthcare will slash prior authorization requirements by 20% earlier this spring, requiring physicians to apply for and receive preapproval before being able to deliver medically necessary care is not just frustrating – it is disruptive and dangerous for patients’ health. This is particularly true when it comes to performing colonoscopies and endoscopies, which are vital for detecting and monitoring diseases such as inflammatory bowel disease and colorectal cancer, the second deadliest form of cancer in the United States.
“AGA stands ready to partner with UnitedHealthcare on mutually beneficial educational initiatives to promote appropriate use of endoscopy procedures. However, we reiterate our call for UnitedHealthcare to halt the confusing and burdensome Advance Notification Program – and scrap plans to implement a Gold Card prior authorization program as planned in 2024. Instead, we invite UnitedHealthcare to work collaboratively with us to develop programs that improve quality of care without creating barriers to treatment for patients and unnecessary and inappropriate administrative burdens for physicians. We urge you to stop the Advance Notification and any prior authorization programs impacting GI endoscopy and directly engage with AGA to ensure patients’ continued access to high-value, patient-centered endoscopy care. Please contact Leslie Narramore at [email protected] at your earliest convenience so we can resume our dialogue.”
Dr. Jung closed the letter urging UHC to stop the advance notification program and planned prior authorization programs and instead engage in a dialogue with AGA about the issues.
To read Dr. Jung’s letter in full, see https://shorturl.at/dhjyH.
Use the SCAI stages to identify and treat cardiogenic shock
Cardiogenic shock (CS) is being recognized more often in critically ill patients. This increased prevalence is likely due to a better understanding of CS and the benefit of improving cardiac output (CO) to ensure adequate oxygen delivery (DO2).
CS is often, but not always, caused by a cardiac dysfunction. The heart is not able to provide adequate DO2 to the tissues. Hypoperfusion ensues. The body attempts to compensate for the poor perfusion by increasing heart rate, vasoconstriction, and shunting blood flow to vital organs. These compensatory mechanisms worsen perfusion by increasing myocardial ischemia which further worsens cardiac dysfunction. This is known as the downward spiral of CS (Ann Intern Med. 1999 Jul 6;131[1]).
There is a number of different etiologies for CS. Historically, acute myocardial infarctions (AMI) was the most common cause. In the last 20 years, AMI-induced CS has become less prevalent due to more aggressive reperfusion strategies. CS due to etiologies such as cardiomyopathy, myocarditis, right ventricle failure, and valvular pathologies have become more common. While the overarching goal is to restore DO2 to the tissue, the optimal treatment may differ based on the etiology of the CS. The Society for Cardiovascular Angiography and Intervention (SCAI) published CS classification stages in 2019 and then updated the stages 2022 (J Am Coll Cardiol. 2022 Mar 8;79[9]:933-46). In addition to the stages, there is now a three-axis model to address risk stratification. These classifications are a practically means of identifying and treating patients presenting with or concern for acute CS.
Stage A (At Risk) patients are not experiencing CS, but they are the at risk population. The patient’s hemodynamics, physical exam, and markers of hypoperfusion are normal. Stage A includes patients who have had a recent AMI or have heart failure.
Stage B (Beginning) patients have evidence of hemodynamic instability but are able to maintain tissue perfusion. These patients will have true or relative hypotension or tachycardia (in an attempt to maintain CO). Distal perfusion is adequate, but signs of ensuing decompensation (eg, elevated jugular venous pressure [JVP]) are present. Lactate is <2.0 mmol/L. Clinicians must be vigilant and treat these patients aggressively, so they do not decompensate further. It can be difficult to identify these patients because their blood pressure may be “normal,” but upon investigation, the blood pressure is actually a drop from the patient’s baseline.
Chronic heart failure patients with a history of depressed cardiac function will often have periods of cardiac decompensation between stages A and B. These patients are able to maintain perfusion for longer periods of time before further decompensation with hypoperfusion. If and when they do decompensate, they will often have a steep downward trajectory, so it is advantageous to the patient to be aggressive early.
Stage C (Classic) patients have evidence of tissue hypoperfusion. While these patients will often have true or relative hypotension, it is not a definition of stage C. These patients have evidence of volume overload with elevated JVP and rales throughout their lung fields. They will have poor distal perfusion and cool extremities that may become mottled. Lactate is ≥ 2 mmol/L. B-type natriuretic peptide (BNP) and liver function test (LFTs) results are elevated, and urine output is diminished. If a pulmonary arterial catheter is placed (highly recommended), the cardiac index (CI) is < 2.2 L/min/m2 and the pulmonary capillary wedge pressure (PCWP) is > 15 mm Hg. These patients look like what many clinicians think of when they think of CS.
These patients need better tissue perfusion. Inotropic support is needed to augment CO and DO2. Pharmacologic support is often the initial step. These patients also benefit from volume removal. This is usually accomplished with aggressive diuresis with a loop diuretic.
Stage D (Deteriorating) patients have failed initial treatment with single inotropic support. Hypoperfusion is not getting better and is often worsening. Lactate is staying > 2 mmol/L or rising. BNP and LFTs are also rising. These patients require additional inotropes and usually need vasopressors. Mechanical cardiac support (MCS) is often needed in addition to pharmacologic inotropic support.
Stage E (Extremis) patients have actual or impending circulatory collapse. These patients are peri-arrest with profound hypotension, lactic acidosis (often > 8 mmol/L), and unconsciousness. These patients are worsening despite multiple strategies to augment CO and DO2. These patients will likely die without emergent veno-arterial (VA) extracorporeal membrane oxygenation (ECMO). The goal of treatment is to stabilize the patient as quickly as possible to prevent cardiac arrest.
In addition to the stage of CS, SCAI developed the three-axis model of risk stratification as a conceptual model to be used for evaluation and prognostication. Etiology and phenotype, shock severity, and risk modifiers are factors related to patient outcomes from CS. This model is a way to individualize treatment to a specific patient.
Shock severity: What is the patient’s shock stage? What are the hemodynamics and metabolic abnormalities? What are the doses of the inotropes or vasopressors? Risk goes up with higher shock stages and vasoactive agent doses and worsening metabolic disturbances or hemodynamics.
Phenotype and etiology: what is the clinical etiology of the patient’s CS? Is this acute or acute on chronic? Which ventricle is involved? Is this cardiac driven or are other organs the driving factor? Single ventricle involvement is better than bi-ventricular failure. Cardiogenic collapse due to an overdose may have a better outcome than a massive AMI.
Risk modifiers: how old is the patient? What are the comorbidities? Did the patient have a cardiac arrest? What is the patient’s mental status? Some factors are modifiable, but others are not. The concept of chronologic vs. physiologic age may come into play. A frail 40 year old with stage 4 cancer and end stage renal failure may be assessed differently than a 70 year old with mild hypertension and an AMI.
The SCAI stages of CS are a pragmatic way to assess patients with an acute presentation of CS. These stages have defined criteria and treatment recommendations for all patients. The three-axis model allows the clinician to individualize patient care based on shock severity, etiology/phenotype, and risk modification. The goal of these stages is to identify and aggressively treat patients with CS, as well as identify when treatment is failing and additional therapies may be needed.
Dr. Gaillard is Associate Professor in the Departments of Anesthesiology, Section on Critical Care; Internal Medicine, Section on Pulmonology, Critical Care, Allergy, and Immunologic Diseases; and Emergency Medicine; Wake Forest School of Medicine, Winston-Salem, N.C.
Cardiogenic shock (CS) is being recognized more often in critically ill patients. This increased prevalence is likely due to a better understanding of CS and the benefit of improving cardiac output (CO) to ensure adequate oxygen delivery (DO2).
CS is often, but not always, caused by a cardiac dysfunction. The heart is not able to provide adequate DO2 to the tissues. Hypoperfusion ensues. The body attempts to compensate for the poor perfusion by increasing heart rate, vasoconstriction, and shunting blood flow to vital organs. These compensatory mechanisms worsen perfusion by increasing myocardial ischemia which further worsens cardiac dysfunction. This is known as the downward spiral of CS (Ann Intern Med. 1999 Jul 6;131[1]).
There is a number of different etiologies for CS. Historically, acute myocardial infarctions (AMI) was the most common cause. In the last 20 years, AMI-induced CS has become less prevalent due to more aggressive reperfusion strategies. CS due to etiologies such as cardiomyopathy, myocarditis, right ventricle failure, and valvular pathologies have become more common. While the overarching goal is to restore DO2 to the tissue, the optimal treatment may differ based on the etiology of the CS. The Society for Cardiovascular Angiography and Intervention (SCAI) published CS classification stages in 2019 and then updated the stages 2022 (J Am Coll Cardiol. 2022 Mar 8;79[9]:933-46). In addition to the stages, there is now a three-axis model to address risk stratification. These classifications are a practically means of identifying and treating patients presenting with or concern for acute CS.
Stage A (At Risk) patients are not experiencing CS, but they are the at risk population. The patient’s hemodynamics, physical exam, and markers of hypoperfusion are normal. Stage A includes patients who have had a recent AMI or have heart failure.
Stage B (Beginning) patients have evidence of hemodynamic instability but are able to maintain tissue perfusion. These patients will have true or relative hypotension or tachycardia (in an attempt to maintain CO). Distal perfusion is adequate, but signs of ensuing decompensation (eg, elevated jugular venous pressure [JVP]) are present. Lactate is <2.0 mmol/L. Clinicians must be vigilant and treat these patients aggressively, so they do not decompensate further. It can be difficult to identify these patients because their blood pressure may be “normal,” but upon investigation, the blood pressure is actually a drop from the patient’s baseline.
Chronic heart failure patients with a history of depressed cardiac function will often have periods of cardiac decompensation between stages A and B. These patients are able to maintain perfusion for longer periods of time before further decompensation with hypoperfusion. If and when they do decompensate, they will often have a steep downward trajectory, so it is advantageous to the patient to be aggressive early.
Stage C (Classic) patients have evidence of tissue hypoperfusion. While these patients will often have true or relative hypotension, it is not a definition of stage C. These patients have evidence of volume overload with elevated JVP and rales throughout their lung fields. They will have poor distal perfusion and cool extremities that may become mottled. Lactate is ≥ 2 mmol/L. B-type natriuretic peptide (BNP) and liver function test (LFTs) results are elevated, and urine output is diminished. If a pulmonary arterial catheter is placed (highly recommended), the cardiac index (CI) is < 2.2 L/min/m2 and the pulmonary capillary wedge pressure (PCWP) is > 15 mm Hg. These patients look like what many clinicians think of when they think of CS.
These patients need better tissue perfusion. Inotropic support is needed to augment CO and DO2. Pharmacologic support is often the initial step. These patients also benefit from volume removal. This is usually accomplished with aggressive diuresis with a loop diuretic.
Stage D (Deteriorating) patients have failed initial treatment with single inotropic support. Hypoperfusion is not getting better and is often worsening. Lactate is staying > 2 mmol/L or rising. BNP and LFTs are also rising. These patients require additional inotropes and usually need vasopressors. Mechanical cardiac support (MCS) is often needed in addition to pharmacologic inotropic support.
Stage E (Extremis) patients have actual or impending circulatory collapse. These patients are peri-arrest with profound hypotension, lactic acidosis (often > 8 mmol/L), and unconsciousness. These patients are worsening despite multiple strategies to augment CO and DO2. These patients will likely die without emergent veno-arterial (VA) extracorporeal membrane oxygenation (ECMO). The goal of treatment is to stabilize the patient as quickly as possible to prevent cardiac arrest.
In addition to the stage of CS, SCAI developed the three-axis model of risk stratification as a conceptual model to be used for evaluation and prognostication. Etiology and phenotype, shock severity, and risk modifiers are factors related to patient outcomes from CS. This model is a way to individualize treatment to a specific patient.
Shock severity: What is the patient’s shock stage? What are the hemodynamics and metabolic abnormalities? What are the doses of the inotropes or vasopressors? Risk goes up with higher shock stages and vasoactive agent doses and worsening metabolic disturbances or hemodynamics.
Phenotype and etiology: what is the clinical etiology of the patient’s CS? Is this acute or acute on chronic? Which ventricle is involved? Is this cardiac driven or are other organs the driving factor? Single ventricle involvement is better than bi-ventricular failure. Cardiogenic collapse due to an overdose may have a better outcome than a massive AMI.
Risk modifiers: how old is the patient? What are the comorbidities? Did the patient have a cardiac arrest? What is the patient’s mental status? Some factors are modifiable, but others are not. The concept of chronologic vs. physiologic age may come into play. A frail 40 year old with stage 4 cancer and end stage renal failure may be assessed differently than a 70 year old with mild hypertension and an AMI.
The SCAI stages of CS are a pragmatic way to assess patients with an acute presentation of CS. These stages have defined criteria and treatment recommendations for all patients. The three-axis model allows the clinician to individualize patient care based on shock severity, etiology/phenotype, and risk modification. The goal of these stages is to identify and aggressively treat patients with CS, as well as identify when treatment is failing and additional therapies may be needed.
Dr. Gaillard is Associate Professor in the Departments of Anesthesiology, Section on Critical Care; Internal Medicine, Section on Pulmonology, Critical Care, Allergy, and Immunologic Diseases; and Emergency Medicine; Wake Forest School of Medicine, Winston-Salem, N.C.
Cardiogenic shock (CS) is being recognized more often in critically ill patients. This increased prevalence is likely due to a better understanding of CS and the benefit of improving cardiac output (CO) to ensure adequate oxygen delivery (DO2).
CS is often, but not always, caused by a cardiac dysfunction. The heart is not able to provide adequate DO2 to the tissues. Hypoperfusion ensues. The body attempts to compensate for the poor perfusion by increasing heart rate, vasoconstriction, and shunting blood flow to vital organs. These compensatory mechanisms worsen perfusion by increasing myocardial ischemia which further worsens cardiac dysfunction. This is known as the downward spiral of CS (Ann Intern Med. 1999 Jul 6;131[1]).
There is a number of different etiologies for CS. Historically, acute myocardial infarctions (AMI) was the most common cause. In the last 20 years, AMI-induced CS has become less prevalent due to more aggressive reperfusion strategies. CS due to etiologies such as cardiomyopathy, myocarditis, right ventricle failure, and valvular pathologies have become more common. While the overarching goal is to restore DO2 to the tissue, the optimal treatment may differ based on the etiology of the CS. The Society for Cardiovascular Angiography and Intervention (SCAI) published CS classification stages in 2019 and then updated the stages 2022 (J Am Coll Cardiol. 2022 Mar 8;79[9]:933-46). In addition to the stages, there is now a three-axis model to address risk stratification. These classifications are a practically means of identifying and treating patients presenting with or concern for acute CS.
Stage A (At Risk) patients are not experiencing CS, but they are the at risk population. The patient’s hemodynamics, physical exam, and markers of hypoperfusion are normal. Stage A includes patients who have had a recent AMI or have heart failure.
Stage B (Beginning) patients have evidence of hemodynamic instability but are able to maintain tissue perfusion. These patients will have true or relative hypotension or tachycardia (in an attempt to maintain CO). Distal perfusion is adequate, but signs of ensuing decompensation (eg, elevated jugular venous pressure [JVP]) are present. Lactate is <2.0 mmol/L. Clinicians must be vigilant and treat these patients aggressively, so they do not decompensate further. It can be difficult to identify these patients because their blood pressure may be “normal,” but upon investigation, the blood pressure is actually a drop from the patient’s baseline.
Chronic heart failure patients with a history of depressed cardiac function will often have periods of cardiac decompensation between stages A and B. These patients are able to maintain perfusion for longer periods of time before further decompensation with hypoperfusion. If and when they do decompensate, they will often have a steep downward trajectory, so it is advantageous to the patient to be aggressive early.
Stage C (Classic) patients have evidence of tissue hypoperfusion. While these patients will often have true or relative hypotension, it is not a definition of stage C. These patients have evidence of volume overload with elevated JVP and rales throughout their lung fields. They will have poor distal perfusion and cool extremities that may become mottled. Lactate is ≥ 2 mmol/L. B-type natriuretic peptide (BNP) and liver function test (LFTs) results are elevated, and urine output is diminished. If a pulmonary arterial catheter is placed (highly recommended), the cardiac index (CI) is < 2.2 L/min/m2 and the pulmonary capillary wedge pressure (PCWP) is > 15 mm Hg. These patients look like what many clinicians think of when they think of CS.
These patients need better tissue perfusion. Inotropic support is needed to augment CO and DO2. Pharmacologic support is often the initial step. These patients also benefit from volume removal. This is usually accomplished with aggressive diuresis with a loop diuretic.
Stage D (Deteriorating) patients have failed initial treatment with single inotropic support. Hypoperfusion is not getting better and is often worsening. Lactate is staying > 2 mmol/L or rising. BNP and LFTs are also rising. These patients require additional inotropes and usually need vasopressors. Mechanical cardiac support (MCS) is often needed in addition to pharmacologic inotropic support.
Stage E (Extremis) patients have actual or impending circulatory collapse. These patients are peri-arrest with profound hypotension, lactic acidosis (often > 8 mmol/L), and unconsciousness. These patients are worsening despite multiple strategies to augment CO and DO2. These patients will likely die without emergent veno-arterial (VA) extracorporeal membrane oxygenation (ECMO). The goal of treatment is to stabilize the patient as quickly as possible to prevent cardiac arrest.
In addition to the stage of CS, SCAI developed the three-axis model of risk stratification as a conceptual model to be used for evaluation and prognostication. Etiology and phenotype, shock severity, and risk modifiers are factors related to patient outcomes from CS. This model is a way to individualize treatment to a specific patient.
Shock severity: What is the patient’s shock stage? What are the hemodynamics and metabolic abnormalities? What are the doses of the inotropes or vasopressors? Risk goes up with higher shock stages and vasoactive agent doses and worsening metabolic disturbances or hemodynamics.
Phenotype and etiology: what is the clinical etiology of the patient’s CS? Is this acute or acute on chronic? Which ventricle is involved? Is this cardiac driven or are other organs the driving factor? Single ventricle involvement is better than bi-ventricular failure. Cardiogenic collapse due to an overdose may have a better outcome than a massive AMI.
Risk modifiers: how old is the patient? What are the comorbidities? Did the patient have a cardiac arrest? What is the patient’s mental status? Some factors are modifiable, but others are not. The concept of chronologic vs. physiologic age may come into play. A frail 40 year old with stage 4 cancer and end stage renal failure may be assessed differently than a 70 year old with mild hypertension and an AMI.
The SCAI stages of CS are a pragmatic way to assess patients with an acute presentation of CS. These stages have defined criteria and treatment recommendations for all patients. The three-axis model allows the clinician to individualize patient care based on shock severity, etiology/phenotype, and risk modification. The goal of these stages is to identify and aggressively treat patients with CS, as well as identify when treatment is failing and additional therapies may be needed.
Dr. Gaillard is Associate Professor in the Departments of Anesthesiology, Section on Critical Care; Internal Medicine, Section on Pulmonology, Critical Care, Allergy, and Immunologic Diseases; and Emergency Medicine; Wake Forest School of Medicine, Winston-Salem, N.C.
Add hands-on and interactive learning opportunities to your CHEST 2023 schedule
Explore the many ticketed sessions, and sign up early in case they sell out.
Simulation sessions
If you’re looking to gain hands-on exposure to equipment and tools that may not be available at your home institution, look no further than these simulation sessions. Choose from 25 different sessions offering firsthand experience with procedures relevant to your clinical practice.
“It’s a great opportunity to teach higher stakes procedures in a very low stakes environment where everybody’s comfortable and everybody’s learning from each other,” said Live Learning Subcommittee Chair, Nicholas Pastis, MD, FCCP.
CHEST 2023 simulation sessions will address clinical topics, including endobronchial ultrasound, cardiopulmonary exercise testing (CPET), intubation and cricothyrotomy, bronchoscopy management, and more. These sessions are taught by experts who use these real-world strategies in their daily practice.
CHEST 2022 attendee, Weston Bowker, MD, found value in the simulation courses he was able to attend in Nashville.
“It’s fantastic just to work with some of the leading experts in the field, especially from an interventional pulmonology standpoint. And, you truly get a different experience than maybe what your home institution offers,” he said.
Problem-based learning sessions
Exercise your critical thinking skills by working to resolve real-world clinical problems during these small group sessions. Refine your expertise on topics like lung cancer screening and staging, biologics in asthma, pneumonia, and more.
“Problem-based learning courses take a clinical problem or case study that is somewhat controversial to create a learning environment where the problem itself drives the learning with participants,” said CHEST 2023 Scientific Program Committee Chair, Aneesa Das, MD, FCCP. “These are small group sessions where learners can actively participate and collaborate to discuss various perspectives on the issue and work toward potential solutions.”
This year’s problem-based learning courses were chosen based on common controversies in chest medicine and current hot topics in medicine.
Dr. Das is excited for the Using CPET to Solve Your Difficult Cases course. “Cardiopulmonary exercise tests can sometimes be difficult even for seasoned physicians. This is always an amazing problem-based learning topic,” she added.
Meet the Professor sessions
Connect with leading chest medicine experts during these limited-capacity discussions capped at 24 registrants per session. Meet the Professor attendees will have the opportunity to engage in stimulating conversations on bronchiectasis, central airway obstructions, obesity hypoventilation, and sublobar resection.
“Meet the Professor sessions are a unique opportunity to interact and learn from a leader in the field in a very small group setting on a high-yield topic,” said Dr. Das. “These sessions allow for a learning environment that is personalized and intimate.”
Explore the many ticketed sessions, and sign up early in case they sell out.
Simulation sessions
If you’re looking to gain hands-on exposure to equipment and tools that may not be available at your home institution, look no further than these simulation sessions. Choose from 25 different sessions offering firsthand experience with procedures relevant to your clinical practice.
“It’s a great opportunity to teach higher stakes procedures in a very low stakes environment where everybody’s comfortable and everybody’s learning from each other,” said Live Learning Subcommittee Chair, Nicholas Pastis, MD, FCCP.
CHEST 2023 simulation sessions will address clinical topics, including endobronchial ultrasound, cardiopulmonary exercise testing (CPET), intubation and cricothyrotomy, bronchoscopy management, and more. These sessions are taught by experts who use these real-world strategies in their daily practice.
CHEST 2022 attendee, Weston Bowker, MD, found value in the simulation courses he was able to attend in Nashville.
“It’s fantastic just to work with some of the leading experts in the field, especially from an interventional pulmonology standpoint. And, you truly get a different experience than maybe what your home institution offers,” he said.
Problem-based learning sessions
Exercise your critical thinking skills by working to resolve real-world clinical problems during these small group sessions. Refine your expertise on topics like lung cancer screening and staging, biologics in asthma, pneumonia, and more.
“Problem-based learning courses take a clinical problem or case study that is somewhat controversial to create a learning environment where the problem itself drives the learning with participants,” said CHEST 2023 Scientific Program Committee Chair, Aneesa Das, MD, FCCP. “These are small group sessions where learners can actively participate and collaborate to discuss various perspectives on the issue and work toward potential solutions.”
This year’s problem-based learning courses were chosen based on common controversies in chest medicine and current hot topics in medicine.
Dr. Das is excited for the Using CPET to Solve Your Difficult Cases course. “Cardiopulmonary exercise tests can sometimes be difficult even for seasoned physicians. This is always an amazing problem-based learning topic,” she added.
Meet the Professor sessions
Connect with leading chest medicine experts during these limited-capacity discussions capped at 24 registrants per session. Meet the Professor attendees will have the opportunity to engage in stimulating conversations on bronchiectasis, central airway obstructions, obesity hypoventilation, and sublobar resection.
“Meet the Professor sessions are a unique opportunity to interact and learn from a leader in the field in a very small group setting on a high-yield topic,” said Dr. Das. “These sessions allow for a learning environment that is personalized and intimate.”
Explore the many ticketed sessions, and sign up early in case they sell out.
Simulation sessions
If you’re looking to gain hands-on exposure to equipment and tools that may not be available at your home institution, look no further than these simulation sessions. Choose from 25 different sessions offering firsthand experience with procedures relevant to your clinical practice.
“It’s a great opportunity to teach higher stakes procedures in a very low stakes environment where everybody’s comfortable and everybody’s learning from each other,” said Live Learning Subcommittee Chair, Nicholas Pastis, MD, FCCP.
CHEST 2023 simulation sessions will address clinical topics, including endobronchial ultrasound, cardiopulmonary exercise testing (CPET), intubation and cricothyrotomy, bronchoscopy management, and more. These sessions are taught by experts who use these real-world strategies in their daily practice.
CHEST 2022 attendee, Weston Bowker, MD, found value in the simulation courses he was able to attend in Nashville.
“It’s fantastic just to work with some of the leading experts in the field, especially from an interventional pulmonology standpoint. And, you truly get a different experience than maybe what your home institution offers,” he said.
Problem-based learning sessions
Exercise your critical thinking skills by working to resolve real-world clinical problems during these small group sessions. Refine your expertise on topics like lung cancer screening and staging, biologics in asthma, pneumonia, and more.
“Problem-based learning courses take a clinical problem or case study that is somewhat controversial to create a learning environment where the problem itself drives the learning with participants,” said CHEST 2023 Scientific Program Committee Chair, Aneesa Das, MD, FCCP. “These are small group sessions where learners can actively participate and collaborate to discuss various perspectives on the issue and work toward potential solutions.”
This year’s problem-based learning courses were chosen based on common controversies in chest medicine and current hot topics in medicine.
Dr. Das is excited for the Using CPET to Solve Your Difficult Cases course. “Cardiopulmonary exercise tests can sometimes be difficult even for seasoned physicians. This is always an amazing problem-based learning topic,” she added.
Meet the Professor sessions
Connect with leading chest medicine experts during these limited-capacity discussions capped at 24 registrants per session. Meet the Professor attendees will have the opportunity to engage in stimulating conversations on bronchiectasis, central airway obstructions, obesity hypoventilation, and sublobar resection.
“Meet the Professor sessions are a unique opportunity to interact and learn from a leader in the field in a very small group setting on a high-yield topic,” said Dr. Das. “These sessions allow for a learning environment that is personalized and intimate.”
RAPID updates in pleural infection
Thoracic Oncology & Chest Imaging Network
Interventional Procedures Section
The MIST-2 trial (Rahman, et al. N Engl J Med. 2011;365:518), the first randomized trial to show the benefit of intrapleural enzyme therapy (IET) with tissue plasminogen activator and deoxyribonuclease for the treatment of complicated pleural infection (cPI) is the foundational study for the use of IET. It was from this cohort that the first prospectively validated mortality prediction score for cPI was developed – the RAPID score (Rahman, et al. Chest. 2014;145[4]:848).
The RAPID score, comprised of Renal, Age, Purulence, Infection source, and Dietary factors (albumin) divides patients with cPI into three 3-month mortality groups: low (1.5%), medium (17.8%), and high (47.8%). The score was externally validated in the PILOT trial (Corcoran, et al. Eur Respir J. 2020;56[5]:2000130). Mortality outcomes were separately assessed in 1-, 3-, and 5-year follow-up by White, et al (Ann Am Thorac Soc. 2015;12[9]:1310) and found to bear out with an increased OR for mortality of 14.3 and 53.3 in the medium and high risk groups, respectively. Of note, there was a surgical referral rate of only 4% to16% in the study cohort, and the original study did not distinguish between IET use or surgery.
To look at RAPID in a purely surgical cohort, Stüben, et al (Sci Rep. 2023;13[1]:3206) applied the RAPID score to a cohort of patients with empyema all treated with initial surgical drainage. They found the RAPID score to be an accurate predictor of 90-day mortality and improved with the addition of diabetes and renal replacement therapy. Liou, et al (J Thorac Dis. 2023;15[3]:985) showed that patients with a low RAPID score who were taken to surgery early had improved length of stay and organ failure and mortality rates compared with those taken later.
Can the RAPID score differentiate between those who need IET alone, early surgery, or late surgery? Not yet, but several prospective studies are underway to help improve outcomes in this ancient disease. Until then, the RAPID score remains a useful risk-stratification tool for an increasingly broad population of patients with pleural infection.
Max Diddams, MD
Section Fellow-in-Training
Thoracic Oncology & Chest Imaging Network
Interventional Procedures Section
The MIST-2 trial (Rahman, et al. N Engl J Med. 2011;365:518), the first randomized trial to show the benefit of intrapleural enzyme therapy (IET) with tissue plasminogen activator and deoxyribonuclease for the treatment of complicated pleural infection (cPI) is the foundational study for the use of IET. It was from this cohort that the first prospectively validated mortality prediction score for cPI was developed – the RAPID score (Rahman, et al. Chest. 2014;145[4]:848).
The RAPID score, comprised of Renal, Age, Purulence, Infection source, and Dietary factors (albumin) divides patients with cPI into three 3-month mortality groups: low (1.5%), medium (17.8%), and high (47.8%). The score was externally validated in the PILOT trial (Corcoran, et al. Eur Respir J. 2020;56[5]:2000130). Mortality outcomes were separately assessed in 1-, 3-, and 5-year follow-up by White, et al (Ann Am Thorac Soc. 2015;12[9]:1310) and found to bear out with an increased OR for mortality of 14.3 and 53.3 in the medium and high risk groups, respectively. Of note, there was a surgical referral rate of only 4% to16% in the study cohort, and the original study did not distinguish between IET use or surgery.
To look at RAPID in a purely surgical cohort, Stüben, et al (Sci Rep. 2023;13[1]:3206) applied the RAPID score to a cohort of patients with empyema all treated with initial surgical drainage. They found the RAPID score to be an accurate predictor of 90-day mortality and improved with the addition of diabetes and renal replacement therapy. Liou, et al (J Thorac Dis. 2023;15[3]:985) showed that patients with a low RAPID score who were taken to surgery early had improved length of stay and organ failure and mortality rates compared with those taken later.
Can the RAPID score differentiate between those who need IET alone, early surgery, or late surgery? Not yet, but several prospective studies are underway to help improve outcomes in this ancient disease. Until then, the RAPID score remains a useful risk-stratification tool for an increasingly broad population of patients with pleural infection.
Max Diddams, MD
Section Fellow-in-Training
Thoracic Oncology & Chest Imaging Network
Interventional Procedures Section
The MIST-2 trial (Rahman, et al. N Engl J Med. 2011;365:518), the first randomized trial to show the benefit of intrapleural enzyme therapy (IET) with tissue plasminogen activator and deoxyribonuclease for the treatment of complicated pleural infection (cPI) is the foundational study for the use of IET. It was from this cohort that the first prospectively validated mortality prediction score for cPI was developed – the RAPID score (Rahman, et al. Chest. 2014;145[4]:848).
The RAPID score, comprised of Renal, Age, Purulence, Infection source, and Dietary factors (albumin) divides patients with cPI into three 3-month mortality groups: low (1.5%), medium (17.8%), and high (47.8%). The score was externally validated in the PILOT trial (Corcoran, et al. Eur Respir J. 2020;56[5]:2000130). Mortality outcomes were separately assessed in 1-, 3-, and 5-year follow-up by White, et al (Ann Am Thorac Soc. 2015;12[9]:1310) and found to bear out with an increased OR for mortality of 14.3 and 53.3 in the medium and high risk groups, respectively. Of note, there was a surgical referral rate of only 4% to16% in the study cohort, and the original study did not distinguish between IET use or surgery.
To look at RAPID in a purely surgical cohort, Stüben, et al (Sci Rep. 2023;13[1]:3206) applied the RAPID score to a cohort of patients with empyema all treated with initial surgical drainage. They found the RAPID score to be an accurate predictor of 90-day mortality and improved with the addition of diabetes and renal replacement therapy. Liou, et al (J Thorac Dis. 2023;15[3]:985) showed that patients with a low RAPID score who were taken to surgery early had improved length of stay and organ failure and mortality rates compared with those taken later.
Can the RAPID score differentiate between those who need IET alone, early surgery, or late surgery? Not yet, but several prospective studies are underway to help improve outcomes in this ancient disease. Until then, the RAPID score remains a useful risk-stratification tool for an increasingly broad population of patients with pleural infection.
Max Diddams, MD
Section Fellow-in-Training
Noninvasive mechanical ventilation in unilateral diaphragm paralysis
Sleep Medicine Network
Home-Based Mechanical Ventilation & Neuromuscular Disease Section
The diaphragm plays a key a role in respiratory mechanics, particularly during the inspiratory cycle. Unilateral diaphragm paralysis (UDP) from traumatic, compressive, inflammatory, neuropathic, or iatrogenic phrenic nerve injury presents with exertional dyspnea or orthopnea, though more severe cases may present with hypoventilation, hypercapnia, and daytime fatigue. Diagnostic workup requires evaluation beyond radiography to determine if diaphragm elevation indicates paralysis with or without paradox. Severity of symptoms and degree of impairment do not consistently correlate with fluoroscopic/ultrasound findings during sniff maneuver, degree of restriction by spirometry, or supine forces. Compensatory accessory muscle use during daytime breathing can mask symptoms, and there can be severe nocturnal hypoventilation related to UDP.
For symptomatic patients, treatment recommendations require understanding of the etiology and the likelihood of resolution vs progression, or association with progressive systemic conditions. Nighttime noninvasive ventilation (NIV) is considered useful since diaphragmatic weakness worsens in supine position, and hypoventilation during REM sleep without accessory muscle support is exacerbated (Steier J, et al. Eur Respir J. 2008;32[6]:1479). However, evidence for NIV in UDP remains low quality. NIV has been proposed for ventilatory support particularly when hypercapnia is present (Wiebel M, et al. Med Klin. 1995;90[1 Suppl 1]:20). For patients with progressive neuromuscular conditions, NIV with a backup rate is strongly recommended (Steindor M, et al. Respir Care. 2021;66[3]:410; Benditt JO. Respir Care. 2019;64[6]:679), but access to respiratory assist devices is limited for isolated UDP under current reimbursement algorithms without demonstrable hypercapnia or significant restrictive spirometry. The recent ONMAP recommendations calling for use of symptom severity to support initiating NIV if FVC>80% have not yet been adopted (Morgenthaler TI, et al. Chest. 2021;160[5]:e419). Without marked spirometric restriction or hypercapnia, most patients must fail conservative PAP therapy prior to escalation to NIV, and initiation of a backup rate remains debated. Nevertheless, the only large case series evaluating the predominant features of polysomnography in UDP suggests high incidence of central apneas, suggesting a backup rate may indeed be required independent of the need to support neuromuscular function (Singh M, et al. Can J Anesthesiology. 2021;68[7]:1064). Further assessment of the features, needs, and understanding of the natural trajectory is essential to guide approach to sleep-related hypoventilation in UDP.
Landy V. Luna Diaz
Section Fellow-in-Training
Bethany L. Lussier, MD, FCCP
Section Member-at-Large
Sleep Medicine Network
Home-Based Mechanical Ventilation & Neuromuscular Disease Section
The diaphragm plays a key a role in respiratory mechanics, particularly during the inspiratory cycle. Unilateral diaphragm paralysis (UDP) from traumatic, compressive, inflammatory, neuropathic, or iatrogenic phrenic nerve injury presents with exertional dyspnea or orthopnea, though more severe cases may present with hypoventilation, hypercapnia, and daytime fatigue. Diagnostic workup requires evaluation beyond radiography to determine if diaphragm elevation indicates paralysis with or without paradox. Severity of symptoms and degree of impairment do not consistently correlate with fluoroscopic/ultrasound findings during sniff maneuver, degree of restriction by spirometry, or supine forces. Compensatory accessory muscle use during daytime breathing can mask symptoms, and there can be severe nocturnal hypoventilation related to UDP.
For symptomatic patients, treatment recommendations require understanding of the etiology and the likelihood of resolution vs progression, or association with progressive systemic conditions. Nighttime noninvasive ventilation (NIV) is considered useful since diaphragmatic weakness worsens in supine position, and hypoventilation during REM sleep without accessory muscle support is exacerbated (Steier J, et al. Eur Respir J. 2008;32[6]:1479). However, evidence for NIV in UDP remains low quality. NIV has been proposed for ventilatory support particularly when hypercapnia is present (Wiebel M, et al. Med Klin. 1995;90[1 Suppl 1]:20). For patients with progressive neuromuscular conditions, NIV with a backup rate is strongly recommended (Steindor M, et al. Respir Care. 2021;66[3]:410; Benditt JO. Respir Care. 2019;64[6]:679), but access to respiratory assist devices is limited for isolated UDP under current reimbursement algorithms without demonstrable hypercapnia or significant restrictive spirometry. The recent ONMAP recommendations calling for use of symptom severity to support initiating NIV if FVC>80% have not yet been adopted (Morgenthaler TI, et al. Chest. 2021;160[5]:e419). Without marked spirometric restriction or hypercapnia, most patients must fail conservative PAP therapy prior to escalation to NIV, and initiation of a backup rate remains debated. Nevertheless, the only large case series evaluating the predominant features of polysomnography in UDP suggests high incidence of central apneas, suggesting a backup rate may indeed be required independent of the need to support neuromuscular function (Singh M, et al. Can J Anesthesiology. 2021;68[7]:1064). Further assessment of the features, needs, and understanding of the natural trajectory is essential to guide approach to sleep-related hypoventilation in UDP.
Landy V. Luna Diaz
Section Fellow-in-Training
Bethany L. Lussier, MD, FCCP
Section Member-at-Large
Sleep Medicine Network
Home-Based Mechanical Ventilation & Neuromuscular Disease Section
The diaphragm plays a key a role in respiratory mechanics, particularly during the inspiratory cycle. Unilateral diaphragm paralysis (UDP) from traumatic, compressive, inflammatory, neuropathic, or iatrogenic phrenic nerve injury presents with exertional dyspnea or orthopnea, though more severe cases may present with hypoventilation, hypercapnia, and daytime fatigue. Diagnostic workup requires evaluation beyond radiography to determine if diaphragm elevation indicates paralysis with or without paradox. Severity of symptoms and degree of impairment do not consistently correlate with fluoroscopic/ultrasound findings during sniff maneuver, degree of restriction by spirometry, or supine forces. Compensatory accessory muscle use during daytime breathing can mask symptoms, and there can be severe nocturnal hypoventilation related to UDP.
For symptomatic patients, treatment recommendations require understanding of the etiology and the likelihood of resolution vs progression, or association with progressive systemic conditions. Nighttime noninvasive ventilation (NIV) is considered useful since diaphragmatic weakness worsens in supine position, and hypoventilation during REM sleep without accessory muscle support is exacerbated (Steier J, et al. Eur Respir J. 2008;32[6]:1479). However, evidence for NIV in UDP remains low quality. NIV has been proposed for ventilatory support particularly when hypercapnia is present (Wiebel M, et al. Med Klin. 1995;90[1 Suppl 1]:20). For patients with progressive neuromuscular conditions, NIV with a backup rate is strongly recommended (Steindor M, et al. Respir Care. 2021;66[3]:410; Benditt JO. Respir Care. 2019;64[6]:679), but access to respiratory assist devices is limited for isolated UDP under current reimbursement algorithms without demonstrable hypercapnia or significant restrictive spirometry. The recent ONMAP recommendations calling for use of symptom severity to support initiating NIV if FVC>80% have not yet been adopted (Morgenthaler TI, et al. Chest. 2021;160[5]:e419). Without marked spirometric restriction or hypercapnia, most patients must fail conservative PAP therapy prior to escalation to NIV, and initiation of a backup rate remains debated. Nevertheless, the only large case series evaluating the predominant features of polysomnography in UDP suggests high incidence of central apneas, suggesting a backup rate may indeed be required independent of the need to support neuromuscular function (Singh M, et al. Can J Anesthesiology. 2021;68[7]:1064). Further assessment of the features, needs, and understanding of the natural trajectory is essential to guide approach to sleep-related hypoventilation in UDP.
Landy V. Luna Diaz
Section Fellow-in-Training
Bethany L. Lussier, MD, FCCP
Section Member-at-Large
Challenges in developing effective treatments for idiopathic pulmonary fibrosis: Lessons from the ISABELA trials
Diffuse Lung Disease & Lung Transplant Network
Interstitial Lung Disease Section
Idiopathic pulmonary fibrosis (IPF) is a fatal lung disease that affects an estimated 100,000 people in the United States alone. Despite the availability of two approved antifibrotic drugs, nintedanib and pirfenidone, there is still a need for effective treatments to improve patient outcomes.
The ISABELA 1 and 2 trials were two Phase III clinical trials designed to evaluate ziritaxestat, a novel autotaxin inhibitor, in patients with IPF. Unfortunately, both trials were terminated early after an interim analysis revealed a lack of efficacy and safety concerns. Specifically, neither dose of ziritaxestat showed any benefit on the rate of decline for FVC over 52 weeks. Moreover, the treatment with ziritaxestat showed no benefit on the reported secondary outcomes. Patients in the ziritaxestat groups experienced worse outcomes in terms of time to first respiratory- related hospitalization, respiratory- related mortality, and first acute IPF exacerbation. Pooled data for both trials showed higher all-cause mortality for the ziritaxestat groups in relation to placebo (Maher T, et al. JAMA. 2023;329[18]:1567).
These disappointing results highlight the challenges of developing effective treatments for IPF. The complexity of IPF as a disease, with multiple pathways contributing to its pathogenesis, makes it difficult to identify effective therapeutic targets. In addition, clinical trials for new treatments must also account for the availability of approved antifibrotic therapies, which creates an added challenge for clinical trial design.
Matthew Huang, MD
Section Fellow-in-Training
Brad Bemiss, MD
Section Member-at-Large
Diffuse Lung Disease & Lung Transplant Network
Interstitial Lung Disease Section
Idiopathic pulmonary fibrosis (IPF) is a fatal lung disease that affects an estimated 100,000 people in the United States alone. Despite the availability of two approved antifibrotic drugs, nintedanib and pirfenidone, there is still a need for effective treatments to improve patient outcomes.
The ISABELA 1 and 2 trials were two Phase III clinical trials designed to evaluate ziritaxestat, a novel autotaxin inhibitor, in patients with IPF. Unfortunately, both trials were terminated early after an interim analysis revealed a lack of efficacy and safety concerns. Specifically, neither dose of ziritaxestat showed any benefit on the rate of decline for FVC over 52 weeks. Moreover, the treatment with ziritaxestat showed no benefit on the reported secondary outcomes. Patients in the ziritaxestat groups experienced worse outcomes in terms of time to first respiratory- related hospitalization, respiratory- related mortality, and first acute IPF exacerbation. Pooled data for both trials showed higher all-cause mortality for the ziritaxestat groups in relation to placebo (Maher T, et al. JAMA. 2023;329[18]:1567).
These disappointing results highlight the challenges of developing effective treatments for IPF. The complexity of IPF as a disease, with multiple pathways contributing to its pathogenesis, makes it difficult to identify effective therapeutic targets. In addition, clinical trials for new treatments must also account for the availability of approved antifibrotic therapies, which creates an added challenge for clinical trial design.
Matthew Huang, MD
Section Fellow-in-Training
Brad Bemiss, MD
Section Member-at-Large
Diffuse Lung Disease & Lung Transplant Network
Interstitial Lung Disease Section
Idiopathic pulmonary fibrosis (IPF) is a fatal lung disease that affects an estimated 100,000 people in the United States alone. Despite the availability of two approved antifibrotic drugs, nintedanib and pirfenidone, there is still a need for effective treatments to improve patient outcomes.
The ISABELA 1 and 2 trials were two Phase III clinical trials designed to evaluate ziritaxestat, a novel autotaxin inhibitor, in patients with IPF. Unfortunately, both trials were terminated early after an interim analysis revealed a lack of efficacy and safety concerns. Specifically, neither dose of ziritaxestat showed any benefit on the rate of decline for FVC over 52 weeks. Moreover, the treatment with ziritaxestat showed no benefit on the reported secondary outcomes. Patients in the ziritaxestat groups experienced worse outcomes in terms of time to first respiratory- related hospitalization, respiratory- related mortality, and first acute IPF exacerbation. Pooled data for both trials showed higher all-cause mortality for the ziritaxestat groups in relation to placebo (Maher T, et al. JAMA. 2023;329[18]:1567).
These disappointing results highlight the challenges of developing effective treatments for IPF. The complexity of IPF as a disease, with multiple pathways contributing to its pathogenesis, makes it difficult to identify effective therapeutic targets. In addition, clinical trials for new treatments must also account for the availability of approved antifibrotic therapies, which creates an added challenge for clinical trial design.
Matthew Huang, MD
Section Fellow-in-Training
Brad Bemiss, MD
Section Member-at-Large
Transitioning from pediatric to adult care
Airways Disorders Network
Pediatric Chest Medicine Section
For young adults with chronic health conditions, the process of transitioning to adult health care is complicated, resulting in frustration for patients and families, and clinicians, as well as increased morbidity and mortality (Varty et al. J Pediatr Nurs. 2020;55:201). As such, there have been efforts to determine practices that can minimize risk and improve satisfaction with the transition process.
The National Alliance to Advance Adolescent Health developed the “Got Transition” program with input from pediatric and adult clinicians, as well as patient advocates (White, et al. Six Core Elements of Health Care Transition™ 3.0. Washington, DC: Got Transition, The National Alliance to Advance Adolescent Health, July 2020). CF R.I.S.E is a similar program aimed specifically at improving the transition to adult care among patients with cystic fibrosis (www.cfrise.com). Got Transition provides the following recommendations pertinent to both pediatric and adult providers.
Pediatric clinics should start to assess transition readiness in early adolescence, and provide training pertinent to any skill gaps identified. This may include knowledge about condition-specific self-care skills, as well as navigation of the health care system. An individualized plan can then be developed, including timing of transition and identification of an appropriate adult provider.
The transfer should include communication between the pediatric and adult care providers prior to and, if needed, after the patient’s first appointment with the adult provider. Adult clinics can enhance the transition process by establishing a method to welcome transitioning young adult patients and orient them to the practice, addressing patient concerns regarding the transition, and assessing the patients’ self-management skills with resources provided, as needed.
Both pediatric and adult providers have a role in helping patients transition safely and smoothly from pediatric to adult care.
Sarah Cohen, MD
Section Fellow-in-Training
Airways Disorders Network
Pediatric Chest Medicine Section
For young adults with chronic health conditions, the process of transitioning to adult health care is complicated, resulting in frustration for patients and families, and clinicians, as well as increased morbidity and mortality (Varty et al. J Pediatr Nurs. 2020;55:201). As such, there have been efforts to determine practices that can minimize risk and improve satisfaction with the transition process.
The National Alliance to Advance Adolescent Health developed the “Got Transition” program with input from pediatric and adult clinicians, as well as patient advocates (White, et al. Six Core Elements of Health Care Transition™ 3.0. Washington, DC: Got Transition, The National Alliance to Advance Adolescent Health, July 2020). CF R.I.S.E is a similar program aimed specifically at improving the transition to adult care among patients with cystic fibrosis (www.cfrise.com). Got Transition provides the following recommendations pertinent to both pediatric and adult providers.
Pediatric clinics should start to assess transition readiness in early adolescence, and provide training pertinent to any skill gaps identified. This may include knowledge about condition-specific self-care skills, as well as navigation of the health care system. An individualized plan can then be developed, including timing of transition and identification of an appropriate adult provider.
The transfer should include communication between the pediatric and adult care providers prior to and, if needed, after the patient’s first appointment with the adult provider. Adult clinics can enhance the transition process by establishing a method to welcome transitioning young adult patients and orient them to the practice, addressing patient concerns regarding the transition, and assessing the patients’ self-management skills with resources provided, as needed.
Both pediatric and adult providers have a role in helping patients transition safely and smoothly from pediatric to adult care.
Sarah Cohen, MD
Section Fellow-in-Training
Airways Disorders Network
Pediatric Chest Medicine Section
For young adults with chronic health conditions, the process of transitioning to adult health care is complicated, resulting in frustration for patients and families, and clinicians, as well as increased morbidity and mortality (Varty et al. J Pediatr Nurs. 2020;55:201). As such, there have been efforts to determine practices that can minimize risk and improve satisfaction with the transition process.
The National Alliance to Advance Adolescent Health developed the “Got Transition” program with input from pediatric and adult clinicians, as well as patient advocates (White, et al. Six Core Elements of Health Care Transition™ 3.0. Washington, DC: Got Transition, The National Alliance to Advance Adolescent Health, July 2020). CF R.I.S.E is a similar program aimed specifically at improving the transition to adult care among patients with cystic fibrosis (www.cfrise.com). Got Transition provides the following recommendations pertinent to both pediatric and adult providers.
Pediatric clinics should start to assess transition readiness in early adolescence, and provide training pertinent to any skill gaps identified. This may include knowledge about condition-specific self-care skills, as well as navigation of the health care system. An individualized plan can then be developed, including timing of transition and identification of an appropriate adult provider.
The transfer should include communication between the pediatric and adult care providers prior to and, if needed, after the patient’s first appointment with the adult provider. Adult clinics can enhance the transition process by establishing a method to welcome transitioning young adult patients and orient them to the practice, addressing patient concerns regarding the transition, and assessing the patients’ self-management skills with resources provided, as needed.
Both pediatric and adult providers have a role in helping patients transition safely and smoothly from pediatric to adult care.
Sarah Cohen, MD
Section Fellow-in-Training
CHEST journal CME program designed to reinforce key points in research
If you’re a regular reader of the journal CHEST®, you may have noticed an exciting new initiative for clinicians looking to enhance their understanding of the latest advances in research, improve their clinical knowledge, and earn credits toward certification: the opportunity to earn continuing medical education (CME) credits from monthly journal issues. Launched in late 2022, this new initiative was inspired by the desire to complement the excellent clinical work already being done by readers of the journal.
“Essentially, the idea was that CHEST journal readers are doing the work to keep themselves current and stay excellent doctors, and they should get credit for that work,” said Amy Morris, MD, FCCP, Chair of the CHEST Journal CME Editorial Board. “We all have to do CME, so why not get some credit for the reading that we do on a regular basis to stay current, and add some additional value for journal readers?”
But the initiative isn’t just an opportunity to offer free credits.
“We try to rotate topics month to month, but more than that, we look for articles that either have a broad impact on current clinical practice for a lot of providers, or convey some particular new interest – a way for our readers to learn about something new and interesting,” she said. “We avoid trivia, essentially “gotcha” questions that simply ensure you read the article, but rather focus on questions that reinforce key points in the article.”
To ensure the content covers a wide breadth of topics, the CME Editorial Board – comprising leaders from pulmonary, critical care, and sleep medicine to ensure the process meets a high clinical standard – reviews articles that are slated for publication monthly and selects one or more manuscripts with impactful findings. Once the articles are selected, they are sent to a cohort of experienced question writers sourced from the Network specialty areas within CHEST to draft clinically relevant questions. The final questions and answers then are returned to the Board for a careful review of their accuracy, quality, and relevancy.
Readers can visit chestnet.org/journalcme every month to see a new selection of CME-eligible articles and access questions from past issues – an offering that will only grow more robust as the initiative progresses.
“We have a regularly accumulating collection of questions such that folks who read the journal every month will always have questions to answer, and those who prefer to do some reading and CME acquisition in bulk can find a rich database of useful, interesting articles that maybe they didn’t have a chance to read when they first came out,” said Dr. Morris.
As the initiative evolves, so too will the content selected and the questions offered – a process readers will have an integral role in guiding. After answering the questions, readers will have the opportunity to provide feedback on whether the activity achieved its learning objectives, future topics to cover, and more.
Although the initiative will evolve with this feedback, said Dr. Morris, one thing remains constant: the commitment of the team developing these resources to their fellow clinicians. “We couldn’t do this without a dedicated team and a lot of volunteer time from individuals who really care about education and clinical practice, and making the literature relevant to clinical practice. It takes a lot of time and effort, and I so appreciate the work those individuals are doing.”
To access the latest CME-eligible research, and review past questions, visit chestnet.org/journalcme.
If you’re a regular reader of the journal CHEST®, you may have noticed an exciting new initiative for clinicians looking to enhance their understanding of the latest advances in research, improve their clinical knowledge, and earn credits toward certification: the opportunity to earn continuing medical education (CME) credits from monthly journal issues. Launched in late 2022, this new initiative was inspired by the desire to complement the excellent clinical work already being done by readers of the journal.
“Essentially, the idea was that CHEST journal readers are doing the work to keep themselves current and stay excellent doctors, and they should get credit for that work,” said Amy Morris, MD, FCCP, Chair of the CHEST Journal CME Editorial Board. “We all have to do CME, so why not get some credit for the reading that we do on a regular basis to stay current, and add some additional value for journal readers?”
But the initiative isn’t just an opportunity to offer free credits.
“We try to rotate topics month to month, but more than that, we look for articles that either have a broad impact on current clinical practice for a lot of providers, or convey some particular new interest – a way for our readers to learn about something new and interesting,” she said. “We avoid trivia, essentially “gotcha” questions that simply ensure you read the article, but rather focus on questions that reinforce key points in the article.”
To ensure the content covers a wide breadth of topics, the CME Editorial Board – comprising leaders from pulmonary, critical care, and sleep medicine to ensure the process meets a high clinical standard – reviews articles that are slated for publication monthly and selects one or more manuscripts with impactful findings. Once the articles are selected, they are sent to a cohort of experienced question writers sourced from the Network specialty areas within CHEST to draft clinically relevant questions. The final questions and answers then are returned to the Board for a careful review of their accuracy, quality, and relevancy.
Readers can visit chestnet.org/journalcme every month to see a new selection of CME-eligible articles and access questions from past issues – an offering that will only grow more robust as the initiative progresses.
“We have a regularly accumulating collection of questions such that folks who read the journal every month will always have questions to answer, and those who prefer to do some reading and CME acquisition in bulk can find a rich database of useful, interesting articles that maybe they didn’t have a chance to read when they first came out,” said Dr. Morris.
As the initiative evolves, so too will the content selected and the questions offered – a process readers will have an integral role in guiding. After answering the questions, readers will have the opportunity to provide feedback on whether the activity achieved its learning objectives, future topics to cover, and more.
Although the initiative will evolve with this feedback, said Dr. Morris, one thing remains constant: the commitment of the team developing these resources to their fellow clinicians. “We couldn’t do this without a dedicated team and a lot of volunteer time from individuals who really care about education and clinical practice, and making the literature relevant to clinical practice. It takes a lot of time and effort, and I so appreciate the work those individuals are doing.”
To access the latest CME-eligible research, and review past questions, visit chestnet.org/journalcme.
If you’re a regular reader of the journal CHEST®, you may have noticed an exciting new initiative for clinicians looking to enhance their understanding of the latest advances in research, improve their clinical knowledge, and earn credits toward certification: the opportunity to earn continuing medical education (CME) credits from monthly journal issues. Launched in late 2022, this new initiative was inspired by the desire to complement the excellent clinical work already being done by readers of the journal.
“Essentially, the idea was that CHEST journal readers are doing the work to keep themselves current and stay excellent doctors, and they should get credit for that work,” said Amy Morris, MD, FCCP, Chair of the CHEST Journal CME Editorial Board. “We all have to do CME, so why not get some credit for the reading that we do on a regular basis to stay current, and add some additional value for journal readers?”
But the initiative isn’t just an opportunity to offer free credits.
“We try to rotate topics month to month, but more than that, we look for articles that either have a broad impact on current clinical practice for a lot of providers, or convey some particular new interest – a way for our readers to learn about something new and interesting,” she said. “We avoid trivia, essentially “gotcha” questions that simply ensure you read the article, but rather focus on questions that reinforce key points in the article.”
To ensure the content covers a wide breadth of topics, the CME Editorial Board – comprising leaders from pulmonary, critical care, and sleep medicine to ensure the process meets a high clinical standard – reviews articles that are slated for publication monthly and selects one or more manuscripts with impactful findings. Once the articles are selected, they are sent to a cohort of experienced question writers sourced from the Network specialty areas within CHEST to draft clinically relevant questions. The final questions and answers then are returned to the Board for a careful review of their accuracy, quality, and relevancy.
Readers can visit chestnet.org/journalcme every month to see a new selection of CME-eligible articles and access questions from past issues – an offering that will only grow more robust as the initiative progresses.
“We have a regularly accumulating collection of questions such that folks who read the journal every month will always have questions to answer, and those who prefer to do some reading and CME acquisition in bulk can find a rich database of useful, interesting articles that maybe they didn’t have a chance to read when they first came out,” said Dr. Morris.
As the initiative evolves, so too will the content selected and the questions offered – a process readers will have an integral role in guiding. After answering the questions, readers will have the opportunity to provide feedback on whether the activity achieved its learning objectives, future topics to cover, and more.
Although the initiative will evolve with this feedback, said Dr. Morris, one thing remains constant: the commitment of the team developing these resources to their fellow clinicians. “We couldn’t do this without a dedicated team and a lot of volunteer time from individuals who really care about education and clinical practice, and making the literature relevant to clinical practice. It takes a lot of time and effort, and I so appreciate the work those individuals are doing.”
To access the latest CME-eligible research, and review past questions, visit chestnet.org/journalcme.
CHEST 2023 Master Classes offer advanced learning from big names in chest medicine
Maximize your learning experiences at CHEST 2023 (October 8-11 in Hawai’i) by attending a Master Class. Taking place before and after the annual meeting, these advanced-level courses on October 7, 12, and 13 will give you a deep dive into specific clinical areas with the guidance of distinguished faculty.
Faculty will explore complex topics, and you will have the opportunity to participate in intensive case-based discussions with master clinicians.
“At CHEST, we’re always looking for ways to tailor the learning experience for the folks who come to the annual meeting. These Master Classes will be particularly useful for seasoned providers who are looking for a challenging education experience,” said Education Committee Chair, Amy E. Morris, MD, FCCP.
These classes will have some didactic elements, but a lot of time will be spent reviewing challenging cases that aren’t easily addressed by guidelines or a quick read of the literature and will go beyond what’s easily found online.
“Master Classes will focus on deeper-dive learning, in-depth pathophysiology and research, and conversational, interactive discussions,” Dr. Morris said.
She encourages everyone to seize the opportunity to attend these classes taught by “true masters of clinical medicine” in Hawai’i after years of strictly virtual learning that didn’t allow for as much interactivity.
“That’s why we’re in medicine – to learn from each other. This is an opportunity not just to learn facts or new ways of doing things, but a chance to interact on a personal level with providers from around the globe and master clinicians who are not always available to us in person,” she said. “In an increasingly digital world, an opportunity like this is harder to come by these days.”
Make the most of your trip to Hawai’i with advanced learning taught by highly regarded speakers. Take a look at the Master Classes available to you this year, and add a course to your meeting registration. For more information on CHEST 2023 educational offerings, browse the preliminary program at chestmeeting.chestnet.org.
October 7 (held in Honolulu on O’ahu)
How I Do It – Challenging Cases in Sleep Medicine
Faculty: Babak Mokhlesi, MD, FCCP; Timothy Morgenthaler, MD, FCCP; Lauren A. Tobias, MD, FCCP; and Lisa F. Wolfe, MD.
Interstitial Lung Disease
Faculty: Ayodeji Adegunsoye, MD, FCCP; Jonathan H. Chung, MD; Tejaswini Kulkarni, MD, MBBS, FCCP; Ganesh Raghu, MD; and Mary Beth Scholand, MD, FCCP.
Advances in Lung Cancer – Rocketing Forward With the Cancer Moonshot
Faculty: A. Christine Argento, MD, FCCP; Frank C. Detterbeck, MD, FCCP; Gerard A. Silvestri, MD, Master FCCP; and Lynn T. Tanoue, MD, FCCP.
Pulmonary Hypertension – Expert Didactics and Discussion
Faculty: Jean M. Elwing, MD, FCCP; Peter Leary, MD, PhD; and Namita Sood, MBBCh, FCCP.
October 12-13 (held in Wailea on Maui)
2023 Pulmonary Literature Review and Complex Case Presentations – An Interactive Course With the Masters in Pulmonology
Faculty: Doreen Addrizzo-Harris, MD, FCCP; Kevin M. Chan, MD, FCCP; Stephanie M. Levine, MD, FCCP; Diego J. Maselli, MD, FCCP; Marcos I. Restrepo, MD, PhD, FCCP; Linda Rogers, MD, FCCP; Gerard A. Silvestri, MD, Master FCCP; and David J. Steiger, MBChB, FCCP.
Avoiding Catastrophic Crisis in the ICU and Mastering Critical Care
Faculty: Kristin Burkart, MD, MS, FCCP; David Janz, MD; Patricia A. Kritek, MD; Matthew E. Prekker, MD; Nida Qadir, MD; Todd W. Rice, MD, FCCP; and Jonathan Sevransky, MD, FCCP.
CHEST 2023 hands-on and interactive learning opportunities
By experiencing the latest developments for yourself through several different kinds of interactive sessions, you’ll take home actionable information that you can apply directly to your patient care. Explore the many ticketed sessions available to add on to your CHEST 2023 registration.
Simulation sessions
Choose from 25 different sessions offering hands-on experience with procedures relevant to your clinical practice.
Problem-based learning sessions
Supplement your schedule with these unique sessions, where you’ll solve real-world clinical problems in small groups and refine your expertise on clinical topics.
Meet the Professor sessions
Connect with leading chest medicine experts during these limited-capacity discussions capped at 24 registrants per session.
Maximize your learning experiences at CHEST 2023 (October 8-11 in Hawai’i) by attending a Master Class. Taking place before and after the annual meeting, these advanced-level courses on October 7, 12, and 13 will give you a deep dive into specific clinical areas with the guidance of distinguished faculty.
Faculty will explore complex topics, and you will have the opportunity to participate in intensive case-based discussions with master clinicians.
“At CHEST, we’re always looking for ways to tailor the learning experience for the folks who come to the annual meeting. These Master Classes will be particularly useful for seasoned providers who are looking for a challenging education experience,” said Education Committee Chair, Amy E. Morris, MD, FCCP.
These classes will have some didactic elements, but a lot of time will be spent reviewing challenging cases that aren’t easily addressed by guidelines or a quick read of the literature and will go beyond what’s easily found online.
“Master Classes will focus on deeper-dive learning, in-depth pathophysiology and research, and conversational, interactive discussions,” Dr. Morris said.
She encourages everyone to seize the opportunity to attend these classes taught by “true masters of clinical medicine” in Hawai’i after years of strictly virtual learning that didn’t allow for as much interactivity.
“That’s why we’re in medicine – to learn from each other. This is an opportunity not just to learn facts or new ways of doing things, but a chance to interact on a personal level with providers from around the globe and master clinicians who are not always available to us in person,” she said. “In an increasingly digital world, an opportunity like this is harder to come by these days.”
Make the most of your trip to Hawai’i with advanced learning taught by highly regarded speakers. Take a look at the Master Classes available to you this year, and add a course to your meeting registration. For more information on CHEST 2023 educational offerings, browse the preliminary program at chestmeeting.chestnet.org.
October 7 (held in Honolulu on O’ahu)
How I Do It – Challenging Cases in Sleep Medicine
Faculty: Babak Mokhlesi, MD, FCCP; Timothy Morgenthaler, MD, FCCP; Lauren A. Tobias, MD, FCCP; and Lisa F. Wolfe, MD.
Interstitial Lung Disease
Faculty: Ayodeji Adegunsoye, MD, FCCP; Jonathan H. Chung, MD; Tejaswini Kulkarni, MD, MBBS, FCCP; Ganesh Raghu, MD; and Mary Beth Scholand, MD, FCCP.
Advances in Lung Cancer – Rocketing Forward With the Cancer Moonshot
Faculty: A. Christine Argento, MD, FCCP; Frank C. Detterbeck, MD, FCCP; Gerard A. Silvestri, MD, Master FCCP; and Lynn T. Tanoue, MD, FCCP.
Pulmonary Hypertension – Expert Didactics and Discussion
Faculty: Jean M. Elwing, MD, FCCP; Peter Leary, MD, PhD; and Namita Sood, MBBCh, FCCP.
October 12-13 (held in Wailea on Maui)
2023 Pulmonary Literature Review and Complex Case Presentations – An Interactive Course With the Masters in Pulmonology
Faculty: Doreen Addrizzo-Harris, MD, FCCP; Kevin M. Chan, MD, FCCP; Stephanie M. Levine, MD, FCCP; Diego J. Maselli, MD, FCCP; Marcos I. Restrepo, MD, PhD, FCCP; Linda Rogers, MD, FCCP; Gerard A. Silvestri, MD, Master FCCP; and David J. Steiger, MBChB, FCCP.
Avoiding Catastrophic Crisis in the ICU and Mastering Critical Care
Faculty: Kristin Burkart, MD, MS, FCCP; David Janz, MD; Patricia A. Kritek, MD; Matthew E. Prekker, MD; Nida Qadir, MD; Todd W. Rice, MD, FCCP; and Jonathan Sevransky, MD, FCCP.
CHEST 2023 hands-on and interactive learning opportunities
By experiencing the latest developments for yourself through several different kinds of interactive sessions, you’ll take home actionable information that you can apply directly to your patient care. Explore the many ticketed sessions available to add on to your CHEST 2023 registration.
Simulation sessions
Choose from 25 different sessions offering hands-on experience with procedures relevant to your clinical practice.
Problem-based learning sessions
Supplement your schedule with these unique sessions, where you’ll solve real-world clinical problems in small groups and refine your expertise on clinical topics.
Meet the Professor sessions
Connect with leading chest medicine experts during these limited-capacity discussions capped at 24 registrants per session.
Maximize your learning experiences at CHEST 2023 (October 8-11 in Hawai’i) by attending a Master Class. Taking place before and after the annual meeting, these advanced-level courses on October 7, 12, and 13 will give you a deep dive into specific clinical areas with the guidance of distinguished faculty.
Faculty will explore complex topics, and you will have the opportunity to participate in intensive case-based discussions with master clinicians.
“At CHEST, we’re always looking for ways to tailor the learning experience for the folks who come to the annual meeting. These Master Classes will be particularly useful for seasoned providers who are looking for a challenging education experience,” said Education Committee Chair, Amy E. Morris, MD, FCCP.
These classes will have some didactic elements, but a lot of time will be spent reviewing challenging cases that aren’t easily addressed by guidelines or a quick read of the literature and will go beyond what’s easily found online.
“Master Classes will focus on deeper-dive learning, in-depth pathophysiology and research, and conversational, interactive discussions,” Dr. Morris said.
She encourages everyone to seize the opportunity to attend these classes taught by “true masters of clinical medicine” in Hawai’i after years of strictly virtual learning that didn’t allow for as much interactivity.
“That’s why we’re in medicine – to learn from each other. This is an opportunity not just to learn facts or new ways of doing things, but a chance to interact on a personal level with providers from around the globe and master clinicians who are not always available to us in person,” she said. “In an increasingly digital world, an opportunity like this is harder to come by these days.”
Make the most of your trip to Hawai’i with advanced learning taught by highly regarded speakers. Take a look at the Master Classes available to you this year, and add a course to your meeting registration. For more information on CHEST 2023 educational offerings, browse the preliminary program at chestmeeting.chestnet.org.
October 7 (held in Honolulu on O’ahu)
How I Do It – Challenging Cases in Sleep Medicine
Faculty: Babak Mokhlesi, MD, FCCP; Timothy Morgenthaler, MD, FCCP; Lauren A. Tobias, MD, FCCP; and Lisa F. Wolfe, MD.
Interstitial Lung Disease
Faculty: Ayodeji Adegunsoye, MD, FCCP; Jonathan H. Chung, MD; Tejaswini Kulkarni, MD, MBBS, FCCP; Ganesh Raghu, MD; and Mary Beth Scholand, MD, FCCP.
Advances in Lung Cancer – Rocketing Forward With the Cancer Moonshot
Faculty: A. Christine Argento, MD, FCCP; Frank C. Detterbeck, MD, FCCP; Gerard A. Silvestri, MD, Master FCCP; and Lynn T. Tanoue, MD, FCCP.
Pulmonary Hypertension – Expert Didactics and Discussion
Faculty: Jean M. Elwing, MD, FCCP; Peter Leary, MD, PhD; and Namita Sood, MBBCh, FCCP.
October 12-13 (held in Wailea on Maui)
2023 Pulmonary Literature Review and Complex Case Presentations – An Interactive Course With the Masters in Pulmonology
Faculty: Doreen Addrizzo-Harris, MD, FCCP; Kevin M. Chan, MD, FCCP; Stephanie M. Levine, MD, FCCP; Diego J. Maselli, MD, FCCP; Marcos I. Restrepo, MD, PhD, FCCP; Linda Rogers, MD, FCCP; Gerard A. Silvestri, MD, Master FCCP; and David J. Steiger, MBChB, FCCP.
Avoiding Catastrophic Crisis in the ICU and Mastering Critical Care
Faculty: Kristin Burkart, MD, MS, FCCP; David Janz, MD; Patricia A. Kritek, MD; Matthew E. Prekker, MD; Nida Qadir, MD; Todd W. Rice, MD, FCCP; and Jonathan Sevransky, MD, FCCP.
CHEST 2023 hands-on and interactive learning opportunities
By experiencing the latest developments for yourself through several different kinds of interactive sessions, you’ll take home actionable information that you can apply directly to your patient care. Explore the many ticketed sessions available to add on to your CHEST 2023 registration.
Simulation sessions
Choose from 25 different sessions offering hands-on experience with procedures relevant to your clinical practice.
Problem-based learning sessions
Supplement your schedule with these unique sessions, where you’ll solve real-world clinical problems in small groups and refine your expertise on clinical topics.
Meet the Professor sessions
Connect with leading chest medicine experts during these limited-capacity discussions capped at 24 registrants per session.