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  • CardioNerds (Dr. Rick Ferraro and Dr. Dan Ambinder) join Dr. Sri Mandava, Dr. David Meister, and Dr. Marissa Donatelle from the Columbia University Division of Cardiology at Mount Sinai Medical Center in Miami. Expert commentary is provided by Dr. Pranav Venkataraman.   They discuss the following case involving a patient with cardiac sarcoidosis presenting as STEMI: 













    A 57-year-old man with a history of hyperlipidemia presented with sudden onset chest pain. On admission, he was vitally stable with a normal cardiorespiratory exam but appeared in acute distress and was diffusely diaphoretic. His ECG revealed sinus rhythm, a right bundle branch block (RBBB), and ST elevation in the inferior-posterior leads. He was promptly taken for emergent cardiac catheterization, which identified a complete thrombotic occlusion of the mid-left circumflex artery (LCX) and large obtuse marginal (OM) branch, with no underlying coronary atherosclerotic disease. Aspiration thrombectomy and percutaneous coronary intervention (PCI) were performed, with one drug-eluting stent placed. An echocardiogram showed a left ventricular ejection fraction (EF) of 31%, hypokinesis of the inferior, lateral, and apical regions, and an apical left ventricular thrombus. The patient was started on triple therapy. A hypercoagulable workup was negative. A cardiac MRI was obtained to further evaluate non-ischemic cardiomyopathy. In conjunction with a subsequent CT chest, the results raised suspicion for cardiac sarcoidosis with systemic involvement. In view of a reduced EF and significant late-gadolinium enhancement, electrophysiology was consulted to evaluate for ICD candidacy. A decision was made to delay ICD implantation until a definitive diagnosis of cardiac sarcoidosis could be established by tissue biopsy. The patient was started on HF-GDMT and discharged with a LifeVest. Close outpatient follow-up with cardiology and electrophysiology was arranged. 







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    Pearls - Cardiac Sarcoidosis Presenting as STEMI




    Cardiac sarcoidosis can present with a variety of symptoms, including arrhythmias, heart block, heart failure, or sudden cardiac death. Symptoms can be subtle or mimic other cardiac conditions. 



    Conduction abnormalities, particularly AV block or ventricular arrhythmias, are common and may be the initial indication of cardiac involvement with sarcoidosis. 



    The additive value of Echocardiography, FDG-PET, and cardiac MR is indispensable in the diagnostic workup of suspected cardiac sarcoidosis. 



    Specific role of MRI/PET: Both cardiac MRI and FDG-PET provide a complementary role in the diagnosis of cardiac sarcoidosis. Cardiac MRI is an effective diagnostic screening tool with fairly high sensitivity but is limited by its inability to decipher inflammatory (“active” disease) versus fibrotic myocardium. FDG-PT helps to make this discrimination, refine the diagnosis, and guide clinical management. Ultimately, these studies are most useful when interpreted in the context of other clinical information. 



    Primary prevention of sudden cardiac death in cardiac sarcoidosis focuses on risk stratification, with ICD placement for high-risk patients. For patients awaiting definitive diagnosis, a LifeVest may be used as a temporary measure to protect from sudden arrhythmic events until an ICD is placed. 








    Notes - Cardiac Sarcoidosis Presenting as STEMI



    1. Is STEMI always a result of coronary artery disease? 



    By definition, a STEMI is an acute S-T segment elevation myocardial infarction. This occurs when there is occlusion of a major coronary artery, which results in transmural ischemia and damage,

  • CardioNerds Cardiac Amyloidosis Series Chair Dr. Rick Ferraro and Episode Lead Dr. Anna Radakrishnan discuss the biology of transthyretin amyloid cardiomyopathy (ATTR-CM ) with Dr. Daniel Judge.  Notes were drafted by Dr. Anna Radakrishnan. The audio was engineered by student Dr. Julia Marques. 













    This episode provides a comprehensive overview of transthyretin (ATTR) cardiac amyloidosis, a complex and rapidly evolving disease process. The discussion covers the key red flags for cardiac amyloidosis, the diagnostic pathway, and the implications of hereditary versus wild-type ATTR. Importantly, the episode delves into the current and emerging therapies for ATTR, including stabilizers, gene silencers, and promising treatments like CRISPR-Cas9 and antibody-based approaches. Dr. Judge shares his insights and excitement about the rapidly advancing field, highlighting the need for early diagnosis and the potential to improve long-term outcomes for patients with this condition. 



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    Pearls: - Biology of Transthyretin amyloid cardiomyopathy




    Maintain a high index of suspicion! Look for subtle (yet telling) signs like ventricular hypertrophy, discordant EKG findings, bilateral carpal tunnel syndrome, and spontaneous biceps tendon rupture. 





    Utilize the right diagnostic tests. Endomyocardial biopsy remains the gold standard, but non-invasive tools like PYP scan with SPECT imaging and genetic testing are essential for accurate diagnosis. 





    Differentiating hereditary from wild-type ATTR is critical, as genetic forms may have a more aggressive course and familial implications. 





    Early diagnosis and intervention significantly improve prognosis, making vigilance in screening and prompt treatment initiation essential. 





    The future is now! Cutting-edge therapies are transforming the treatment landscape, including TTR stabilizers, gene silencers, and emerging technologies like CRISPR-Cas9 and antibody-based treatments. 








    Notes - Biology of Transthyretin amyloid cardiomyopathy




    What is transthyretin amyloid (aTTR) and how is it derived? 





    Transthyretin (TTR) is a transport protein primarily synthesized by the liver, responsible for carrying thyroid hormones (thyroxine) and retinol (vitamin A) in the blood. It circulates as a tetramer, composed of four identical monomers, which is essential for its stability and function. 





    In transthyretin amyloid (ATTR) amyloidosis, the TTR protein becomes unstable, leading to its dissociation into monomers. These monomers misfold and aggregate into insoluble amyloid fibrils, which deposit extracellularly in tissues such as the heart, nerves, and gastrointestinal tract. This progressive amyloid deposition leads to organ dysfunction, including restrictive cardiomyopathy and neuropathy. 





    There are two main forms of ATTR amyloidosis: hereditary (variant) and wild-type (senile) ATTR. 





    Hereditary ATTR (ATTRv) is caused by mutations in the TTR gene. These mutations destabilize the TTR tetramer, making it more prone to dissociation. This increases misfolding and amyloid fibril formation, resulting in systemic amyloid deposition.  





    Wild-type ATTR (ATTRwt) occurs without genetic mutations and is primarily age-related. Over time, even normal TTR tetramers can become unstable, leading to gradual misfolding and amyloid deposition, particularly in the heart. ATTRwt is a common but often underdiagnosed cause of heart failure with preserved ejection fraction (HFpEF) in elderly individuals. 





    How does aTTR lead to deleterious effects in the heart and other organ systems?   





    Transthyretin amyloidosis leads to organ dysfunction through the deposition of misfolded TTR protein as amyloid fib...

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  • Join CardioNerds EP Council Chair Dr. Naima Maqsood and Episode Lead Dr. Jeanne De Lavallaz as they discuss the results of the VANISH2 Trial with expert faculty Dr. Jeff Healey and Dr. Roderick Tung. Audio editing by CardioNerds academy intern, Grace Qiu.













    The VANISH2 trial enrolled 416 patients with ischemic cardiomyopathy, an ICD in place, and recurrent episodes of sustained monomorphic ventricular tachycardia (VT) to receive either first-line VT catheter ablation or antiarrhythmic drug therapy with the primary composite outcome of death from any cause, appropriate ICD shock, ventricular tachycardia storm (meaning at least 3 ventricular tachycardia events within 24hrs) or treated ventricular tachycardia below the detection limit of the ICD. The study population had a mean age of 68 years, with 94% being men and predominantly of white ethnicity. On average, 14 years had elapsed since their last myocardial infarction, with approximately 60% having undergone percutaneous coronary intervention at the time. The mean ejection fraction was 34%.



    This episode was planned in collaboration with Heart Rhythm TV with mentorship from Dr. Daniel Alyesh and Dr. Mehak Dhande.









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    References - VANISH2 Trial



    Sapp, J. L., Tang, A. S. L., Parkash, R., Stevenson, W. G., Healey, J. S., Gula, L. J., Nair, G. M., & the VANISH2 Study Team. (2025). Catheter ablation or antiarrhythmic drugs for ventricular tachycardia. The New England Journal of Medicine, 392, 737–747.

  • CardioNerds (Dr. Colin Blumenthal and Dr. Saahil Jumkhawala) join Dr. Rohan Ganti, Dr. Nikita Mishra, and Dr. Jorge Naranjo from the Rutgers – Robert Wood Johnson program for a college basketball game, as the buzz around campus is high. They discuss the following case involving a patient with ventricular tachycardia: 













    The case involves a 61-year-old man with a medical history of hypothyroidism, hypertension, hyperlipidemia, seizure disorder on anti-epileptic medications, and major depressive disorder, who presented to the ER following an out-of-hospital cardiac arrest. During hospitalization, he experienced refractory polymorphic ventricular tachycardia (VT), requiring 18 defibrillation shocks. Further evaluation revealed non-obstructive hypertrophic cardiomyopathy (HCM). We review the initial management of electrical storm, special ECG considerations, diagnostic approaches once ischemia has been excluded, medications implicated in polymorphic VT, the role of multi-modality imaging in diagnosing hypertrophic cardiomyopathy, and risk stratification for implantable cardioverter-defibrillator (ICD) placement in patients with HCM. 



    Expert commentary is provided by Dr. Sabahat Bokhari.   Episode audio was edited by CardioNerds Intern and student Dr. Pacey Wetstein.  







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    Pearls - A Curious Case of Refractory Ventricular Tachycardia - Rutgers-Robert Wood Johnson




    Diagnostic Uncertainty in VT Storm: In VT storm, ischemia is a primary consideration; when coronary angiography excludes significant epicardial disease, alternative causes such as cardiomyopathies, channelopathies, myocarditis, electrolyte disturbances, or drug-induced arrhythmias must be explored. 





    ST elevations in ECG lead aVR:  ST elevations in lead aVR and diffuse ST depressions can sometimes represent post-arrest oxygen demand and myocardial mismatch rather than an acute coronary syndrome. This pattern may occur in the context of polymorphic VT (PMVT), where myocardial oxygen demands outstrip supply, especially after an arrest. While these ECG changes could suggest myocardial ischemia, caution is needed, as they might not always indicate coronary pathology. However, PMVT generally should raise suspicion for underlying coronary disease and may warrant a coronary angiogram for further evaluation. 





    Medication Implications in PMVT and HCM: Certain medications, including psychotropic drugs (e.g., antidepressants, antipsychotics) and anti-epileptic drugs, can prolong the QT interval or interact with other drugs, thereby increasing the risk of polymorphic VT in patients with underlying conditions like HCM. Careful management of these medications is critical to avoid arrhythmic events in predisposed individuals. 





    Multi-Modality Imaging in HCM: Cardiac MRI with late gadolinium enhancement (LGE) is invaluable in assessing myocardial fibrosis, a key predictor of arrhythmic risk, and can guide decisions regarding ICD implantation. Echocardiography and contrast-enhanced CT can provide additional insights into structural abnormalities and risk assessment. 





    Polymorphic VT in Nonobstructive HCM: Polymorphic ventricular tachycardia (PMVT) can occur in nonobstructive hypertrophic cardiomyopathy due to myocardial fibrosis and disarray, even in the absence of significant late gadolinium enhancement and left ventricular outflow tract obstruction. 





    ICD Risk Stratification in HCM: Risk stratification for ICD placement in HCM includes assessment of clinical features such as family history of sudden cardiac death, history of unexplained syncope, presence of nonsustained VT on ambulatory monitoring,

  • Join CardioNerds EP Council Chair Dr. Naima Maqsood and Episode Lead Dr. Jeanne De Lavallaz as they discuss the results of the ARREST-AF Trial with expert faculty Dr. Prashanthan Sanders and Dr. Mehak Dhande. Audio editing by CardioNerds intern Bhavya Shah.













    The ARREST-AF trial enrolled 122 patients with a BMI of 27 kg/m2 or greater and at least one cardiovascular risk factor with either paroxysmal or persistent AF and were scheduled to undergo de novo AF ablation. They were randomized to an intensive risk factor management (RFM) program versus usual care. The RFM program addressed obesity, sleep apnea, HTN, HLD, tobacco, and alcohol abuse, whereas the usual care arm had a discussion of risk factors but without an extensive risk factor modification or follow-up program. The study population had a mean age of 60 years, a mean BMI of 33 kg/m2, and 56-60% of patients with persistent AF. A third of the study population was female. The trial showed a significant improvement in the primary endpoint of the percentage of patients free from atrial fibrillation after ablation in those receiving the intensive lifestyle RFM program. At the end of the 12.3-month follow-up period, 66% percent of patients in the RFM group were free from AF compared to 42% in the usual care group (HR 0.53, p = 0.03). The RFM group also showed significant improvement in AF symptom severity, decline in body weight, systolic blood pressure, glycemic control, and exercise capacity. On average, patients in the RFM arm lost 9 kg of weight compared to 1 kg in the control group. Similarly, systolic blood pressure decreased by 13.1 mmHg in the RFM group but increased by four mmHg in the control group.



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    References - The SUMMIT Trial



    Pathak, Rajeev K., et al. "Aggressive Risk Factor Reduction Study for Atrial Fibrillation and Implications for the Outcome of Ablation: The ARREST-AF Cohort Study." Journal of the American College of Cardiology, vol. 64, no. 21, 2014, pp. 2222–2231.

  • Join CardioNerds Heart Failure Section Chair Dr. Jenna Skowronski, episode lead Dr. Merna Hussein, and expert faculty Dr. Milton Packer as they discuss the SUMMIT trial.



    The SUMMIT trial randomized 731 patients with HFpEF with LVEF ≥ 50% and obesity with BMI ≥ 30 kg/m2 to receive tirzepatide or placebo for at least 52 weeks. The two co-primary endpoints were a composite of time to cardiovascular death or a worsening heart failure event and quality of life measured by the Kansas City Cardiomyopathy Questionnaire clinical summary score (KCCQ-CSS). Treatment with tirzepatide led to a lower risk of the composite of cardiovascular death or worsening heart failure as well as improved quality of life.



    This episode was planned in collaboration with the American College of Cardiology Section of the Prevention of Cardiovascular Disease with mentorship from Section Chair Dr. Eugenia Gianos.













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    References - The SUMMIT Trial



    Packer, M., Zile, M. R., Kramer, C. M., Baum, S. J., Litwin, S. E., Menon, V., Ge, J., Weerakkody, G. J., Ou, Y., Bunck, M. C., Hurt, K. C., Murakami, M., Borlaug, B. A., & SUMMIT Trial Study Group. (2024). Tirzepatide for Heart Failure with Preserved Ejection Fraction and Obesity. The New England Journal of Medicine. https://doi.org/10.1056/NEJMoa2410027

  • Join CardioNerds Heart Failure Section Chair Dr. Jenna Skowronski, episode lead Dr. Apoorva Gangavelli, and expert faculty Dr. Ronald Witteles as they discuss the Nex-Z trial.



    This was a phase 1, open-label trial investigating nex-z, a CRISPR-Cas9-based treatment, in 36 patients with transthyretin amyloidosis with cardiomyopathy (ATTR-CM). The primary objectives were aimed at studying the safety and pharmacodynamics of this novel gene-based treatment modality. This episode dives into the nuances of the data, future directions for investigation, and future clinical implications.













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    References - The Nex-Z Trial



    Fontana, M., Solomon, S. D., Kachadourian, J., Walsh, L., Rocha, R., Lebwohl, D., Smith, D., Täubel, J., Gane, E. J., Pilebro, B., Adams, D., Razvi, Y., Olbertz, J., Haagensen, A., Zhu, P., Xu, Y., Leung, A., Sonderfan, A., Gutstein, D. E., & Gillmore, J. D. (2024). CRISPR-Cas9 Gene Editing with Nexiguran Ziclumeran for ATTR Cardiomyopathy. The New England Journal of Medicine. https://doi.org/10.1056/NEJMoa2412309

  • Join CardioNerds co-founder Dr. Daniel Ambinder, episode lead Dr. Nidhi Patel, and expert faculty Dr. Keith Ferdinand as they discuss the BP ROAD trial.



    The BP ROAD trial randomized 12,821 patients 50 years of age or older with type 2 diabetes, elevated systolic blood pressure, and an increased risk of cardiovascular disease to receive intensive treatment that targeted a systolic blood pressure of less than 120 mm Hg or standard treatment that targeted a systolic blood pressure of less than 140 mm Hg for up to 5 years. Investigators found a significant reduction of major cardiovascular events with intensive blood pressure lowering. This episode dives into the nuances of the data and clinical implications.



    This episode was planned in collaboration with the American College of Cardiology Section of the Prevention of Cardiovascular Disease with mentorship from Section Chair Dr. Eugenia Gianos.













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    References - BPROAD Trial



    Bi, Y., Li, M., Liu, Y., Li, T., Lu, J., Duan, P., Xu, F., Dong, Q., Wang, A., Wang, T., Zheng, R., Chen, Y., Xu, M., Wang, X., Zhang, X., Niu, Y., Kang, Z., Lu, C., Wang, J., … Wang, W. (2024). Intensive Blood-Pressure Control in Patients with Type 2 Diabetes. New England Journal of Medicine. https://doi.org/10.1056/NEJMoa2412006

  • CardioNerds (Dr. Dan Ambinder and guest host, Dr. Pooja Prasad) join Dr. Donny Mattia from Phoenix Children’s pediatric cardiology fellowship, Dr. Sri Nayak from the Mayo Clinic – Arizona adult cardiology fellowship, and Dr. Harrison VanDolah from the University of Arizona College of Medicine - Phoenix Med/Peds program for a sunrise hike of Piestewa Peak, followed by some coffee at Berdena’s in Old Town Scottsdale (before the bachelorette parties arrive), then finally a stroll through the Phoenix Desert Botanical Gardens to discuss a thought-provoking case series full of clinical cardiology pearls. Expert commentary is provided by Dr. Tabitha Moe. Episode audio was edited by Dan Ambinder.











    They discuss the following case: Cardiology is consulted by the OB team for a 27-year-old female G1, now P1, who has just delivered a healthy baby boy at 34 weeks gestation after going into premature labor. She is experiencing shortness of breath and is found to have a significant past cardiac history, including atrial fibrillation and preexcitation, now with a pacemaker and intracardiac defibrillator. We review the differential diagnosis for peripartum cardiomyopathy (PPCM) and then combine findings from her infant son, who is seen by our pediatric cardiology colleagues and is found to have severe hypertrophic cardiomyopathy (HCM). Genetic testing for both ultimately reveals a LAMP2 mutation consistent with Danon Disease. The case discussion focuses on the differential diagnosis for PPCM, HCM, pearls on Danon Disease and other HCM “phenocopies,” and the importance of good history.











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    Case Media

























    Pearls




    Peripartum cardiomyopathy is a diagnosis of exclusion – we must exclude other possible etiologies of heart failure!



    Be on the lookout for features of non-sarcomeric HCM – as Dr. Michelle Kittleson said in Episode 166, “LVH plus” states. HCM with preexcitation, heart block, strong family history, or extracardiac symptoms such as peripheral neuropathy, myopathy, or cognitive impairment should be evaluated for infiltrative/inherited cardiomyopathies!



    As an X-linked dominant disorder, Danon disease will present differently in males vs females, with males having much more severe and earlier onset disease with extracardiac features.



    Making the diagnosis for genetic disorders such as Danon disease is important for getting the rest of family members tested as well as the opportunity for specialized treatments such as gene therapy



    Up to 5% of Danon disease cases may be due to copy number variants, which may be missed in genetic testing that does not do targeted deletion/duplication analysis!).








    Notes







    What is the differential diagnosis for peripartum cardiomyopathy?




    Peripartum cardiomyopathy is a diagnosis of exclusion – we must exclude other possible etiologies of heart failure!



    First, ensure that you are not missing an acute life-threatening etiology of acute decompensated heart failure – pulmonary embolism, amniotic fluid embolism, ACS, and SCAD should all be ruled out.



    Second, a careful history can identify underlying heart disease or risk factors for the development of heart failure, such as substance use, high-risk behaviors that put one at risk for HIV infection, and family history that suggests an inheritable cardiomyopathy.



    Lastly, a careful review of echocardiographic imaging may also identify underlying etiologies that warrant a change in management.



    Diagnosis of peripartum cardiomyopathy is important to consider as within 7 days of onset, patients may be eligible for treatment with bromocriptine – consider referring ...

  • CardioNerds (Dr. Dan Ambinder and Dr. Yoav Karpenshif – Chair of the CardioNerds Critical Care Cardiology Council) join Dr. Munim Khan, Dr. Shravani Gangidi, and Dr. Rachel Goodman from Tufts Medical Center’s general cardiology fellowship program for hot pot in China Town in Boston. They discuss a case involving a patient who presented with stress cardiomyopathy leading to cardiogenic shock. Expert commentary is provided by Dr. Michael Faulx from the Cleveland Clinic. Notes were drafted by Dr. Rachel Goodman. Audio editing by Dr. Diane Masket.



    A young woman presents with de novo heart-failure cardiogenic shock requiring temporary mechanical circulatory support who is found to have basal variant takotsubo cardiomyopathy.  We review the definition and natural history of takotsubo cardiomyopathy, discuss initial evaluation and echocardiographic findings, and review theories regarding pathophysiology of the clinical syndrome. We also highlight complications of takotsubo cardiomyopathy, with a focus on left ventricular outflow obstruction, cardiogenic shock, and arrythmias.







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    Pearls




    Takotsubo cardiomyopathy is defined as a reversible systolic dysfunction with wall motion abnormalities that do not follow a coronary vascular distribution.



    Takotsubo cardiomyopathy is a diagnosis of exclusion; patients often undergo coronary angiography to rule out epicardial coronary artery disease given an overlap in presentation and symptoms with acute myocardial infarction.



    There are multiple echocardiographic variants of takotsubo. Apical ballooning is the classic finding, but mid-ventricular, basal, and biventricular variants exist as well.



    Patients with takotsubo cardiomyopathy generally recover, but there are important complications to be aware of.  These include arrhythmia, left ventricular outflow tract (LVOT) obstruction related to a hyperdynamic base in the context of apical ballooning, and cardiogenic shock.



    Patients with Impella devices are at risk of clot formation and stroke. Assessing the motor current can be a clue to what is happening at the level of the motor or screw.




    Notes



    What is Takotsubo Syndrome (TTS)?




    TTS is a syndrome characterized by acute heart failure without epicardial CAD with regional wall motion abnormalities seen on echocardiography that do not correspond to a coronary artery territory (see below).1



    TTS classically develops following an acute stressor—this can be an emotional or physical stressor.1



    An important feature of TTS is that the systolic dysfunction is reversible.  The time frame of reversibility is variable, though generally hours to weeks.2



    Epidemiologically, TTS has a predilection for post-menopausal women, however anyone can develop this syndrome.1



    TTS is a diagnosis of exclusion. Coronary artery disease (acute coronary syndrome, spontaneous coronary artery dissection, coronary embolus, etc) should be excluded when considering TTS. Myocarditis is on the differential diagnosis.




    What are the echocardiographic findings of takotsubo cardiomyopathy?




    The classic echocardiographic findings of TTS is “apical ballooning,” which is a way of descripting basal hyperkinesis with mid- and apical hypokinesis, akinesis, or dyskinesis.3



    There are multiple variants of TTS. The four most common are listed below:3(1) Apical ballooning (classic TTS)(2) Mid-ventricular variant(3) Basal variant

    (4) Focal variant





    Less common variants include the biventricular variant and the isolated right ventricular  variant.3




    Do patients with TTS generally have EKG changes or biomarker elevation?




    Patients often have elevated troponin,

  • In this episode, CardioNerds Dr. Gurleen Kaur and Dr. Akiva Rosenzveig are joined by Cardio-Rheumatology experts, Dr. Brittany Weber and Dr. Michael Garshick to discuss treating inflammation, delving into the pathophysiology behind the inflammatory hypothesis of atherosclerotic cardiovascular disease and the evolving data on anti-inflammatory therapies for reducing ASCVD risk, with insights on real-world implementation.



    Show notes were drafted by. Dr. Akiva Rosenzveig.



    This episode was produced in collaboration with the American Society of Preventive Cardiology (ASPC) with independent medical education grant support from Agepha Pharma.















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    Pearls - Treating Inflammation




    Our understanding of the pathophysiology of atherosclerosis has undergone a few iterations from the incrustation hypothesis to the lipid hypothesis to the response-to-injury hypothesis and culminating with our current understanding of the inflammation hypothesis.



    Both the adaptive and innate immune systems play instrumental roles in the pathogenesis of atherosclerosis.



    After adequately controlling classic modifiable risk factors such as blood pressure, dyslipidemia, glucose intolerance, and obesity, systemic inflammation as assessed by CRP can be ascertained as CRP is associated with ~1.8-fold increased risk of cardiovascular events



    Although the most common side effect of colchicine is gastrointestinal intolerance, colchicine can induce lactose intolerance, so a lactose free diet may help ameliorate colchicine-induced GI symptoms.



    Anti-inflammatory therapeutics have shown promise in reducing cardiovascular risk but much more is to be learned with ongoing and future basic, translational, and clinical research.




    Show notes - Treating Inflammation




    What are the origins of the inflammatory hypothesis?

    The first hypothesis as to the pathogenesis of atherosclerosis was the incrustation hypothesis by Carl Von Rokitansky in 1852. He suggested that atherosclerosis begins in the intima with thrombus deposition.In 1856, Rudolf Virchow suggested the lipid hypothesis whereby high levels of cholesterol in the blood lead to atherosclerosis. He observed inflammatory changes in the arterial walls associated with atherosclerotic plaque growth, called endo-arteritis chronica deformans.In 1977, Russell Ross suggested the response-to-injury hypothesis, that atherosclerosis develops from injury to the arterial wall.In the 1990’s the role of inflammation in ASCVD became more recognized. Both the adaptive and innate immune system are critical in atherosclerosis. Lipids and inflammation are synergistic in that lipid exposure is required but they translocate through damaged endothelium which occurs by way of inflammatory cytokines, namely within the NLRP3 inflammasome (IL-1, IL-6 etc.).Smooth muscle cells are also involved. They migrate to the endothelial region and secrete collagen to create the fibrous cap. They can also transform into macrophage-like cells to take up lipids and become foam cells.



    T, B, and K cells are also part of this milieu. In fact, neutrophils, macrophages and monocytes make up only a small portion of the cells involved in the atherosclerotic process.







    What are ways to individually optimize one’s ASCVD risk?Ensure the patient is on appropriate antiplatelet therapy, lipid lowering therapy, blood pressure is well controlled, and the Hemoglobin A1c is well controlled. Smoking cessation is pivotal.If the patient has an elevated Lipoprotein (a), pursue more aggressive lipid lowering therapy. Targeted therapies may become available in the future.

    Assess the patient’s systemic inflammatory risk as measured by C-Reactive Protein (CRP)







    What is the evidence for utilizing CRP in risk stra...

  • The following question refers to Sections 7.3.3 and 7.3.6 of the 2022 ACC/AHA/HFSA Guideline for the Management of Heart Failure.The question is asked by Palisades Medical Center medicine resident & CardioNerds Academy Fellow Dr. Maryam Barkhordarian, answered first by UTSW AHFT Cardiologist & CardioNerds FIT Ambassador Dr. Natalie Tapaskar, and then by expert faculty Dr. Robert Mentz.Dr. Mentz is associate professor of medicine and section chief for Heart Failure at Duke University, a clinical researcher at the Duke Clinical Research Institute, and editor-in-chief of the Journal of Cardiac Failure. Dr. Mentz has been a mentor for the CardioNerds Clinical Trials Network as lead principal investigator for PARAGLIDE-HF and is a series mentor for this very Decipher the Guidelines Series. For these reasons and many more, he was awarded the Master CardioNerd Award during ACC22.The Decipher the Guidelines: 2022 AHA / ACC / HFSA Guideline for The Management of Heart Failure series was developed by the CardioNerds and created in collaboration with the American Heart Association and the Heart Failure Society of America. It was created by 30 trainees spanning college through advanced fellowship under the leadership of CardioNerds Cofounders Dr. Amit Goyal and Dr. Dan Ambinder, with mentorship from Dr. Anu Lala, Dr. Robert Mentz, and Dr. Nancy Sweitzer. We thank Dr. Judy Bezanson and Dr. Elliott Antman for tremendous guidance.Enjoy this Circulation 2022 Paths to Discovery article to learn about the CardioNerds story, mission, and values.
    American Heart Association’s Scientific Sessions 2024As heard in this episode, the American Heart Association’s Scientific Sessions 2024 is coming up November 16-18 in Chicago, Illinois at McCormick Place Convention Center. Come a day early for Pre-Sessions Symposia, Early Career content, QCOR programming and the International Symposium on November 15. It’s a special year you won’t want to miss for the premier event for advancements in cardiovascular science and medicine as AHA celebrates its 100th birthday. Registration is now open, secure your spot here!When registering, use code NERDS and if you’re among the first 20 to sign up, you’ll receive a free 1-year AHA Professional Membership!


    Question #39
    Ms. Kay Lotsa is a 48-year-old woman with a history of CKD stage 2 (baseline creatinine ~1.2 mg/dL) & type 2 diabetes mellitus. She has recently noticed progressively reduced exercise tolerance, leg swelling, and trouble lying flat. This prompted a hospital admission with a new diagnosis of decompensated heart failure. A transthoracic echocardiogram reveals LVEF of 35%. Ms. Lotsa is diuresed to euvolemia, and she is started on carvedilol 25mg BID, sacubitril/valsartan 49-51mg BID, and empagliflozin 10mg daily, which she tolerates well. Her eGFR is at her baseline of 55 mL/min/1.73 m2 and serum potassium concentration is 3.9 mEq/L. Your team is anticipating she will be discharged home in the next one to two days and wants to start spironolactone. Which of the following is most important regarding her treatment with mineralocorticoid antagonists?ASpironolactone is contraindicated based on her level of renal impairment and should not be startedBSerum potassium levels and kidney function should be assessed within 1-2 weeks of starting spironolactoneCEplerenone confers a higher risk of gynecomastia than does spironolactoneDThe patient will likely not benefit from initiation of spironolactone if her cardiomyopathy is ischemic in origin


    Answer #39
    ExplanationThe correct answer is B – after starting a mineralocorticoid receptor antagonist (MRA), it is important to closely monitor renal function and serum potassium levels.MRA (also known as aldosterone antagonists or anti-mineralocorticoids) show consistent improvements in all-cause mortality, HF hospitalizations, and SCD across a wide range of patients with HFrEF.

  • The following question refers to Sections 7.4 and 7.5 of the 2022 AHA/ACC/HFSA Guideline for the Management of Heart Failure.The question is asked by the Director of the CardioNerds Internship Dr. Akiva Rosenzveig, answered first by Vanderbilt AHFT cardiology fellow Dr. Jenna Skowronski, and then by expert faculty Dr. Randall Starling.Dr. Starling is Professor of Medicine and an advanced heart failure and transplant cardiologist at the Cleveland Clinic where he was formerly the Section Head of Heart Failure, Vice Chairman of Cardiovascular Medicine, and member of the Cleveland Clinic Board of Governors. Dr. Starling is also Past President of the Heart Failure Society of America in 2018-2019. Dr. Staring was among the earliest CardioNerds faculty guests and has since been a valuable source of mentorship and inspiration. Dr. Starling’s sponsorship and support was instrumental in the origins of the CardioNerds Clinical Trials Program.The Decipher the Guidelines: 2022 AHA / ACC / HFSA Guideline for The Management of Heart Failure series was developed by the CardioNerds and created in collaboration with the American Heart Association and the Heart Failure Society of America. It was created by 30 trainees spanning college through advanced fellowship under the leadership of CardioNerds Cofounders Dr. Amit Goyal and Dr. Dan Ambinder, with mentorship from Dr. Anu Lala, Dr. Robert Mentz, and Dr. Nancy Sweitzer. We thank Dr. Judy Bezanson and Dr. Elliott Antman for tremendous guidance.Enjoy this Circulation 2022 Paths to Discovery article to learn about the CardioNerds story, mission, and values.
    American Heart Association’s Scientific Sessions 2024As heard in this episode, the American Heart Association’s Scientific Sessions 2024 is coming up November 16-18 in Chicago, Illinois at McCormick Place Convention Center. Come a day early for Pre-Sessions Symposia, Early Career content, QCOR programming and the International Symposium on November 15. It’s a special year you won’t want to miss for the premier event for advancements in cardiovascular science and medicine as AHA celebrates its 100th birthday. Registration is now open, secure your spot here!When registering, use code NERDS and if you’re among the first 20 to sign up, you’ll receive a free 1-year AHA Professional Membership!


    Question #38
    Mrs. M is a 65-year-old woman with non-ischemic dilated cardiomyopathy (LVEF 40%) and moderate to severe mitral regurgitation (MR) presenting for outpatient follow-up. Despite improvement overall, she continues to experience dyspnea on exertion with two flights of stairs and occasional PND. She reports adherence with her medication regimen of sacubitril-valsartan 97-103mg twice daily, metoprolol succinate 200mg daily, spironolactone 25mg daily, empagliflozin 10mg daily, and furosemide 80mg daily. A transthoracic echocardiogram today shows an LVEF of 35%, an LVESD of 60 mm, severe MR with a regurgitant fraction of 60%, and an estimated right ventricular systolic pressure of 40 mmHg. Her EKG shows normal sinus rhythm at 65 bpm and a QRS complex width of 100 ms. What is the most appropriate recommendation for management of her heart failure?AContinue maximally tolerated GDMT; no other changesBRefer for cardiac resynchronization therapy (CRT)CRefer for transcatheter mitral valve intervention


    Answer #38
    ExplanationChoice C is correct. The 2020 ACC/AHA Guidelines for the management of patients with valvular heart disease outline specific recommendations.In patients with chronic severe secondary MR related to LV systolic dysfunction (LVEF <50%) who have persistent symptoms (NYHA class II, III, or IV) while on optimal GDMT for HF (Stage D), M-TEER is reasonable in patients with appropriate anatomy as defined on TEE and with LVEF between 20% and 50%, LVESD ≤70 mm, and pulmonary artery systolic pressure ≤70 mmHg (Class 2a, LOE B-R).Conversely,

  • In this episode, Dr. Paul Ridker, a pioneer in the field of cardiovascular inflammation, joins the CardioNerds (Dr. Gurleen Kaur, Dr. Richard Ferraro, and Dr. Nidhi Patel) to discuss the evolving landscape of inflammation as a key factor in cardiovascular risk reduction. The discussion dives into the importance of biomarkers like high-sensitivity C-reactive protein (hs-CRP) in guiding treatment strategies, the insights gleaned from landmark trials like the JUPITER and CANTOS studies, and the future of targeted anti-inflammatory therapies in cardiology.



    Show notes were drafted by Dr. Nidhi Patel. Audio editing by CardioNerds academy intern, Grace Qiu. 



    This episode was produced in collaboration with the American Society of Preventive Cardiology (ASPC) with independent medical education grant support from Lexicon Pharmaceuticals.











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    Pearls - Targeting Inflammation for Cardiovascular Risk




    "If you don’t measure it, you can’t treat it”: Incorporate hs-CRP into routine practice for patients at risk of cardiovascular events, as it provides crucial information for risk stratification and management.



    Recognize the dual benefits of statins in lowering both LDL and inflammation, particularly in patients with elevated hs-CRP.



    Encourage patients to adopt heart-healthy habits, as lifestyle changes remain foundational in reducing both cholesterol and inflammatory risk.



    Reminder that most autoimmune or inflammatory diseases, from psoriasis to Addison’s disease to lupus to scleroderma to inflammatory bowel disease, have been shown to have elevated cardiovascular risk



    Ongoing randomized trials including ZEUS, HERMES, and ARTEMIS will inform whether novel targeting of IL-6 can safely lower cardiovascular event rates or slow renal progression




    Show notes - Targeting Inflammation for Cardiovascular Risk



    Why is it important to measure both LDL and hs-CRP, and what factors increase hs-CRP?




    Inflammation and hyperlipidemia are synergistic in promoting atherosclerosis. They interact to exacerbate plaque formation and instability, increasing the risk of cardiovascular events.



    Just like we measure blood pressure and LDL to know what to treat, we should measure hs-CRP to guide targeted therapy.



    Clinical Example: in Ms. Flame's case, despite achieving target LDL levels with statins, her elevated hs-CRP indicates ongoing inflammation and residual cardiovascular risk that should be assessed.



    Residual inflammatory risk should be assessed in both primary and secondary prevention.



    Increased BMI1, smoking2, a sedentary lifestyle3, and genetics4 (such as a higher risk of metabolic disease in South Asians) all raise hs-CRP levels.



    SGLTi5 and GLP-1 agonists6 have also been shown to decrease hs-CRP levels.




    What data do we have to support measuring hs-CRP? 




    Women’s Health Study7: an early study showing that hs-CRP predicted risk at least as well as LDL cholesterol and that models incorporating hs-CRP in addition to lipids were significantly better at predicting risk than models based on lipids alone.



    JUPITER Trial8 (Primary Prevention): Among patients with normal LDL but elevated hs-CRP there was a 44% reduction in major cardiovascular events (>50% in MI and stroke) and a 20% reduction in all-cause mortality in patients treated with statins. These results led to changes in guidelines in recognizing the need to measure and treat inflammation.



    CANTOS Trial9 (Secondary Prevention): Randomized >10K patients with previous MI and hs-CRP ≥ 2mg/L and found that canakinumab reduced hs-CRP level from baseline in a dose-dependent manner, without reduction in the LDL, ApoB, TG, or blood pressure.




    What are the guidelines and supportive data on using Colchicine? 




  • The following question refers to Section 7.4 of the 2022 AHA/ACC/HFSA Guideline for the Management of Heart Failure.The question is asked by the Director of the CardioNerds Internship Dr. Akiva Rosenzveig, answered first by Vanderbilt AHFT cardiology fellow Dr. Jenna Skowronski, and then by expert faculty Dr. Clyde Yancy.Dr. Yancy is Professor of Medicine and Medical Social Sciences, Chief of Cardiology, and Vice Dean for Diversity and Inclusion at Northwestern University, and a member of the ACC/AHA Joint Committee on Clinical Practice Guidelines.The Decipher the Guidelines: 2022 AHA / ACC / HFSA Guideline for The Management of Heart Failure series was developed by the CardioNerds and created in collaboration with the American Heart Association and the Heart Failure Society of America. It was created by 30 trainees spanning college through advanced fellowship under the leadership of CardioNerds Cofounders Dr. Amit Goyal and Dr. Dan Ambinder, with mentorship from Dr. Anu Lala, Dr. Robert Mentz, and Dr. Nancy Sweitzer. We thank Dr. Judy Bezanson and Dr. Elliott Antman for tremendous guidance.Enjoy this Circulation 2022 Paths to Discovery article to learn about the CardioNerds story, mission, and values.
    American Heart Association’s Scientific Sessions 2024As heard in this episode, the American Heart Association’s Scientific Sessions 2024 is coming up November 16-18 in Chicago, Illinois at McCormick Place Convention Center. Come a day early for Pre-Sessions Symposia, Early Career content, QCOR programming and the International Symposium on November 15. It’s a special year you won’t want to miss for the premier event for advancements in cardiovascular science and medicine as AHA celebrates its 100th birthday. Registration is now open, secure your spot here!When registering, use code NERDS and if you’re among the first 20 to sign up, you’ll receive a free 1-year AHA Professional Membership!


    Question #37
    Mr. S is an 80-year-old man with a history of hypertension, type II diabetes mellitus, and hypothyroidism who had an anterior myocardial infarction (MI) treated with a drug-eluting stent to the left anterior descending artery (LAD) 45 days ago. His course was complicated by a new LVEF reduction to 30%, and left bundle branch block (LBBB) with QRS duration of 152 ms in normal sinus rhythm. He reports he is feeling well and is able to enjoy gardening without symptoms, though he experiences dyspnea while walking to his bedroom on the second floor of his house. Repeat TTE shows persistent LVEF of 30% despite initiation of goal-directed medical therapy (GDMT). What is the best next step in his management?AMonitor for LVEF improvement for a total of 60 days prior to further interventionBImplantation of a dual-chamber ICDCImplantation of a CRT-DDContinue current management as device implantation is contraindicated given his advanced age


    Answer #37
    Explanation Choice C is correct. Implantation of a CRT-D is the best next step. In patients with nonischemic DCM or ischemic heart disease at least 40 days post-MI with LVEF ≤35% and NYHA class II or III symptoms on chronic GDMT, who have reasonable expectation of meaningful survival for >1 year,ICD therapy is recommended for primary prevention of SCD to reduce total mortality (Class 1, LOE A). A transvenous ICD provides high economic value in this setting, particularly when a patient’s risk of death from ventricular arrhythmia is deemed high and the risk of nonarrhythmic death is deemed low. In addition, for patients who have LVEF ≤35%, sinus rhythm, left bundle branch block (LBBB) with a QRS duration ≥150 ms, and NYHA class II, III, orambulatory IV symptoms on GDMT, cardiac resynchronization therapy (CRT) is indicated to reduce total mortality, reduce hospitalizations, and improve symptoms and QOL. Cardiac resynchronization provides high economic value in this setting. Mr.

  • In this episode, Dr. Gurleen Kaur (Cardiology FIT at Brigham and Women’s Hospital and APD of the CardioNerds Academy) and Dr. Diane Masket (Medicine Resident at the University of Chicago Northshore and CardioNerds Academy Intern) discuss with Dr. Minnow Walsh (Medical Director of the Heart Failure and Cardiovascular programs at Ascension St. Vincent Heart Center in Indianapolis) about her personal and professional journey in Cardiology. They discuss Dr. Walsh’s authorship of the recent ACC statement on career flexibility in Cardiology, her involvement with the ACC at both the local and national levels, and her passion for making cardiology a more inclusive and welcoming field for all.Notes were drafted by Dr. Diane Masket and episode audio was engineered by student Dr. Grace Qiu.The PA-ACC & CardioNerds Narratives in Cardiology is a multimedia educational series jointly developed by the Pennsylvania Chapter ACC, the ACC Fellows in Training Section, and the CardioNerds Platform with the goal to promote diversity, equity, and inclusion in cardiology. In this series, we host inspiring faculty and fellows from various ACC chapters to discuss their areas of expertise and their individual narratives. Join us for these captivating conversations as we celebrate our differences and share our joy for practicing cardiovascular medicine. We thank our project mentors Dr. Katie Berlacher and Dr. Nosheen Reza.The PA-ACC & CardioNerds Narratives in Cardiology PageCardioNerds Episode PageCardioNerds AcademyCardionerds Healy Honor RollCardioNerds Journal ClubSubscribe to The Heartbeat Newsletter!Check out CardioNerds SWAG!Become a CardioNerds Patron!Video version - Career Flexibility in Cardiologyhttps://youtu.be/ygNH6fcQ5ekQuoatables - Career Flexibility in Cardiology“You have to learn to live with ambivalence. You can’t do everything. You can’t do everything all at one time”“One of the most important things the College is behind and pushing, is that competency-based evaluation is what should be used in fellowship rather than this sort of cookie cutter approach where you have to do these many months of echo and this much of cath lab. So, I think flexibility moving from volume to competency is one push.”“Fellowship is daunting, and internal medicine residency is too, but I think culture is how we feel every day. And I think the more we increase flexibility the more that culture is going to shift.Notes - Career Flexibility in CardiologyProcess of developing ACC Health Policy StatementsThese documents address issues that require ACC influence and usually involve a variety of institutions, governing bodies, and other stakeholders. ACC comes to an agreement on how they will approach this topic and shares it broadly.Most of the existing ACC health policy statements are disease-based instead of profession-based. The ACC Career Flexibility statement grew out of the diversity, equity, and inclusion task force, which is a standing committee.A variety of authors are included in health policy statements to reflect the perspectives of many different interest groups.All policy statements, including the one about career flexibility, are available online on JACC.org 1Major Components of the ACC Career Flexibility Health Policy StatementThere are 18 principles that highlight the most important aspects regarding career flexibility in cardiology.2Flexibility allows for deceleration (decrease in work hours, responsibilities, etc.) and acceleration based on the needs of the physician. For example, during childbearing and rearing time periods, there could be a deceleration, which could accelerate when parenthood responsibilities have decreased.It does not only need to be based around parenting; physicians who are not parents also desire flexibility and enjoy spending time on activities other than their careers. These needs will be unique for each person.

  • The following question refers to Sections 2.1
    and 4.2 of the 2022 AHA/ACC/HFSA Guideline for the Management of Heart Failure.The question is asked by CardioNerds Academy Intern Dr. Adriana Mares, answered first by CardioNerds FIT Trialist Dr. Christabel Nyange, and then by expert faculty Dr. Shelley Zieroth.
    Dr. Zieroth is an advanced heart failure and transplant cardiologist, Head of the Medical Heart Failure Program, the Winnipeg Regional Health Authority Cardiac Sciences Program, and an Associate Professor in the Section of Cardiology at the University of Manitoba. Dr. Zieroth is a past president of the Canadian Heart Failure Society. She has been a PI Mentor for the CardioNerds Clinical Trials Program.
    The Decipher the Guidelines: 2022 AHA / ACC / HFSA Guideline for The Management of Heart Failure series was developed by the CardioNerds and created in collaboration with the American Heart Association and the Heart Failure Society of America. It was created by 30 trainees spanning college through advanced fellowship under the leadership of CardioNerds Cofounders Dr. Amit Goyal and Dr. Dan Ambinder, with mentorship from Dr. Anu Lala, Dr. Robert Mentz, and Dr. Nancy Sweitzer. We thank Dr. Judy Bezanson and Dr. Elliott Antman for tremendous guidance.
    Enjoy this Circulation 2022 Paths to Discovery article to learn about the CardioNerds story, mission, and values.
    American Heart Association’s Scientific Sessions 2024As heard in this episode, the American Heart Association’s Scientific Sessions 2024 is coming up November 16-18 in Chicago, Illinois at McCormick Place Convention Center. Come a day early for Pre-Sessions Symposia, Early Career content, QCOR programming and the International Symposium on November 15. It’s a special year you won’t want to miss for the premier event for advancements in cardiovascular science and medicine as AHA celebrates its 100th birthday. Registration is now open, secure your spot here!When registering, use code NERDS and if you’re among the first 20 to sign up, you’ll receive a free 1-year AHA Professional Membership!


    Question #36
    A 50-year-old woman presents to establish care. Her medical history includes COPD, prediabetes, and hypertension. She is being treated with chlorthalidone, amlodipine, lisinopril, and a tiotropium inhaler. She denies chest pain, dyspnea on exertion, or lower extremity edema. On physical exam, blood pressure is 154/88 mmHg, heart rate is 90 beats/min, and respiration rate is 22 breaths/min with an oxygen saturation of 94% breathing ambient room air. BMI is 36 kg/m2. Jugular venous pulsations are difficult to assess due to her body habitus. Breath sounds are distant, with occasional end-expiratory wheezing. Heart sounds are distant, and extra sounds or murmurs are not detected. Extremities are warm and without peripheral edema. B-type natriuretic peptide level is 28 pg/mL (28 ng/L). A chest radiograph shows increased radiolucency of the lungs, flattened diaphragms, and a narrow heart shadow consistent with COPD. An electrocardiogram shows evidence of left ventricular hypertrophy. The echocardiogram showed normal LV and RV function with no significant valvular abnormalities. In which stage of HF would this patient be classified?AStage A: At Risk for HFBStage B: Pre-HFCStage C: Symptomatic HFDStage D: Advanced HF 


    Answer #36
    Explanation The correct answer is A – Stage A or at risk for HF. This asymptomatic patient with no evidence of structural heart disease or positive cardiac biomarkers for stretch or injury would be classified as Stage A or “at risk” for HF. The ACC/AHA stages of HF emphasize the development and progression of disease with specific therapeutic interventions at each stage. Advanced stages and disease progression are associated with reduced survival. The stages were revised in this edition of guidelines to emphasize new terminologies of “at risk” for Stage A and “pre...

  • CardioNerds (Dr. Dan Ambinder and Dr. Rick Ferraro) join Dr. Mansi Oberoi and Dr. Mohan Gudiwada from the University of Nebraska Medical Center discuss a case of constrictive pericarditis. Expert commentary is provided by Dr. Adam Burdorf, who serves as the Program Director for the Cardiovascular Medicine Fellowship at the University of Nebraska Medical Center.



    The case discussed involves a 76-year-old woman with a history of monoclonal gammopathy of undetermined significance, chronic obstructive pulmonary disease, type 2 diabetes mellitus, and squamous cell carcinoma was admitted to the hospital for worsening shortness of breath, swelling in lower extremities, hyponatremia, and urinary tract infection. CT chest to evaluate for pulmonary embolism showed incidental pericardial calcifications; the heart failure team was consulted for the management of her decompensated heart failure. Echo images were nondiagnostic. Subsequent invasive hemodynamic monitoring showed elevated right and left-sided filling pressures, diastolic equalization of LV and RV pressures, and positive RV square root sign with ventricular interdependence. Cardiac MRI showed septal flattening on deep inspiration and septal bounce, suggestive of interventricular dependence. After a heart team discussion and with shared-decision making the patient opted for medical management owing to her comorbidities and frailty.



    Enjoy this 2024 JACC State-of-the-Art Review to learn more about pericardial diseases and best practices for pericardiectomy (Al-Kazac et al., JACC 2024)









    US Cardiology Review is now the official journal of CardioNerds! Submit your manuscript here.











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    Case Media - Constrictive Pericarditis













































    Echo: Left Ventricular ejection fraction = 55-60%. Unclear septal motion in the setting of atrial fibrillation



    MRI: Diastolic septal flattening with deep inspiration as well as a septal bounce suggestive of interventricular dependence and constrictive physiology 



    References




    Garcia, M. Constrictive Pericarditis Versus Restrictive Cardiomyopathy. Journal of the American College of Cardiology, vol. 67, no. 17, 2016, pp. 2061–2076.



    Pathophysiology and Diagnosis of Constrictive Pericarditis. American College of Cardiology, 2017.



    Geske, J., Anavekar, N., Nishimura, R., et al. Differentiation of Constriction and Restriction: Complex Cardiovascular Hemodynamics. Journal of the American College of Cardiology, vol. 68, no. 21, 2016, pp. 2329–2347.



    Constrictive Pericarditis. ScienceDirect.



    Constrictive Pericarditis. Journal of the American College of Cardiology, vol. 83, no. 12, 2024, pp. 1500-1512.

  • Dr. Amit Goyal, along with episode chair Dr. Dinu Balanescu (Mayo Clinic, Rochester), and FIT leads Dr. Sonu Abraham (University of Kentucky) and Dr. Natasha Vedage (MGH), dive into the fascinating topic of channelopathies with Dr. Michael Ackerman, a genetic cardiologist and professor of medicine, pediatrics, and pharmacology at Mayo Clinic, Rochester, Minnesota. Using a case-based approach, they review the nuances of diagnosis and treatment of channelopathies, including Brugada syndrome, catecholaminergic polymorphic ventricular tachycardia (CPVT), and long QT syndrome. Dr. Sonu Abraham drafted show notes. Audio engineering for this episode was expertly handled by CardioNerds intern, Christiana Dangas.



    The CardioNerds Beyond the Boards Series was inspired by the Mayo Clinic Cardiovascular Board Review Course and designed in collaboration with the course directors Dr. Amy Pollak, Dr. Jeffrey Geske, and Dr. Michael Cullen.











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    Pearls and Quotes - Channelopathies




    One cannot equate the presence of type 1 Brugada ECG pattern to the diagnosis of Brugada syndrome. Clinical history, family history, and/or genetic testing results are required to make a definitive diagnosis.



    The loss-of-function variants in the SCN5A gene, which encodes for the α-subunit of the NaV1.5 sodium channel, is the only Brugada susceptibility gene with sufficient evidence supporting pathogenicity.



    Exertional syncope is an “alarm” symptom that demands a comprehensive evaluation with 4 diagnostic tests: ECG, echocardiography, exercise treadmill test, and Holter monitor. Think of catecholaminergic polymorphic ventricular tachycardia (CPVT) in a patient with exertional syncope and normal EKG!



    ICD therapy is never prescribed as monotherapy in patients with CPVT. Medical therapy with a combination of nadolol plus flecainide is the current standard of care.



    Long QT syndrome is one of the few clinical scenarios where genetic testing clearly guides management, particularly with respect to variability in beta-blocker responsiveness.




    Notes - Channelopathies



    1. What are the diagnostic criteria for Brugada syndrome (BrS)?



    Three repolarization patterns are associated with Brugada syndrome in the right precordial leads (V1-V2):




    Type 1: Prominent coved ST-segment elevation displaying J-point amplitude or ST-segment elevation ≥2 mm, followed by a negative T wave.



    Type 2/3: Saddleback ST-segment configuration with variable levels of ST-segment elevation.




    It is important to note that only a type 1 pattern is diagnostic for Brugada syndrome, whereas patients with type 2/3 patterns may benefit from further testing.



    The Shanghai score acknowledges that relying solely on induced type 1 ECG changes has limitations. Therefore, one cannot equate the presence of a type 1 Brugada ECG pattern alone to the diagnosis of Brugada syndrome. The score suggests incorporating additional information—such as clinical history, family history, and/or genetic testing results—to achieve a definitive diagnosis.



    2. What is the significance of genetic testing in Brugada syndrome?



    There are 23 alleged Brugada syndrome susceptibility genes published with varying levels of evidence. However, only one gene mutation, the loss-of-function variants in the SCN5A gene encoding for the α-subunit of the NaV1.5 sodium channel, is considered to have sufficient evidence.



    The overall yield of BrS genetic testing is 20%. The presence of PR prolongation (>200 ms) along with type I EKG pattern increases the yield to 40%. On the contrary, in the presence of a normal PR interval, the likelihood of SCN5A positivity drops to <10%.



    3. How would you risk-stratify a patient with Brugada syndrome?



  • The CardioNerds Academy is excited to present the 3rd Annual Sanjay V. Desai Lecture in Medical Education, featuring a deep dive into the evolving role of Artificial Intelligence in Medical Education. Join us as Dr. Kathryn Berlacher, Dr. Melissa McNeil, and Dr. Alfred Shoukry explore the transformative potential of AI in training future healthcare professionals and enhancing educational methodologies. Their insightful discussion sheds light on the integration of cutting-edge technologies to improve medical learning and patient care. The conversation is faciliated by Dr. Tommy Das, Program Director of the CardioNerds Academy, and CardioNerds Academy Chiefs: Dr. Callie Clark, Dr. Rachel Goodman, Dr. Ronaldo Correa Fabiano, and Dr. Claire Cambron, who bring their expertise and enthusiasm to this engaging discussion on the future of medical education. Special thanks to Pace Wetstein, CardioNerds academy intern, for his exceptional audio editing in this episode.









    Dr. Kathryn Berlacher is a graduate of The Ohio State University College of Medicine and completed her internal medicine residency, chief residency, and cardiology fellowship at UPMC, where she has been on faculty since 2012. She earned a master's degree in medical education from the University of Pittsburgh and has served as the Program Director of the Cardiovascular Fellowship Program since 2015. In 2021, she was appointed Associate Chief of Education for the UPMC Heart and Vascular Institute. Additionally, Dr. Berlacher is the director of the McGee Women's Heart Program and chief of medicine at McGee Women's Hospital. Nationally, she serves as the chair for the American College of Cardiology’s Annual Scientific Sessions for 2025 and 2026, regularly speaking on women's cardiology, medical education, diversity, inclusion, and health equity.Dr. Alfred Shoukry graduated from Northwestern University with dual degrees in Neurobiology and Biomedical Engineering. He completed medical school and internal medicine residency at UPMC, where he also earned a certificate in medical education. Dr. Shoukry serves as core faculty at the University of Pittsburgh School of Medicine and cares for patients at the VA in Pittsburgh. As the course director for Population Health, he teaches on topics such as patient safety, quality improvement, and bioinformatics. He is an expert on the impact of large language models in medical education, presenting locally and nationally on the subject.Dr. Melissa McNeil received her undergraduate degree from Princeton University, her MD from the University of Pittsburgh, and a Master of Public Health from the same institution. She is a professor emeritus of medicine at the University of Pittsburgh and recently joined the faculty at Brown University as a professor of medicine. Dr. McNeil serves as an academic hospitalist and senior consultant to the Women's Health Division at Brown. Her expertise lies in developing training programs to foster leaders in women's health education and research. She has been recognized nationally for her contributions, including being named the Society of General Internal Medicine Distinguished Professor of Women's Health in 2014 and receiving their Career Achievement in Medical Education award in 2016.



    Dr. Sanjay V Desai serves as the Chief Academic Officer, The American Medical Association and is the former Program Director of the Osler Medical Residency at The Johns Hopkins Hospital.



    Enjoy this Circulation 2022 Paths to Discovery article to learn about the CardioNerds story, mission, and values.



    US Cardiology Review is now the official journal of CardioNerds! Submit your manuscript here.









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