by Mark | Aug 22, 2020 | Uncategorized
Congratulations to members of the McCauley and Darbar labs for publishing this important work in Circulation Arrhythmia and Electrophysiology linking metabolism to ion channel function in atrial fibrillation. These results will help inform which anti-arrhythmic drugs may be of best use in patients with metabolic syndrome. See the abstract, graphic, and link below. Ion Channel and Structural Remodeling in Obesity-Mediated Atrial Fibrillation Mark D. McCauley, Liang Hong, Arvind Sridhar, Ambili Menon, Srikanth Perike, Meihong Zhang, Ivson Bezerra , da Silva, JiaJie Yan, Marcelo G. Bonini, Xun Ai, Jalees Rehman, Dawood Darbar Background: Epidemiological studies have established obesity as an independent risk factor for atrial fibrillation (AF), but the underlying pathophysiological mechanisms remain unclear. Reduced cardiac sodium channel expression is a known causal mechanism in AF. We hypothesized that obesity decreases Nav1.5 expression via enhanced oxidative stress, thus reducing INa, and enhancing susceptibility to AF. Methods: To elucidate the underlying electrophysiological mechanisms a diet-induced obese mouse model was used. Weight, blood pressure, glucose, F2-isoprostanes, NOX2 (NADPH oxidase 2), and PKC (protein kinase C) were measured in obese mice and compared with lean controls. Invasive electrophysiological, immunohistochemistry, Western blotting, and patch clamping of membrane potentials was performed to evaluate the molecular and electrophysiological phenotype of atrial myocytes. Results: Pacing-induced AF in 100% of diet-induced obese mice versus 25% in controls (P<0.01) with increased AF burden. Cardiac sodium channel expression, INa and atrial action potential duration were reduced and potassium channel expression (Kv1.5) and current (IKur) and F2-isoprostanes, NOX2, and PKC-α/δ expression and atrial fibrosis were significantly increased in diet-induced obese mice as compared with controls. A mitochondrial antioxidant reduced AF burden, restored INa, ICa,L, IKur, action potential duration, and reversed atrial fibrosis...
by Mark | Mar 14, 2020 | Uncategorized
Due to the severe disruptions to medical student classroom learning as a result of the COVID pandemic, we will be offering the McCauley ECG course free online at YouTube for the next month. Each week, we will post a new series of lectures until all lectures are available online by the end of the month. Stay healthy and enjoy the videos...
by Mark | Oct 3, 2019 | Uncategorized
Congratulations to my wife Amy for her first newspaper article in the Hinsdalean ! She is writing for the Hinsdale newspaper and also for a local magazine Life in the Woodlands. A link to her first article is here: There’s No Taste Like Home Also, here’s a link to her blog: Maison McCauley Congrats and much love !...
by Mark | Oct 1, 2019 | Uncategorized
I am pleased to share that our work linking obesity and atrial fibrillation won the Paul D. White Award for the Best Abstract in the United States at the American Heart Association Basic Cardiovascular Sciences Session in Boston, MA. Congrats to the entire team for a job well done...
by Mark | Aug 29, 2019 | Uncategorized
I am pleased to announce that the McCauley ECG Course has officially launched online. This course is specifically geared towards the needs of students (medical, nursing, health professions, industry) in learning how to interpret electrocardiograms (ECG). I created this course because I found no resources, either in books or online, that specifically targets the needs of students for board exams and clinical rotations. What makes this course different is the organized top-to-bottom workflow for reading ECGs, highlighted real-time frames showing which parts of the ECG to focus on, and clinical case correlations, which bring the clinical relevance of each ECG into focus. This course is what I was looking for as a medical student, but could never find. In short, if you’re wondering which ECG resource to use for your basic science and clinical rotations, this is it ! Click on the image below to get started....
by Mark | Aug 28, 2019 | Cardiac Electrophysiology, Cardiology, General Public, Science
I am excited to announce that work from our laboratory was recently published in Circulation: Arrhythmia and Electrophysiology, as an Editor’s Choice Article. In this work, we show for the first time that the native electrical signal in the heart can be transferred from one region to another with a surgical suture made from carbon nanotube fibers (CNTf). The CNTf sutures have remarkable electrical conductivity, strength, and flexibility and are the first to be used in surgical applications to restore electrical conduction in the heart. The long-term impact of this work is that the reestablishment of cardiac conduction has the potential to revolutionize therapy for cardiac electrical disturbances, one of the most common causes of death in the United States. Link to the article can be found here: In Vivo Restoration of Myocardial Conduction with Carbon Nanotube Fibers. News media coverage can be found here: Physics World, Nanotechnology News, Phys.Org, Today’s Medical...
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