20 episodes

Insightful author interviews about innovative research published in AJP-Heart and Circulatory Physiology

AJP-Heart and Circulatory Physiology Podcast American Physiological Society

    • Science
    • 4.5 • 10 Ratings

Insightful author interviews about innovative research published in AJP-Heart and Circulatory Physiology

    Behind the Bench Episode 14

    Behind the Bench Episode 14

    After a yearlong hiatus, Behind the Bench is back, listeners! In this episode, we welcome back our B2B co-hosts Dr. Charlotte Usselman and Dr. Tommy Martin, who get the story behind the story from the one and only Dr. DeWayne Townsend, corresponding author of the recently published study by Stevens et al. Trust me, you are going to love listening to DeWayne talk about science! As DeWayne rightly points out, if we want to understand a disease before it's a disease, we have to model it in order to figure it out. From the “dastardly Krebs cycle” to grinding up hearts and shouting “fire in the hole!” before using the mouse heart pulverizer (it’s a thing), Dewayne brings to this conversation his best science sound effects, wise insights, and a friendly PSA to contact your Congressional representatives and advocate for science funding. We discuss the resiliency of physiology and the redundancies in the heart that enable scientists to knockout things thought to be important, and as DeWayne points out, the body can still handle it. We cover DeWayne’s interesting path from vet school to cardiovascular physiology, and his best advice to trainees. How do you deal with being wrong most of the time? According to DeWayne, when another beautiful hypothesis is slain by data, push on! It is a slog. Keep going and try to find a way to move the needle. While you’re at it, DeWayne suggests that you learn how to fix your own equipment, try not to drink too much caffeine, and be inspired by other scientists, especially when that scientist is your Dad.
     
    Jackie A. Stevens, Tyler C. Dobratz, Kaleb D. Fischer, Alexandria Palmer, Kira Bourdage, Anne J. Wong, Hector Chapoy-Villanueva, Daniel J. Garry, Julia C. Liu, Matthew W. Kay, Sarah Kuzmiak-Glancy, and DeWayne Townsend Mechanisms of reduced myocardial energetics of the dystrophic heart Am J Physiol Heart Circ Physiol, published January 22, 2024. DOI: 10.1152/ajpheart.00636.2023

    • 1 hr 18 min
    Left Ventricular Remodeling in Twin Pregnancy

    Left Ventricular Remodeling in Twin Pregnancy

    In our latest episode, Associate Editor Dr. Amanda LeBlanc (University of Louisville) interviews author Prof. Pietro Modesti (University of Florence) and expert Dr. Alexandre da Silva (University of Mississippi Medical Center) about the new study by Pellegrino et al. that investigated the pattern of intraventricular hemodynamic forces associated with left ventricular function in women with uncomplicated twin pregnancy. The authors found that, in twin pregnancy, hemodynamic forces misalignment in the first trimester precedes a slight temporary decrease in left ventricular systolic function in the second trimester. In the third trimester, a rightward shift of the end diastolic pressure relationship (EDPR) was, in fact, associated with a realignment of hemodynamic forces and normalization of ventricular contractility indices. Why is twin pregnancy an ideal physiological condition to study increased ventricular workload over time? Listen to this insightful conversation and find out.
     
    Alessio Pellegrino, Loira Toncelli, Lucia Pasquini, Giulia Masini, Federico Mecacci, Gianni Pedrizzetti, and Pietro Amedeo Modesti Left ventricular remodeling in twin pregnancy, noninvasively assessed using hemodynamic forces and pressure-volume relation analysis: prospective, cohort study Am J Physiol Heart Circ Physiol, published January 23, 2024. DOI: 10.1152/ajpheart.00699.2023

    • 18 min
    Reducing Thrombotic Risks in Video Gamers

    Reducing Thrombotic Risks in Video Gamers

    Ready Player One? In our latest episode, Dr. Keith Brunt (Dalhousie University) interviews lead author Dr. Joanne DiFrancisco-Donoghue (New York Institute of Technology) and expert Dr. Saurabh Thosar (Oregon Health and Science University Hospital) about a new article published in the AJP-Heart and Circ Call for Papers on Exercise, Physical Activity, and Cardiovascular Health. DiFrancisco-Donoghue et al. raise an important question about the risk for college level e-sport athletes, professionals, and recreational gamers to develop deep vein thromboses. Using Doppler ultrasound recordings of blood flow velocity and volume, the authors found a decrease in both measures when e-sport play was interrupted with a 6-minute walk. DiFrancisco-Donoghue and co-authors found a similar decrease when e-sport athletes wore compression sleeves during play. Could either a break in play for a brief walk or wearing compression stockings help e-sport athletes avoid the risk of deep vein thrombosis caused by prolonged sitting? What effects might this have on executive function, improvement in game play, and for that matter, sleep? If you are a recreational gamer or hoping to go professional, a casual e-sports spectator, or even an active member of the military sitting for prolonged periods of time, you don’t want to miss this engaging and enlightening episode! Listen now.
     
    Joanne DiFrancisco-Donoghue, Kelly Borges, Timothy Li, Olivia Ballone, Hallie Zwibel, and Peter C. Douris Reducing thrombotic risks in video gamers: investigating the benefits of walking and compression sleeves on blood hemodynamics Am J Physiol Heart Circ Physiol, published February 8, 2024. DOI: 10.1152/ajpheart.00669.2023
     
     
    I Spy Physiology Blog by Erica RothHow Can Walking and Wearing Socks Help Video Gamers?

    • 43 min
    Impact of Maternal Diet on Offspring Blood Flow

    Impact of Maternal Diet on Offspring Blood Flow

    What is the relationship between cardiovascular developmental programming and the risk of stroke later in life? Listen as Guest Editor Dr. Helen E. Collins (University of Louisville) interviews author Dr. Nafisa Jadavji (Midwestern University) and expert Dr. Deanne Hryciw (Griffith University) about the latest research by Pull et al. looking at underlying mechanisms associated with a poor-quality diet during pregnancy. One-carbon metabolism is essential for biosynthesis of DNA and proteins, as well as methylation. Jadavji and co-authors demonstrated that maternal dietary deficiency in one-carbon (1C) metabolism, either in folic acid or choline, resulted in reduced cerebral blood flow in adult offspring after an ischemic stroke. Pull et al. focused their investigation on female offspring and identified this effect in 3-month-old offspring but not 11-month-old offspring. The results point to the key role that maternal diet has in early life programming, fetal development, and long-term cerebrovascular health. Are there many downstream pathways that are altered by one-carbon metabolism deficiencies? Is there a negative impact of folic acid over-supplementation? Listen now to find out.
     
    Kasey Pull, Robert Folk, Jeemin Kang, Shaley Jackson, Brikena Gusek, Mitra Esfandiarei, and Nafisa M. Jadavji Impact of maternal dietary folic acid or choline dietary deficiencies on vascular function in young and middle-aged female mouse offspring after ischemic stroke   Am J Physiol Heart Circ Physiol, published October 30, 2023. DOI: 10.1152/ajpheart.00502.2023

    • 23 min
    Cardiac Sex Differences and COVID

    Cardiac Sex Differences and COVID

    Given that there appears to be variation in significant risk to the cardiovascular system following SARS-CoV2 infection with regard to age and sex, the latest study by Rouhana et al. provides a foundation for studying sex differences with a preclinical model of infection to the direct exposure to SARS-CoV-2 and the impact on the myocardium of ferrets. Listen as Associate Editor Dr. Keith Brunt (Dalhousie University) interviews authors Dr. Alyson Kelvin (University of Saskatchewan) and Dr. Glen Pyle (University of Guelph) along with expert Dr. Susan Cheng (Cedars-Sinai Smidt Heart Institute). The authors identified that phosphokinase expression, normally associated with cardiac stress remodeling, is distinct by time and sex effects. Additionally, the authors found that inflammatory patterns of macrophage markers showed inherent sex differences in immune responses at the level of the myocardium. Why are ferrets a such a useful preclinical model for understanding SARS-CoV2 infection? How do immune inflammatory responses differ by sex, timing, and age? As Dr. Brunt points out, “There is power in observation, collaboration, and when it comes to bugs and bodies…it’s physiology.” Read the paper, listen to this podcast, and find out more.
     
    Sarah Rouhana, Kathy Jacyniak, Magen E. Francis, Darryl Falzarano, Alyson A. Kelvin, W. Glen Pyle Sex differences in the cardiac stress response following SARS-CoV-2 infection of ferrets Am J Physiol Heart Circ Physiol, published October 18, 2023. DOI: 10.1152/ajpheart.00101.2023

    • 46 min
    Preload and Calcium Handling in Muscular Dystrophy

    Preload and Calcium Handling in Muscular Dystrophy

    What does a mouse heart have to do with an M&M candy (the regular kind, not the peanut variety)? In our latest episode, Associate Editor Dr. Crystal Ripplinger (University of California, Davis) interviews author Dr. Tim Domeier (University of Missouri) and expert Dr. DeWayne Townsend (University of Minnesota) about the recent study by Haffner et al et al. The authors examined cardiac calcium mishandling and damage in the setting of Duchenne muscular dystrophy (DMD). Using a genetic mouse model of DMD crossed with a mouse that expresses a genetically encoded calcium indicator, Domeier and colleagues investigated changes in intracellular calcium handling in response to increased preload. The unexpected finding was that after the acute preload challenge, many of the cells were missing-in-action. What was going on with these missing cells? Listen as we talk about how individual dystrophic cells blow up if stretched too far, and why pointing microscopes in different directions might be the next step to overcome optical imaging challenges. Don’t miss this episode – the enthusiasm for science, tiny pumping mouse hearts, and squishy cells is contagious!
     
    Vivian Haffner, Zahra Nourian, Erika M. Boerman, Michelle D. Lambert, Laurin M. Hanft, Maike Krenz, Christopher P. Baines, Dongsheng Duan, Kerry S. McDonald, Timothy L. Domeier Calcium handling dysfunction and cardiac damage following acute ventricular preload challenge in the dystrophin-deficient mouse heart Am J Physiol Heart Circ Physiol, published October 18, 2023. DOI: 10.1152/ajpheart.00265.2023

    • 28 min

Customer Reviews

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10 Ratings

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lilRauch ,

Science Rocks!

I love this podcast! It helps us understand what the authors are thinking and why they did this project! I would love if they had more “behind the bench” episodes, and would love to see trainee centered episodes as well. Keep crushing it!

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