Symptoms of Shortness of Breath With an Elvad

CardioNerds (Amit Goyal & Karan Desai)  join Dr. Matthew Delfiner (Cardiology fellow, Temple University Hospital) and Dr. Katie Vanchiere (Internal medicine resident, Temple University Hospital) in the beautiful Fairmount Park in Philadelphia. They discuss a case of a 53-year-old man with an LVAD who presents with progressive dyspnea since LVAD implant due to right-to-left shunting due to a PFO. Dr. Val Rakita (Assistant professor of medicine and advanced heart failure and transplant specialist at Temple University Hospital) provides the E-CPR for this episode. Episode introduction by CardioNerds Clinical Trialist Dr. Anthony Peters (Duke Heart Center). This case has been published by Circulation: Heart failure. See Invasive Hemodynamic Study Unmasks Intracardiac Shunt With Ventricular Assist Device. Claim free CME just for enjoying this episode!  Disclosures: NoneJump to: Pearls - Notes - References CardioNerds Case Reports PageCardioNerds Episode PageCardioNerds AcademyCardionerds Healy Honor Roll CardioNerds Journal ClubSubscribe to The Heartbeat Newsletter!Check out CardioNerds SWAG!Become a CardioNerds Patron! Case Summary - Dyspnea with an LVAD: A Tale of Hypoxia and Hemodynamics A 53-year-old man with an LVAD placed 3 months prior presents with progressive dyspnea since LVAD implant, though it has acutely worsened over the past 2 weeks. Two weeks ago, he had a hemodynamic and echocardiographic ramp study, where the LVAD speed was increased. By increasing the speed, his LV was more adequately decongested, and flow improved. In the Emergency Department, he was hypoxic on room air, and remained so with escalation ultimately with intubation. Even then he remained severely hypoxic requiring cannulation to veno-venous ECMO. Chest imaging was normal, and LVAD parameters were normal without any alarms. An astute clinician noticed that when the patient became hypertensive, his oxygen saturation improved. A subsequent echocardiogram revealed a patent foramen ovale, with right to left shunting. The patient then went to the cath lab, where simultaneous right atrial and left atrial pressures and oxygen pressures were measured, along with trans-esophageal echocardiography, while adjusting LVAD speed. It became evident that right-to-left shunting occurred only when there was high LVAD speed and low peripheral blood pressure. Essentially, faster LVAD speeds (sucking blood from the LV) and low systemic blood pressure (reducing LV afterload) increased right to left shunting by decreasing the left atrial pressure relative to the right atrial pressure. The PFO was closed at that time, drastically improving oxygenation. He was decannulated and extubated the following day. Invasive Hemodynamic Study Unmasks Intracardiac Shunt With Ventricular Assist Device | Circulation: Heart Failure (ahajournals.org) Episode Teaching -Dyspnea with an LVAD: A Tale of Hypoxia and Hemodynamics Pearls PFOs are present in up to 25% of individuals, including those with LVADs.LV unloading, and therefore LA decompression, depends on both LVAD speed and systemic vascular resistance.Blood pressure dependent hypoxia may be suggestive of a right-to-left intracardiac shunt.Hypoxia refractory to mechanical ventilation should raise suspicion for intracardiac shunt.Patients with LVADs can suffer from the same diseases that anyone can. Notes - Dyspnea with an LVAD: A Tale of Hypoxia and Hemodynamics 1. What factors influence LVAD flow? Factors that influence LVAD flow include pump speed, blood pressure, volume status, RV function, cardiac rhythm, and some other variables. The faster the pump is spinning, the more flow you should provide (to an extent). However, if your LV is underfilled, either from systemic hypovolemia or an RV not providing the needed LV preload, then you have no blood to flow! If you have high systemic vascular resistance, then you will have less forward flow,