ATS 2019 Virtual Final Program

BASIC • CLINICAL POSTGRADUATE COURSE CME Credits Available: 6.5 PG10 RESPIRATORY PHYSIOLOGY INTERACTIVE R Pre-registration and additional fees required. Continental breakfast and box lunch included. Attendance is limited. Member: $350 In-Training Member: $200 Non-Member: $425 In-Training Non-Member: $300 : Registrants must bring a laptop to the course to view the course material. Assemblies on Respiratory Structure and Function; Critical Care; Pulmonary Circulation 8:00 a.m. - 4:00 p.m. KBHCCD Room C155 (Level 1) Target Audience Practicing physicians, advanced practice providers and resident-to-fellow level trainees whose primary clinical focus is pulmonary and critical care medicine Objectives At the conclusion of this session, the participant will be able to: • describe the core principles of respiratory mechanics and apply them in patient care scenarios; • delineate the core principles of gas exchange, blood gas transport and control of breathing and apply them to diagnose the causes of hypoxemia, hyper- and hypocarbia and impaired oxygen delivery; • predict changes in key physiologic parameters in response to stresses such as exercise or exposure to hypobaric hypoxia. Employing principles of active learning and case-based problem solving, this post-graduate seminar will review core principles of respiratory physiology including respiratory mechanics, gas exchange, blood gas transport, control of breathing, the pulmonary circulation and exercise physiology. To enhance learner engagement and knowledge retention, the seminar will utilize a variant of the flipped classroom model in which content is covered using a combination of mini-lectures and interactive activities in small groups throughout the day rather than simply a set of didactic lectures. Learners will build and reinforce knowledge they can use in the care of their patients and their work educating learners about these concepts. Chairing: A. Luks, MD, Seattle, WA B. Coruh, MD, Seattle, WA 8:00 Introduction B. Coruh, MD, Seattle, WA 8:10 Respiratory Mechanics K. Hibbert, MD, Boston, MA 8:25 Small Group Learning 9:05 How We Handle Oxygen J.T. Poston, MD, Chicago, IL 9:20 Small Group Learning 10:00 Break 10:15 How We Handle Carbon Dioxide A. Luks, MD, Seattle, WA 10:30 Small Group Learning 11:10 Why Is This Patient Hypoxemic J. Petersson, MD, PhD, Stockholm, Sweden 11:25 Small Group Learning 12:05 LUNCH 1:00 How We Move Blood Through the Lungs B.A. Cockrill, MD, Boston, MA 1:15 Small Group Learning 1:55 How We Control Breathing P.G. Carvalho, MD, Boise, ID 2:10 Small Group Learning 2:50 Break 3:05 How We Exercise R.W. Glenny, MD, Seattle, WA 3:20 Small Group Learning BASIC • CLINICAL • TRANSLATIONAL POSTGRADUATE COURSE CME Credits Available: 6 PG11 CARDIOMETABOLIC OUTCOMES OF OBSTRUCTIVE SLEEP APNEA TREATMENT: FROM EVIDENCE INTO PRACTICE R Pre-registration and additional fees required. Continental breakfast and box lunch included. Attendance is limited. Member: $350 In-Training Member: $200 Non-Member: $425 In-Training Non-Member: $300 : Registrants must bring a laptop to the course to view the course material. Assembly on Sleep and Respiratory Neurobiology 8:00 a.m. - 4:00 p.m. KBHCCD Room D162/D164 (Level 1) Target Audience Sleep physicians, pulmonary physicians, cardiology physicians, pulmonary, critical care, cardiology and sleep fellows, nurses and all allied health professionals taking care of OSA patients, OSA researchers, graduate and postgraduate students Objectives At the conclusion of this session, the participant will be able to: • describe the pathophysiological effects of OSA on the metabolic and cardiovascular system including autonomic, inflammatory and oxidative stress mechanisms; • better understand the cardiovascular complications of OSA and the epidemiological evidence that links OSA with various metabolic and CVD outcomes; • describe the effects of treatment for OSA on metabolic and cardiovascular outcomes based on evidence from the clinical trials as well as the management of OSA with regard to primary and secondary cardiovascular prevention models. Obstructive sleep apnea (OSA) is a common disorder associated with increased risk for metabolic disorders and cardiovascular diseases (CVD). The first line ATS 2019 • Dallas, TX FRIDAY • MAY 17 9 FRIDAY