Final Program
4njPuP
4njPuP
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8 FRIDAY • MAY 13<br />
Chairing: H.B. Panitch, MD, Philadelphia, PA<br />
J.L. Allen, MD, Philadelphia, PA<br />
8:00 Lung Development and Neonatal Predisposition to Respiratory<br />
Failure<br />
M.J. Wallace, PhD, Melbourne, Australia<br />
8:35 Acute and Chronic Neonatal Respiratory Failure<br />
L.D. Nelin, MD, Columbus, OH<br />
9:10 The Physiology of Pediatric Ventilator-Induced Lung Injury<br />
M.C.J. Kneyber, MD, PhD, Groningen, Netherlands<br />
9:45 Break<br />
9:55 High Frequency Oscillatory Ventilation<br />
J.L. Allen, MD, Philadelphia, PA<br />
10:30 Lung Mechanics and Respiratory Failure<br />
J.P. Needleman, MD, Brooklyn, NY<br />
11:05 Ventilator Graphics<br />
H.B. Panitch, MD, Philadelphia, PA<br />
11:40 LUNCH<br />
12:20 Cardiopulmonary Interactions<br />
S. Lakshminrusimha, MD, Buffalo, NY<br />
12:55 Positive and Negative Pressure Ventilation<br />
G. Kurland, MD, Pittsburgh, PA<br />
1:30 Respiratory Muscles, Failure and Ventilator-Induced<br />
Diaphragm Injury<br />
G.J. Redding, MD, Seattle, WA<br />
2:05 Break<br />
2:15 Weaning in Pediatric Acute Respiratory Failure<br />
S. Venkataraman, MD, Pittsburgh, PA<br />
2:50 Weaning and Chronic Respiratory Failure<br />
T.G. Keens, MD, Los Angeles, CA<br />
3:25 Respiratory Muscle Weakness, Posture and Pulmonary<br />
Rehabilitation<br />
M. Massery, PT, DPT, DSc, Glenview, IL<br />
PG10<br />
BASIC • CLINICAL • TRANSLATIONAL<br />
POSTGRADUATE COURSE<br />
CME Credits Available: 7.25<br />
AIRWAY REMODELING IN HUMAN LUNG DISEASE:<br />
A BIG LAB MEETING 2016<br />
Pre-registration and additional fees required. Continental breakfast and<br />
box lunch included. Attendance is limited.<br />
Member: $350 In-Training Member: $200<br />
Non-Member: $425 In-Training Non-Member: $300<br />
Registrants must bring a laptop to the<br />
course to view the course material.<br />
Assemblies on Respiratory Cell and Molecular Biology; Allergy,<br />
Immunology and Inflammation; Clinical Problems; Critical Care;<br />
Environmental, Occupational and Population Health; Microbiology,<br />
Tuberculosis and Pulmonary Infections; Pediatrics; Pulmonary<br />
Circulation; Pulmonary Rehabilitation; Respiratory Structure and<br />
Function; Sleep and Respiratory Neurobiology; Thoracic Oncology<br />
8:00 a.m. - 4:00 p.m. MOSCONE CENTER<br />
Room 2022 (West Building, Level 2)<br />
Target Audience<br />
Lung health care providers, clinical and research fellow, investigators interested<br />
or involved in basic, translational and clinical research related to airway biology<br />
and pathogenesis of chronic lung diseases, research and care providers<br />
engaged in pulmonary and critical care medicine.<br />
Objectives<br />
At the conclusion of this session, the participant will be able to:<br />
• understand fundamental principles, heterogeneous phenotypes and specific<br />
mechanisms of airway remodeling in chronic human lung diseases; and<br />
how different cell types in the human airways interact with each other during<br />
the development of disease-associated remodeling phenotypes.<br />
• learn about advanced state of art methods and technologies to model and<br />
study human airway remodeling using patient derived samples.<br />
• implement current knowledge about airway remodeling in everyday<br />
research and understand how to translate the novel knowledge about<br />
complex mechanisms and phenotypes of airway remodeling into clinically<br />
relevant precision medicine approaches to better prevent, diagnose and<br />
treat human lung disease in a personalized manner.<br />
This course will have an innovative, “lab meeting” format, first successfully<br />
introduced at the ATS International Conference in 2015 by Dr. Shaykhiev and<br />
colleagues. As compared to the prior “big lab meeting” postgraduate course<br />
(PG25), which was focused on airway epithelium, the specific theme of the<br />
current session - airway remodeling - is broader and more multidisciplinary and<br />
translational in nature. The course will provide discussion of recent<br />
advancements in understanding of the contributions of and interactions among<br />
various tissue components (epithelium, fibroblasts, extracellular matrix, smooth<br />
muscle cells, vasculature, and innate immune cells) to airway remodeling in<br />
human chronic lung diseases. Special emphasis will be made on personalized<br />
approaches to study human airway remodeling and novel precision medicine<br />
approaches to prevent and treat lung diseases characterized by airway<br />
remodeling.<br />
Chairing: R. Shaykhiev, MD, PhD, New York, NY<br />
M. Konigshoff, MD, PhD, Munich, Germany<br />
R. Freishtat, MD, MPH, Washington, DC<br />
8:00 Airway Remodeling: Introduction to a Big Lab Meeting 2016<br />
M. Konigshoff, MD, PhD, Munich, Germany<br />
8:10 Keynote Lecture: The Many Faces of Airway Remodeling in<br />
Lung Disease<br />
J.C. Hogg, MD, PhD, Vancouver, Canada<br />
8:40 Basal Stem Cells and Airway Remodeling in COPD<br />
R. Shaykhiev, MD, PhD, New York, NY<br />
9:00 Cellular Origins of Airway Remodeling in Asthma<br />
T. Hackett, PhD, Vancouver, Canada<br />
9:20 Airway Regeneration and Remodeling in Cystic Fibrosis<br />
C. Coraux, PhD, Reims, France<br />
9:40 Patient-Derived Models of Airway Remodeling<br />
S.H. Randell, PhD, Chapel Hill, NC<br />
10:00 Break<br />
ATS 2016 • San Francisco