This proposal is for a new training program entitled ?Training the Next Generation in Respiratory Science? that capitalizes on our major local strengths. Historically UCSD had two T32 grants, one in Physiology (primarily gas exchange and exercise) and one in Pulmonology (primarily pulmonary hypertension). Over time, the field of physiology has evolved to solve new problems and in our view is not ?dead?. We remain focused on the importance of integrated function and systems biology and thus we use the concepts of physiology as an integrator across respiratory science studied at multiple levels. While we view our science as cutting edge, we pride ourselves on the fact that our trainees do not just focus on a single molecule or gene or receptor but rather keep in mind the importance of integrated function. We propose to continue our collaborative arrangements with Drs. Frank Powell and Atul Malhotra, current Chiefs of the Divisions of Physiology and PCCMS, respectively, as Multiple PIs. Training in respiratory science at UCSD has evolved considerably since Dr. Malhotra?s arrival as he brought in new strengths in sleep science as well as in critical care. Thus, we have expanded the research opportunities to prepare trainees for participating effectively in team science and continually renewing their approach to novel research questions that will arise during their careers. However, to improve the quality of mentoring, we also removed less effective mentors while adding more RO1-funded preceptors and formalizing the levels of faculty participation based on success in research training and current research funding. For example, UCSD now has considerable strength in Pediatric Lung Disease (e.g. Victor Nizet, Gabby Haddad, Rob Knight, Jim Hagood). Thus we made Pediatrics a major focus of our efforts which also addresses the national shortage in this area. We utilize individual development plans, overseen by the MPIs, Preceptors and senior advisors, for all of our trainees to accommodate people with diverse backgrounds and different research interests. We promote collaboration between MDs and PhDs, insure that everyone has experience and competency in multidisciplinary research, and insure all of our trainees have a strong foundation in physiological approaches that provides a clinical context for research problems studied at any level. We promote cohesiveness, team spirit and a unique identity for our trainees via common activities involving all of our trainees and mentors such as weekly scholarly activity meetings (SAMs), our Lung Investigator Group, and quarterly retreats. We are committed to a training program that includes every phase of academic career development, from ?cradle to grave? including developing junior faculty into independent investigators, and even improving the mentoring skills in our most senior faculty. We also remain committed to diversifying the next generation of respiratory scientists as demonstrated by our long-term track-record and recent recruitments. The lack of a robust pipeline for multidisciplinary researchers who can apply modern integrative approaches to problems in respiratory science is a crisis, but it is a challenge that we are well-qualified and anxious to address.

Public Health Relevance

This proposal is for a new training grant to support a well-established training program that integrates new approaches to make discoveries in lung disease, sleep and critical care. It will support the training of 6 postdoctoral fellows in various types of lung research from basic science to clinical trials. Using physiology as an integrator, individualized mentoring and team science are keys to building on our success at producing leaders in lung research with rich diversity with the ultimate goal of curing lung diseases.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Institutional National Research Service Award (T32)
Project #
5T32HL134632-05
Application #
10107839
Study Section
NHLBI Institutional Training Mechanism Review Committee (NITM)
Program Officer
White, Marquitta Jonisse
Project Start
2017-02-01
Project End
2022-01-31
Budget Start
2021-02-01
Budget End
2022-01-31
Support Year
5
Fiscal Year
2021
Total Cost
Indirect Cost
Name
University of California, San Diego
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
804355790
City
La Jolla
State
CA
Country
United States
Zip Code
92093
Sands, Scott A; Edwards, Bradley A; Terrill, Philip I et al. (2018) Identifying obstructive sleep apnoea patients responsive to supplemental oxygen therapy. Eur Respir J 52:
Malhotra, Atul; Crocker, Maureen E; Willes, Leslee et al. (2018) Patient Engagement Using New Technology to Improve Adherence to Positive Airway Pressure Therapy: A Retrospective Analysis. Chest 153:843-850
Cherian, Sujith V; Kumar, Anupam; Akasapu, Karunakar et al. (2018) Salvage therapies for refractory hypoxemia in ARDS. Respir Med 141:150-158
Orr, Jeremy E; Sands, Scott A; Edwards, Bradley A et al. (2018) Measuring Loop Gain via Home Sleep Testing in Patients with Obstructive Sleep Apnea. Am J Respir Crit Care Med 197:1353-1355
Ha, Duc; Ries, Andrew L; Montgrain, Philippe et al. (2018) Time to treatment and survival in veterans with lung cancer eligible for curative intent therapy. Respir Med 141:172-179
Girard, Timothy D; Exline, Matthew C; Carson, Shannon S et al. (2018) Haloperidol and Ziprasidone for Treatment of Delirium in Critical Illness. N Engl J Med :
Light, Matthew; Orr, Jeremy E; Malhotra, Atul et al. (2018) Continuous positive airway pressure device detects atrial fibrillation induced central sleep apnoea. Lancet 392:160
Deacon-Diaz, Naomi; Malhotra, Atul (2018) Inherent vs. Induced Loop Gain Abnormalities in Obstructive Sleep Apnea. Front Neurol 9:896
Mahajan, Sanjiv; Gupta, Kartik; Sinha, Sanjeev et al. (2018) Effect of kidney transplantation on sleep-disordered breathing in patients with End Stage Renal Disease: a polysomnographic study. Sleep Med 45:140-145
Light, Matthew; McCowen, Karen; Malhotra, Atul et al. (2018) Sleep apnea, metabolic disease, and the cutting edge of therapy. Metabolism 84:94-98

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