Primary graft dysfunction (PGD) is severe acute lung injury occurring in the days after lung transplantation, characterized by diffuse pulmonary edema and profound hypoxemia. PGD has a major impact on outcomes following lung transplantation, markedly increasing morbidity, mortality, and cost. Thus, reduction in the incidence of PGD would dramatically improve clinical and economic outcomes following lung transplantation. In addition, concern about PGD following lung transplantation is a main reason why more lung donors are not considered suitable, therefore the ability to predict PGD could increase the number of transplants performed. Recent work by our group suggests that inherent donor and recipient characteristics play an important role in determining risk of PGD. In addition, like many other forms of acute lung injury and ischemia reperfusion injury, there is evidence that oxidant stress pathways play an important role in the process leading to PGD. Specifically, we hypothesize that genetic variation in regulators of reactive oxygen species (ROS) production and detoxification in donors and recipients influences the risk of PGD following lung transplantation. This study expands our established multicenter cohort study infrastructure, including prospective clinical data collection and sequential blood sample collection, to achieve the following specific aims: 1) Determine the association of candidate oxidant stress regulatory genes in recipients with development of PGD following lung transplantation;and 2) Determine the association of candidate oxidant stress regulatory genes in donors with development of PGD following lung transplantation. To achieve these aims, we plan a multicentered cohort study including over 2200 subjects at 9 different centers throughout the U.S. Analyses will include both individual candidate functional SNP associations as well as haplotype associations with PGD, adjustment for confounding clinical variables;testing interactions of candidate genes and haplotypes with clinical variables;determination of gene/gene interactions;and evaluation of genotypes as clinical predictors of PGD The results of the current molecular epidemiological proposal will directly lead to better understanding of the causes of PGD;suggest further clinical and laboratory investigations aimed at understanding discovered genetic associations;increase the ability to predict PGD in donors and recipients to stratify risk;identify low- risk procedures for liberalization of traditional donor criteria;and suggest prevention trials of PGD in specific at-risk populations using pharmacogenomic approaches.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL081619-04
Application #
7762843
Study Section
Special Emphasis Panel (ZRG1-SBIB-E (02))
Program Officer
Reynolds, Herbert Y
Project Start
2007-02-15
Project End
2012-01-31
Budget Start
2010-02-01
Budget End
2011-01-31
Support Year
4
Fiscal Year
2010
Total Cost
$761,441
Indirect Cost
Name
University of Pennsylvania
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
042250712
City
Philadelphia
State
PA
Country
United States
Zip Code
19104
Singer, Jonathan P; Diamond, Joshua M; Anderson, Michaela R et al. (2018) Frailty phenotypes and mortality after lung transplantation: A prospective cohort study. Am J Transplant 18:1995-2004
Cantu, Edward; Diamond, Joshua M; Suzuki, Yoshikazu et al. (2018) Quantitative Evidence for Revising the Definition of Primary Graft Dysfunction after Lung Transplant. Am J Respir Crit Care Med 197:235-243
Porteous, Mary K; Lee, James C; Lederer, David J et al. (2017) Clinical Risk Factors and Prognostic Model for Primary Graft Dysfunction after Lung Transplantation in Patients with Pulmonary Hypertension. Ann Am Thorac Soc 14:1514-1522
Borders, Catherine F; Suzuki, Yoshikazu; Lasky, Jared et al. (2017) Massive donor transfusion potentially increases recipient mortality after lung transplantation. J Thorac Cardiovasc Surg 153:1197-1203.e2
Diamond, Joshua M; Arcasoy, Selim; McDonnough, Jamiela A et al. (2017) Adipose Gene Expression Profile Changes With Lung Allograft Reperfusion. Am J Transplant 17:239-245
Diamond, J M; Cantu, E; Porteous, M K et al. (2017) Peripheral Blood Gene Expression Changes Associated With Primary Graft Dysfunction After Lung Transplantation. Am J Transplant 17:1770-1777
Monticelli, Laurel A; Buck, Michael D; Flamar, Anne-Laure et al. (2016) Arginase 1 is an innate lymphoid-cell-intrinsic metabolic checkpoint controlling type 2 inflammation. Nat Immunol 17:656-65
Diamond, J M; Shah, R J; Cantu 3rd, E et al. (2016) Survey of Lung Transplant Community's Views on Primary Graft Dysfunction. Am J Transplant 16:724-6
Cantu, E; Suzuki, Y; Diamond, J M et al. (2016) Protein Quantitative Trait Loci Analysis Identifies Genetic Variation in the Innate Immune Regulator TOLLIP in Post-Lung Transplant Primary Graft Dysfunction Risk. Am J Transplant 16:833-40
Porteous, Mary K; Ky, Bonnie; Kirkpatrick, James N et al. (2016) Diastolic Dysfunction Increases the Risk of Primary Graft Dysfunction after Lung Transplant. Am J Respir Crit Care Med 193:1392-400

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