Abstract# | Full Name | Abstract Title |
---|---|---|
1 | Mir Ali | Mitochondrial calcium signaling regulates the differentiation of alveolar epithelial type 2 cells into type 1 cells through an alpha-ketoglutarate -mediated epigenetic pathway |
2 | Matthew Aronson | Antimicrobial Peptide Eluting Endotracheal Tubes Prevent Subglottic Stenosis in a Mouse Model |
3 | Danielle Callaway | Loss of TGFβ impacts type 1 alveolar epithelial cell-mediated extracellular matrix production and cell plasticity |
4 | Fabian Cardenas | Temporal and spatial staging of lung alveolar regeneration is determined by the grainyhead transcription factor Tfcp2l1 |
5 | Prashant Chandrasekaran | WNT signaling guides spatiotemporal allocation of cardiopulmonary progenitor cells during development |
6 | Liam Chase | Motion Tracking Cage: Using DeepLabCut to Quantify Infusion Reactions |
7 | Fatima Chaudhry | Hippo signaling in transient pulmonary myofibroblasts is required for alveolar development |
8 | Katrina Chavez | Development and Validation of a Novel Translationally Relevant Murine Model of Pulmonary Fibrosis Based Upon a Pathogenic Surfactant Protein C Mutation |
9 | Michelle Cully | Loss of IKKa in lymphatic endothelial cells disrupts lymphoid organ formation and protects mice from infection with influenza virus |
10 | Thalia Dimopoulos | Compensatory UPR Responses Observed After Small Molecule Intervention in an in-vitro Model of Mutant Aggregating Surfactant Protein C |
11 | Lamyae El Khalki | Flavored electronic cigarette aerosols impair mitochondrial function in pulmonary epithelial cells |
12 | Eno-obong Essien | Vascular Targeted Nanoparticles Delivery in ARDS |
13 | Marilena Gentile | Defining the signals that generate tuft cells and their role in epithelial remodeling following influenza pneumonia |
14 | Akansha Goel | mTORC1 Activation in Lung Mesenchyme Dysregulates Vascular Endothelial Transcriptome and Contributes to Pulmonary Vascular Remodeling |
15 | Hassan Hayek | FASN regulation by miR-143-5p and miR-342-5p in alveolar type II cells in idiopathic pulmonary fibrosis |
16 | Evan Hoffman | Human alveolar hydrogels promote expression of maturation and transdifferentiation markers in human iPSC-derived alveolar type 2 epithelial cells |
17 | Swati Iyer | ATF6: Regulation of ER Homeostasis and Aggregate Protein Degradation in the Alveolar Epithelium |
18 | Dakota Jones | Elucidating the role of divergent mesenchymal cell populations in lung injury and regeneration |
19 | Sara Kass-Gergi | Modeling COVID-19 Comorbidities in an Induced Diabetes Model |
20 |
Metthew Lam | Microbial DNA capture by RBC contributes to inflammation and heterogeneity in sepsis |
21 | Derek Liberti | Mesenchymal Brd4 is required for lung morphogenesis |
22 | Krithika Lingappan | Effect of Sex chromosomes versus Hormones on the neonatal lung at single cell resolution |
23 | Xiaonan Ma | Pulmonary Inhaled Nanocarriers Improve Pharmacokinetics of Drug Delivery to the Distal Lung for Pulmonary Fibrosis |
24 | Elizabeth McCluskey | Quercetin promotes normal airway epithelial regeneration from COPD basal cells | Elizabeth McCluskey, Nathan Liu, Abhi Pandey and Uma Sajjan |
25 | Nigel Michki | Characterizing the cellular mechanisms underlying congenital pulmonary airway malformation development in children |
26 | Alexander Mukhitov | Lysosomes functions and transport in Lymphangioleiomyomatosis |
27 | Aditi Murthy | Coronavirus triggers activation of ER stress and disruption of surfactant homeostasis: implications for Covid-19 respiratory failure and pathogenesis in a murine model |
28 | Terren Niethamer | ATF3 promotes endothelial cell response to acute lung injury |
29 | Estela Noguera-Ortega | FAP CAR T cell therapy for solid tumors with PET imaging |
30 | Kseniya Obraztsova | Fibrotic activation and collagen deposition in LAM lung lesions |
31 | Serena Omo-Lamai | Modifying RNA-lipid-nanoparticles for treating inflammatory states |
32 | Oindrila Paul | Role of NK cells in circadian regulation of lung inflammation |
33 | Joe Planer | Myeloid immune dynamics influence alveolar regeneration following viral lung injury |
34 | Enkhee Purev | Cherry-flavored e-cigarettes induce human and murine lung injury |
35 | Charu Rajput | TSLP receptor knockout mice spontaneously develop COPD-like lung disease |
36 | Mahdi Rashidzada | Effect of environmental lighting on circadian gating on lung injury from influenza |
37 | Luis Rodriguez | AMP-Kinase: A Targetable Hub at The Crossroads of Autophagy and Mitochondrial Biogenesis in the Dysfunctional Alveolar Epithelium of Idiopathic Pulmonary Fibrosis |
38 | Kate Rubey | Neutrophils retain bacterial phagocytic capacity after interaction with nanoparticles with agglutinated protein (NAP) |
39 | Kazushige Shiraishi | Biophysical forces regulate lung alveolar epithelial cell fate |
40 | Mohsen Tabasi | Dispersal and Killing of Biofilm Bacteria Using Portable Photochemical Gas Phase Nitric Oxide Generator |
41 | Andy Vaughan | Vaughan Lab Vignettes |
42 | Joanna Wang | Age-dependent loss of alveolar type II cells and impaired proliferation in a murine model of Hermansky-Pudlak syndrome-related pulmonary fibrosis |
43 | Kai-Wen Wang | The Role of GLIS3 in Alveolar Type II Cells in Aging |
44 | Aaron Weiner | ΔNp63 drives dysplastic alveolar remodeling and restricts epithelial plasticity upon severe lung injury |
45 | Hongbo Wen | Endodermal Brd4 is required for lung development |
46 | Joanna Wong | Response to Injury and Revascularization of the Pulmonary Vasculature After Influenza Injury |
47 | Khanutsanan Woranam | The role of TRAF6 in alveolar type II cells in emphysema |
48 | Ling Wu | IL-1R-signaling in Pulmonary Immune Defense |
49 | Michael Zaleski | Conjugation chemistry used to build drug delivery systems determines complement activation and associated efficacy and safety |
50 | Gan Zhao | Targeted Pulmonary Vascular Therapy During TGFβR2-mediated Lung Endothelial Regeneration After Viral Injury |