about
Activation of hypoxia-inducible factor-1α in type 2 alveolar epithelial cell is a major driver of acute inflammation following lung contusionElectroporation-mediated in vivo gene delivery of the Na+/K+-ATPase pump reduced lung injury in a mouse model of lung contusionElectroporation-mediated delivery of genes in rodent models of lung contusion.Alveolar macrophage depletion increases the severity of acute inflammation following nonlethal unilateral lung contusion in miceElectroporation-mediated gene transfer of the Na+,K+ -ATPase rescues endotoxin-induced lung injury.Role of macrophage chemoattractant protein-1 in acute inflammation after lung contusionMolecular Characterization of Hypoxic Alveolar Epithelial Cells After Lung Contusion Indicates an Important Role for HIF-1α.Increased phospholipase A2 and lyso-phosphatidylcholine levels are associated with surfactant dysfunction in lung contusion injury in miceElectrical Impedance Spectroscopy Study of Biological Tissues.Identification of preoperative risk factors associated with the conversion of laparoscopic to open appendectomiesThe protective role of MnTBAP in oxidant-mediated injury and inflammation in a rat model of lung contusion.Electroporation-mediated delivery of the FER gene in the resolution of trauma-related fatal pneumonia.Reduction in Venous Thromboembolism Events: Trauma Performance Improvement and Loop Closure Through Participation in a State-Wide Quality Collaborative.Improvement in acute care surgery medical student education and clerkships: use of feedback and loop closure.Double-Stranded RNA Interacts With Toll-Like Receptor 3 in Driving the Acute Inflammatory Response Following Lung Contusion.Electroporation as a method for high-level nonviral gene transfer to the lung.Abdominal pain and faeculent vomiting in a 64-year-old woman.Toll-Like Receptor-9 (TLR9) is Requisite for Acute Inflammatory Response and Injury Following Lung Contusion.Evidence-based protocol for prophylactic antibiotics in open fractures: improved antibiotic stewardship with no increase in infection rates.Gene transfer of the Na+,K+-ATPase beta1 subunit using electroporation increases lung liquid clearance.Erratum to “Erratum to “The SCARE guidelines: Consensus-based surgical case report guidelines” [Int. J. Surg. 34 (2016) 180–186]” [Int. J. Surg. 36 (2016) 396]Erratum to “The SCARE guidelines: Consensus-based surgical case report guidelines” [Int. J. Surg. 34 (2016) 180–186]The SCARE Statement: Consensus-based surgical case report guidelinesTaking Control of Your Surgery: Impact of a Prehabilitation Program on Major Abdominal SurgeryAn AAST-MITC analysis of pancreatic trauma: Staple or sew? Resect or drain?Electroporation-mediated delivery of FER gene enhances innate immune response and improves survival in a murine model of pneumoniaFrailty as a Predictor of Colonoscopic Procedural Risk: Robust Associations from Fragile PatientsImproving patient selection in Living-Donor Liver transplantation: Prognostication with pre-transplant 18-fluoro-deoxyglucose Positron Emission TomographyWhat's New in Shock, August 2019?Complications and resource utilization in trauma patients with diabetes
P50
Q34575771-E9E9328C-3E90-48C8-B5FF-9BFE94BC096BQ35745720-B0E472C0-93D3-4B92-9786-0AAD8520B9CEQ35954811-C272E8DE-8E27-4F85-B65A-83F82CD23FB6Q35976883-BC0571DB-40E2-49B1-A359-5D609E19A6BEQ36013680-6F1280C8-F7AB-4287-BF66-D65610E080FEQ36049758-1338B0E3-75D5-4A40-9AB0-7D9643700950Q36181856-3B9E79E5-1342-47B6-A75C-48260F5B7FA7Q36431321-E22EEB0A-2819-46FB-9964-9A5C0A25576CQ37004322-1B61B6B3-13DE-4DD5-A404-8F7F1DF16A2CQ37311105-C997675D-1AC1-4E73-A0A5-60F5752ED2B9Q37373482-9EE222A9-3BD8-4AB1-B4CE-A6162101ABF6Q37395927-73C2F03A-7E37-4690-9C79-35BBFCB15F14Q38388333-19FA2457-9B4C-4557-936A-EE2C6CE6703BQ38543239-BA861359-046F-4AF3-8832-CCE7BC15567DQ40537049-2AC87AFB-1EB3-425C-AC42-34E16FE473BEQ40569436-687D1B70-39F2-4C45-9389-236872DBD767Q40845915-E37DEE58-53AB-4025-ABC6-13249A61E363Q41657450-E8D3E56D-8168-4CDB-9A27-0C1C80914817Q42679096-C2742F56-C043-4F25-8660-15D0E3B20326Q42858380-FAC43C92-2481-4AA2-BE83-042227C41D78Q57781771-02028048-6A46-4898-A5F6-55E8AE00FE56Q57781773-4501A718-63B9-4013-8508-5355E6A5D107Q57781779-61E12F44-D9B8-4231-8EAD-227113C78280Q57821157-09C38691-E3E5-4416-99A9-9F6A3F5FF466Q88772262-C3D405AC-2EAC-4892-B5D2-C7FC0B697CA3Q89121819-1ECCA3F3-D222-4326-A632-D3F3E19F3C93Q89207990-BC9CC304-224E-41C5-AF91-804C1284FA20Q91195794-03F0C6D6-E810-4144-94B0-A74A38CEDCD1Q91885202-1614D32B-6BAA-4456-8490-9F04F6FD3ED8Q92956867-D23EE120-E64F-47EF-B609-0504DA45377A
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
David Machado-Aranda
@ast
David Machado-Aranda
@en
David Machado-Aranda
@es
David Machado-Aranda
@nl
David Machado-Aranda
@sl
type
label
David Machado-Aranda
@ast
David Machado-Aranda
@en
David Machado-Aranda
@es
David Machado-Aranda
@nl
David Machado-Aranda
@sl
prefLabel
David Machado-Aranda
@ast
David Machado-Aranda
@en
David Machado-Aranda
@es
David Machado-Aranda
@nl
David Machado-Aranda
@sl
P106
P1153
6507645223
P21
P31
P3835
david-machado-aranda
P496
0000-0003-3716-962X