Year |
Title
|
Position |
3/1/1997- 6/30/2011 |
University of Pittsburgh Brain Trauma Research Center-Core A
|
Co-investigator |
6/14/2002- 1/31/2008 |
Preeclampsia Mechanisms and Post Pregnancy Implications
|
Co-investigator |
9/30/2003- 5/31/2008 |
Mechanisims of Cytoprotection in acute lung injury
|
Co-investigator |
6/1/2005- 5/31/2009 |
Center for Excellence in Detection, Diagnosis and Intervention in Dementia
|
Co-investigator |
2/13/2006- 2/12/2008 |
Novel Strategies in Experiemental Traumatic Brain Injury
|
Co-investigator |
07/01/08-06/30/10 |
Lung Oxidative Stress Inflammation by Carbon Nanotubes
|
Co-investigator |
2008 - 2013 |
Oxidative Lipidomics of Pulmonary Apoptosis in Hyperoxia |
Co-investigator |
07/17/09-06/30/10 |
Divergent Pathways of Cell Death after Brain Injury
|
Co-investigator |
09/01/09-08/31/10 |
Irradiation Damage and Protection of Pulmonary Endothelium Oxidative Lipidomics
|
Co-investigator |
08/31/10 |
Role of Cardiolipin Oxidation after Traumatic Brain Injury in Immature Rat
|
Co-investigator |
9/1/10-5/31/11 |
Mechanisms and Prevention of Etoposide-Induced Leukemia
|
Co-investigator |
2010 - 2012 |
Regulation of lyso-phospholipids for radiomitigation. Peroxidized and phospholipase A–modified phospholipids in radiation-induced apoptosis as possible targets for radiomitigation |
Principal Investigator |
2010-2011 |
Regulation of lyso-phospholipids for radiomitigation. Peroxidized and phospholipase A–modified phospholipids in radiation-induced apoptosis as possible targets for radiomitigation.
|
Co-investigator |
06/01/10-05/31/11 |
Oxidative Lipidomics of Pulmonary Endothelial Apoptosis in Hyperoxia
|
Co-investigator |
09/15/11 |
Novel Mitochondrial Targeted drugs for Treatment of the Irradiation-Induced Hematopoietic Syndrome |
Co-investigator |
2011 - 2013 |
Phosphatidylserine and its peroxidized and Lp-PLA2-hydrolyzed species on cell surface: Role in clearance of apoptotic cells by macrophages |
|
2012 - 2013 |
Complexes of mitochondria-targeted XJB 5-131 bound to branched polyethylene glycol functionalized carbon nanotubes will prolong its half-life in blood circulation and enhance tissue uptake and intracellular distribution, ultimately improving its efficiency as a radiation mitigator. |
Principal Investigator |
2012 - 2016 |
Oxygenated Species of Cardiolipins as Biomarkers of Mitochondrial Dysfunction |
Co-investigator |
2012 - 2017 |
Molecular and Cellular Control of Placental Metabolism - Project 3 |
Co-investigator |
2012 - 2017 |
Lipids and Myeloid Cell Function in Cancer |
Co-investigator |
2012 - 2017 |
Mapping Lipid Oxidation in Traumatic Brain Injury by mass s Spectrometric Imaging |
Co-investigator |
2013 - 2017 |
Oxidative Lipidomics Core (Core B) |
Co-investigator |