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Limiting the impact of stroke

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Title: Limiting the impact of stroke.
Investigator:  N Shanbhag
Promotor:  RH Henning, L Schilling
Summary:   In this project, the therapeutic action of oxygen carriers and hibernation-derived compounds will be assessed in stroke models. Further, expression patterns and regulation of CBS is studied. 
Financing:  GRK880/Tasman funding
Start: 1-11-2013
End: 1-11-2014 

Projects
Organ damage and the role of CBS in hibernation.
Mechanisms and modulation of the immune response in sterile sepsis.
The CBS/H2S pathway in the brain.
Platelet dynamics in natural and pharmacologically induced hibernation.
Liver fibrosis and hibernation.
Towards prevention of neuroinflammation in major surgery.
Limiting the impact of stroke.
Identification of kinomic key proteins involved in tachycardia and stretch induced cardiomyocyte remodeling.
Role of epigenetic regulation by histone acetylation in the induction of Atrial Fibrillation.
Reversal of cardiomyocyte remodeling in Atrial Fibrillation; the role of protein degradation and translation modulators.
REVersal of cardiomyocyte structural remodeling and Improvement of functional recoVEry in Atrial Fibrillation: REVIVE.
HSF1 Activators Lower cardiomyocyte damage: towards a novel Therapeutic approach to REVERSE Atrial Fibrillation. HALT&REVERSE
Mutations in HSPB5, HSPB7 and BAG3 lead to juvenile DCM.
New therapeutic targets in diabetic kidney disease. A role of GDF-15?
Role of cyclooxygenase signalling on vascular dysfunction in the metabolic syndrome.
Vascular (Dys-)Function as a Determinant of Susceptibility to Diabetic Nephropathy: a Focus on Myogenic Constriction.