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Ajit P Yoganathan
Georgia Institute Of Technology
$19,919,077
Attributed
$30,917,944
Total exposure
11
Grants
5
Lead (contact PI)
Attributed= this PI's even-split share of every grant they're on (the fair, additive number). Exposure = full size of all those grants.
Funding over time
peak $3.2M · FY2005–25$5M$3.8M$2.5M$1.3M$0
'05
'06
'07
'08
'09
'10
'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
'25
Funding mix
By agency
NIH$30,917,944 · 11
By mechanism
R01$30,508,862 · 10
R21$409,082 · 1
Top collaborators
- Hanjoong Jo10 shared
- Joseph H Gorman9 shared
- Michael S Sacks5 shared
- John N Oshinski4 shared
- Fotis Sotiropoulos4 shared
- Vinod Thourani4 shared
- Robert C Gorman3 shared
- Dongfang Wang2 shared
Most similar at Georgia Institute Of Technology
Same institution · by research overlap
- Fotis Sotiropoulos$433,367
- Vinod Thourani$839,675
Others in their field
Top investigators on “Design”
- Lawrence Corey · Fred Hutchinson Cancer Center$736,542,541
- Sonia M Thomas · Research Triangle Institute$700,865,642
- Tracy L Nolen · Research Triangle Institute$474,487,152
- David Heimbrook · Leidos Biomedical Research, Inc.$460,267,569
- Jeffrey P Krischer · University Of South Florida$427,700,530
- David R. Weir · University Of Michigan At Ann Arbor$385,316,144
Research focus
DesignIn VitroLeadIn VivoOperative Surgical ProceduresHemodynamicsRepairedVentricularCardiovascular SystemCardiacStressComputer SimulationMechanicsPositioning AttributeTissuesBaseShear StressPerformanceShapesPublic Health RelevancePhysiologicalMitral ValveHeartMitral Valve Insufficiency
Grant awards (50)
Development of a Percutaneous Double Lumen Cannula-Based Cavopulmonary Assist System Toward Clinical Application$663,225
R01 · FY2025 · HL
Development of a Percutaneous Double Lumen Cannula-Based Cavopulmonary Assist System Toward Clinical Application$663,863
R01 · FY2024 · HL
Shear stress, endothelial miRNAs, and AV calcification$47,015
R01 · FY2022 · HL
Optimized Mitral Annuloplasty$758,432
R01 · FY2021 · HL
Shear stress, endothelial miRNAs, and AV calcification$624,123
R01 · FY2021 · HL
Optimized Mitral Annuloplasty$766,348
R01 · FY2020 · HL
Shear stress, endothelial miRNAs, and AV calcification$571,109
R01 · FY2020 · HL
Shear stress, endothelial miRNAs, and AV calcification$15,671
R01 · FY2020 · HL
Optimized Mitral Annuloplasty$791,755
R01 · FY2019 · HL
Shear stress, endothelial miRNAs, and AV calcification$588,506
R01 · FY2019 · HL
Remodeling potential of the mitral valve following surgical repair$1,319,793
R01 · FY2017 · HL
Shear stress, endothelial miRNAs, and AV calcification$462,869
R01 · FY2017 · HL
Remodeling potential of the mitral valve following surgical repair$1,319,793
R01 · FY2016 · HL
Quantitative Force Measurements to Optimize Valve Repair for Ischemic MR$730,513
R01 · FY2016 · HL
Shear stress, endothelial miRNAs, and AV calcification$462,869
R01 · FY2016 · HL
Remodeling potential of the mitral valve following surgical repair$1,299,996
R01 · FY2015 · HL
Quantitative Force Measurements to Optimize Valve Repair for Ischemic MR$715,001
R01 · FY2015 · HL
Shear stress, endothelial miRNAs, and AV calcification$455,926
R01 · FY2015 · HL
Remodeling potential of the mitral valve following surgical repair$1,308,096
R01 · FY2014 · HL
Quantitative Force Measurements to Optimize Valve Repair for Ischemic MR$710,986
R01 · FY2014 · HL
Shear stress, endothelial miRNAs, and AV calcification$459,946
R01 · FY2014 · HL
Remodeling potential of the mitral valve following surgical repair$1,307,364
R01 · FY2013 · HL
Quantitative Force Measurements to Optimize Valve Repair for Ischemic MR$707,189
R01 · FY2013 · HL
Understanding mechanisms of Fontan failure and key predictors for patient outcome$692,223
R01 · FY2013 · HL · contact PI
Shear stress, endothelial miRNAs, and AV calcification$462,131
R01 · FY2013 · HL
Understanding mechanisms of Fontan failure and key predictors for patient outcome$744,227
R01 · FY2012 · HL · contact PI
Understanding mechanisms of Fontan failure and key predictors for patient outcome$743,611
R01 · FY2011 · HL · contact PI
Computational Modeling of Mechanical Heart Valves$414,186
R01 · FY2011 · HL · contact PI
Understanding mechanisms of Fontan failure and key predictors for patient outcome$774,867
R01 · FY2010 · HL · contact PI
Computational Modeling of Mechanical Heart Valves$417,638
R01 · FY2010 · HL · contact PI
Annular and Sub-Valvular Repair Techniques for Ischemic Mitral Regurgitation: In-$381,561
R01 · FY2010 · HL · contact PI
Reduction of Thromboembolic Potential in Cardiac Devices Via Passive Flow Control$185,666
R21 · FY2010 · HL · contact PI
Computational Modeling of Mechanical Heart Valves$439,893
R01 · FY2009 · HL · contact PI
Annular and Sub-Valvular Repair Techniques for Ischemic Mitral Regurgitation: In-$394,311
R01 · FY2009 · HL · contact PI
Reduction of Thromboembolic Potential in Cardiac Devices Via Passive Flow Control$223,416
R21 · FY2009 · HL · contact PI
Computational Modeling of Mechanical Heart Valves$461,751
R01 · FY2008 · HL · contact PI
Improving Flow Dynamics in Fontan Surgeries$1,020,403
R01 · FY2006 · HL · contact PI
Computational Modeling of Mechanical Heart Valves$319,930
R01 · FY2006 · HL · contact PI
Improving Flow Dynamics in Fontan Surgeries$1,043,017
R01 · FY2005 · HL
Computational Modeling of Mechanical Heart Valves$327,598
R01 · FY2005 · HL
Improving Flow Dynamics in Fontan Surgeries$24,735
R01 · FY2005 · HL
Improving Flow Dynamics in Fontan Surgeries$1,006,312
R01 · FY2004 · HL
Fluid Mechanics of the Mitral Valve: In Vitro Studies$335,893
R01 · FY2004 · HL
Computational Modeling of Mechanical Heart Valves$327,598
R01 · FY2004 · HL
Improving Flow Dynamics in Fontan Surgeries$985,052
R01 · FY2003 · HL
Computational Modeling of Mechanical Heart Valves$339,898
R01 · FY2003 · HL
Fluid Mechanics of the Mitral Valve: In Vitro Studies$335,893
R01 · FY2003 · HL
Improving Flow Dynamics in Fontan Surgeries$1,093,960
R01 · FY2002 · HL
Fluid Mechanics of the Mitral Valve: In Vitro Studies$335,893
R01 · FY2002 · HL
Fluid Mechanics of the Mitral Valve: In Vitro Studies$335,893
R01 · FY2001 · HL