← Leaderboards
William H Thiel
University Of Iowa
$2,869,383
Attributed
$3,832,515
Total exposure
2
Grants
1
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 $1M · FY2018–25$2M$1.5M$1M$500K$0
'18
'19
'20
'21
'22
'23
'24
'25
Funding mix
By agency
NIH$3,832,515 · 2
By mechanism
R01$3,832,515 · 2
Top collaborators
- Isabella Maria Grumbach4 shared
Most similar at University Of Iowa
Same institution · by research overlap
- Isabella Maria Grumbach$6,457,677
- Chih-Jen Cheng$1,231,560
- Emily Kim Nguyen$106,319
- Toru Nyunoya$1,996,520
Others in their field
Other Emerging Leaders on “Signal Transduction”
- Yunda Huang · Fred Hutchinson Cancer Center$53,064,276
- Susan Abushakra · Alzheon, Inc.$47,265,244
- Mathangi Thiagarajan · Leidos Biomedical Research, Inc.$37,695,154
- Leonard Freedman · Leidos Biomedical Research, Inc.$32,575,497
- Bala Raja · Luminostics, Inc.$28,624,460
- Suzanne L Baker · University Of Pittsburgh At Pittsburgh$20,465,582
Research focus
Signal TransductionRestenosisPreventBindingVascular DiseasesVascular Smooth Muscle Cell ProliferationImpairmentIn VivoStentsSmooth Muscle MyocytesTargeted TreatmentAptamerVascular Smooth MuscleBlood VesselsEndothelial CellsEventInjuryInnovationResponseReportingProliferatingVascular InjuryBaseBlood Flow
Grant awards (9)
Leveraging the mitochondrial regulator MIRO1 to prevent neointimal hyperplasia$62,540
R01 · FY2025 · HL
Leveraging the mitochondrial regulator MIRO1 to prevent neointimal hyperplasia$612,903
R01 · FY2024 · HL
Leveraging the mitochondrial regulator MIRO1 to prevent neointimal hyperplasia$625,411
R01 · FY2023 · HL
Leveraging the mitochondrial regulator MIRO1 to prevent neointimal hyperplasia$625,411
R01 · FY2022 · HL
Deciphering mechanisms of vascular disease with cell and process specific ligands$381,250
R01 · FY2022 · HL · contact PI
Deciphering mechanisms of vascular disease with cell and process specific ligands$381,250
R01 · FY2021 · HL · contact PI
Deciphering mechanisms of vascular disease with cell and process specific ligands$381,250
R01 · FY2020 · HL · contact PI
Deciphering mechanisms of vascular disease with cell and process specific ligands$381,250
R01 · FY2019 · HL · contact PI
Deciphering mechanisms of vascular disease with cell and process specific ligands$381,250
R01 · FY2018 · HL · contact PI